EP0400994B1 - Aufzug mit Linearmotorantrieb - Google Patents
Aufzug mit Linearmotorantrieb Download PDFInfo
- Publication number
- EP0400994B1 EP0400994B1 EP19900305886 EP90305886A EP0400994B1 EP 0400994 B1 EP0400994 B1 EP 0400994B1 EP 19900305886 EP19900305886 EP 19900305886 EP 90305886 A EP90305886 A EP 90305886A EP 0400994 B1 EP0400994 B1 EP 0400994B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- sheave
- driving element
- cage
- linear motor
- elevator
- Prior art date
- 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.)
- Revoked
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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
- B66B11/0407—Driving gear ; Details thereof, e.g. seals actuated by an electrical linear motor
Definitions
- This invention relates to elevators and more particularly to an elevator driven by a linear motor.
- hydraulic elevators are used in buildings with relatively few stories.
- the hydraulic unit is usually arranged in a pit formed in a lower portion of an elevator shaft.
- the hydraulic unit moves the elevator cage upwardly and downwardly.
- an hydraulic elevator has a simplified structure at the upper portion of the elevator shaft.
- Roped elevators typically have very complicated structures at the top of the elevator shaft including traction motors, drive sheaves and the like. Such complicated structures typically occupy a great deal of space which is undesirable where building space is at a premium.
- elevators having a linear motor as a driving source have been developed.
- elevators using a linear motor as a driving source are disclosed in Japanese Kokai Patents No. Sho 48 [1973]-54644 and No. Sho 57 [1982]-121568.
- EP-A-48847 discloses an elevator comprising a cage, a rotatable sheave, a rope having one portion supporting said cage and another portion engaged about said sheave, a first driving element, a fixed second driving element separated from said first element by a prescribed gap wherein one of said first driving element and said second driving element forms a primary conductor of a linear motor connected to a power source and the other of said first driving element and said second driving element forms a secondary conductor of said linear motor which generates an induced magnetic field due to excitation of the said primary conductor.
- the invention is characterised over such prior art in that said rotatable sheave is mounted for vertical movement, in that said rope extends between-a fixed support and said cage about said sheave and in that said first driving element is attached to said sheave whereby operation of said linear motor translates said sheave, said rope and said cage up and down.
- the first element is an axially translatable column protruding downwardly from a frame attaching to the sheave.
- the second element is a cylinder fixed below the lowest stroke of the sheave within the shaft, the column penetrating the cylinder to form the linear motor.
- the first element is a cylinder attaching to a movable frame.
- the second element is a relatively fixed column arranged in parallel to the elevator shaft, the column penetrating the cylinder to form the linear motor.
- an elevator employing an embodiment of the invention is disclosed.
- Cage 10 is guided by guide rollers 16 along a pair of guide rails 14 mounted in an elevator shaft 12.
- a brake unit (as shown in Figure 4) may be formed within a structural part of lower portion of cage 10. The brake unit is engaged to engage the guide rails to stop the car at a certain floor, upon interruption of the power source, or upon the occurrence of an earthquake or other emergency as will be discussed below.
- a rope 11 has one end thereof engaged to the cage 10 and a second end thereof engaged to a structural part 13 of the elevator shaft. A portion of the rope is engaged by a sheave 15 thereby forming a well-bucket type elevator driving mechanism.
- the sheave is rotatably supported on a movable frame 19 which has guide rollers 19a engaging a pair of guide rails 17. The movable frame 19 moves upwardly and downwardly in the elevator shaft.
- movable frame 19 has a mounting bracket 19b.
- Cylindrical part 32 is mounted on the mounting bracket 19b and protrudes downwardly.
- Cylindrical part 32 is made of aluminum or other lightweight electroconductive material.
- Cylindrical part 32 may also be made of a hollow body of steel or other material with high rigidity and high wear resistance and coated with a layer of aluminum or other electroconductive material as required.
- the cylindrical part 32 may also be formed of a hard synthetic resin which is treated to be electroconductive or coated with an electroconductive layer.
- the cylindrical part 32 is longer than the stroke of the movable frame.
- the lower portion of the cylindrical part 32 is disposed within hole G formed in the floor of the shaft.
- a cylindrical electromagnetic coil 36 Fixedly disposed below the lowest position of the stroke of the frame 19, a cylindrical electromagnetic coil 36 having a central hole 34 with an inner diameter greater than the outer diameter of the cylindrical part 32.
- the cylindrical part is supported by a frame 37.
- the frame 37 is made of a support strut 37a which is connected to an outer casing 36a of the cylindrical electromagnetic coil and a horizontal frame 37b connected to or integrated with the support strut.
- Horizontal frame 37b is rigidly connected to rail 17.
- the central hole 34 of the electromagnetic coil 36 is arranged coaxially with the cylindrical part 32 and the hole G. Cylindrical part 32 penetrates the central hole 34 of electromagnetic coil 36. An air gap exists between the cylindrical part 32 and an electromagnetic coil 38 mounted within the electromagnetic coil 36. The electromagnetic coil 38 defines the central hole.
- the cylindrical part 32 acts as a first driving element for driving the cage 10 up and down via rope 11, sheave 15 and movable frame 19 attaching to the cylindrical part.
- the electromagnetic coil acts as a secondary driving element thereby forming a linear motor 30 with the cylindrical part.
- Electromagnetic coil 36 is connected conventionally to a control circuit containing an inverter circuit as shown in Figure 5 as will be discussed below. Driving current fed from the control circuit induces a magnetic field in the cylindrical part 32.
- the brake device 20 has a brake shoe 202 attached to each tip portion of a pair of brake arms 201.
- the pair of brake arms rotate freely about an arm support shaft 203.
- a brake unit 200 is supported in the middle of the rear portion of the brake device 20.
- the brake unit 200 is comprised of a magnetic core 204, a translatable shaft 205, a bracket 206, and a compression spring 207.
- the brake unit is attached to the brake arms by pins 208 inserted into a hole formed at an end portion of the shaft 205 and the bracket 206.
- the brake unit 200 is connected to a power source (not shown).
- the magnetic core 204 When power is activated, the magnetic core 204 is energized contracting the shaft against the compressive spring 207 so that brake shoes are moved away from rail 14. Conversely, if power is turned off, the magnetic core 204 is deenergized and the compression spring pushes the shaft out of the core thereby urging the brake shoes into frictional contact with guide rail 14.
- Cage position sensor 300 contains a conventional proximity switch, a cage position detecting encoder, or the like, and generates a cage position detecting signal which indicates the positional relationship of the cage to the floors of the various stories.
- Hall call unit 302 is a command device which receives hall call commands from the various stories.
- Cage call unit 304 generates a call command as passengers in the cage push buttons within the cage to reach a desired floor.
- Control circuit 306 receives a cage position detecting signal from the cage position detector, a hall call command input from the hall call unit, and a cage call command input from the cage call unit. Control circuit 306 then generates a control signal for moving the cage upwardly or downwardly as is known in the art. The signal is then output as a control signal to a motor control unit 308 containing an inverter circuit or the like. Motor control unit 308 supplies power to the primary movable element 19 to move the cage 10 to the target story. As cage 10 is lowered or raised the control circuit 306 compares a cage position detection signal input from the cage position detecting unit with the story assigned by the hall call command or cage call command. When it is found that the cage reaches the desired story, a stop command is output to the motor control unit and the power to electromagnetic coil 36 is cut off.
- control circuit 306 outputs a stop command to the motor control unit, it supplies a brake on command to the brake control unit at the same time thereby cutting off power to the magnetic core and activating the braking device.
- the brake device directly holds the cage at rest. As a result, it is easy to control the cage position.
- the control unit may be mounted within the cage thereby facilitating maintenance of the brake unit.
- electromagnetic coil 36 is mounted on support frame 37 via an elastic collar 42. Due to the elasticity of the collar 42, displacement of the electromagnetic coil 36 is tolerated.
- rollers 44 are arranged circumferentially about the cylindrical part (see Figs. 6A and 6B). Rollers 44 are in elastic contact with the outer surface of cylindrical part 32. By utilizing the rollers, a prescribed minimum air gap is ensured between the outer surface of the cylindrical part 32 and the inner surface of the electromagnetic coil 36. Given this configuration, it is possible to prevent contact between the electromagnetic coil 36 and the cylindrical part 32 even in the case of transverse rolling vibration with relative displacement between the cylindrical part and the electromagnetic coil caused by an earthquake or the like.
- An elastic collar 46 may be used for mounting the cylindrical part with respect to frame 19 to prevent transfer of vibration energy between the cylindrical part and the frame thereby preventing transfer of vibration to the rope via the sheave to improve the comfort of passengers in the cage.
- rollers 44 are mounted on brackets 45 about roller shafts 44a.
- Each bracket 45 has a transverse through a hole 44b formed therethrough.
- Hole 44b supports a roller shaft 44a for displacement side to side.
- Spring 43 connects at one end to roller shaft 44a and at a second end to an outer wall of bracket 45.
- the spring urges roller shaft 44a and the roller 44 towards the cylindrical part.
- the roller, or at least an outward portion thereof is made of a soft rubber or other such material to absorb vibrations caused by unevenness of the cylindrical part.
- the level of frictional noise generated by contact between the cylindrical part and the rollers is thereby minimized.
- the elastic force of the spring 43 is as small as possible to urge contact while minimizing the pressing force of the roller upon the surface of the cylindrical part. If the coefficient of friction is small, noise caused by the friction can be further reduced effectively.
- the through hole 44b is designed to maintain a minimum air gap between the cylindrical part and the inner surface of the electromagnetic coil.
- the roller shaft will abut the edges of the hole before the cylindrical part gets too close to the electromagnetic coil.
- an air gap sensor 35 may be arranged in the upper portion of electromagnetic coil 36.
- the sensor emits a signal when the gap between the cylindrical part and the electromagnetic coil becomes smaller than a preset minimum.
- a signal is input to the control circuit to bring the cage to an emergency stop.
- the air gap sensor 35 has an annular casing 351 and a switch piece 352 mounted to the casing by bolt 353.
- the switch piece is separated from the surface of cylindrical part by a gap L.
- Screw 354 can be used to adjust the distance L.
- the switch piece 352 is conventionally connected to the control circuit shown in Figure 5 conventionally by a lead 355.
- Electromagnetic coil 50 is attached to a movable frame 19. This electromagnetic coil is penetrated by cylindrical part 52. Electromagnetic coil 50 forms the first driving element and cylindrical part 52 forms the second element. Cylindrical part 52 is fixed relative to the electromagnetic coil thereby eliminating the hole and minimizing the weight of the movable frame.
- the cylindrical part is usually made of an aluminum alloy having an extended portion 400 arranged on one end so that the overall length of the cylindrical part can be adjusted.
- One end of the extended portion is connected to a ball joint 405 which has an eyebolt 401.
- Eyebolt 402 is fixed to the bottom of the elevator shaft. Eyebolts 401 and 402 are connected to each other by a coil spring 403 and a conventional turnbuckle 404. By adjusting the turnbuckle, prescribed tension in the cylindrical part may be maintained.
- Ball joint 405 is comprised of a pair of yokes 406 connected to the eyebolt 401.
- a ball 409 is held between the yokes by pin 410.
- Eyebar 407 attaches the ball joint to the extended portion 400 rotatably. It is possible thereby to rotate the yoke about 360°. Because of this configuration the cylindrical part may vibrate in different directions with appropriate degrees of freedom.
- the upper support 58 of the apparatus is shown.
- the structure of the upper support may be the same as that of the lower support.
- the upper support is comprised essentially of a ball joint 410.
- This ball joint as in the lower ball joint 405 can rotate freely in a certain range.
- the linear motor can tolerate a certain movement due to vibration or other motion of the cylindrical part.
- the upper and lower joint portions can tolerate the deflection of the cylinder part to a certain degree while the spring can attenuate and absorb vibration thereby effectively protecting the cylindrical part 52.
Landscapes
- Engineering & Computer Science (AREA)
- Civil Engineering (AREA)
- Mechanical Engineering (AREA)
- Structural Engineering (AREA)
- Types And Forms Of Lifts (AREA)
- Linear Motors (AREA)
Claims (4)
- Aufzug mit
einer Kabine (10),
einer drehbaren Seilscheibe (19),
einem Seil (11) mit einem die Kabine tragenden Bereich und einem anderen Bereich, der über die Seilscheibe führt,
einem ersten Antriebselement (32;50),
einem festen zweiten Antriebselement (36,52), das von dem ersten Element durch einen festgelegten Spalt getrennt ist, wobei von dem ersten Antriebselement und dem zweiten Antriebselement eines einen mit einer Stromquelle verbundenen primären Leiter eines Linearmotors bildet und das andere Antriebselement einen sekundären Leiter des Linearmotors bildet, der ein induziertes magnetisches Feld infolge der Erregung des primären Leiters entwickelt,
dadurch gekennzeichnet,
daß die drehbare Seilscheibe vertikal beweglich montiert ist, daß das Seil zwischen einer festen Halterung (13) und der Kabine über die Seilscheibe verläuft, und daß das erste Antriebselement an der Seilscheibe angebracht ist, wodurch der Betrieb des Linearmotors die Seilscheibe, das Seil und die Kabine aufwärts und abwärts verlagert. - Aufzug nach Anspruch 1, ferner
dadurch gekennzeichnet,
daß das erste Antriebselement ein stabförmiges Teil (32) ist, das von der Seilscheibe (15) nach unten ragt;
und daß das zweite Antriebselement ein Zylinder (36a) ist, wobei das stabförmige Teil den Zylinder durchdringt, um den Linearmotor zu bilden. - Aufzug nach Anspruch 1, ferner
dadurch gekennzeichnet,
daß das erste Antriebselement ein an der Seilscheibe (15) angebrachter Zylinder (50) ist;
und daß das zweite Antriebselement ein stabförmiges Teil (52) ist, das den Zylinder durchdringt, um den Linearmotor zu bilden. - Aufzug nach Anspruch 2, ferner
gekennzeichnet durch
einen flexiblen Kragen (46) zum Anbringen des ersten Elements an der Seilscheibe.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP13730889A JPH0313480A (ja) | 1989-05-30 | 1989-05-30 | エレベーター装置 |
JP137308/89 | 1989-05-30 |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0400994A1 EP0400994A1 (de) | 1990-12-05 |
EP0400994B1 true EP0400994B1 (de) | 1994-03-09 |
Family
ID=15195650
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19900305886 Revoked EP0400994B1 (de) | 1989-05-30 | 1990-05-30 | Aufzug mit Linearmotorantrieb |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0400994B1 (de) |
JP (1) | JPH0313480A (de) |
DE (1) | DE69007173T2 (de) |
ES (1) | ES2052175T3 (de) |
HK (1) | HK1001685A1 (de) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3420811B2 (ja) * | 1993-12-17 | 2003-06-30 | オーチス エレベータ カンパニー | リニアモータ式エレベーター |
DE9402427U1 (de) * | 1994-02-15 | 1994-06-09 | C. Haushahn Gmbh & Co, 70469 Stuttgart | Aufzugsystem mit Linearantrieb |
AU2003270422A1 (en) * | 2003-09-09 | 2005-04-27 | Otis Elevator Company | Retractable seismic plate |
JP6567185B2 (ja) * | 2016-06-14 | 2019-08-28 | 三菱電機株式会社 | 油圧エレベータの改修方法およびエレベータ装置 |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB967985A (en) * | 1962-04-05 | 1964-08-26 | Morris Ltd Herbert | Improvements in cranes and lifts |
DE2002081A1 (de) * | 1970-01-19 | 1971-07-29 | Kleemann S Vereinigte Fabriken | Elektrischer Antrieb fuer Lastenfoerderer |
DE2343461A1 (de) * | 1973-08-29 | 1975-03-13 | Udo W Kirsch | Fahrstuhl mit linearantrieb |
FR2491045A1 (fr) * | 1980-09-30 | 1982-04-02 | Otis Elevator Co | Ascenseur automoteur utilisant comme contrepoids un moteur electrique lineaire |
DE3422374A1 (de) * | 1984-06-15 | 1985-12-19 | Kurt-Erich 8000 München Heidenreich | Aufzug |
-
1989
- 1989-05-30 JP JP13730889A patent/JPH0313480A/ja active Pending
-
1990
- 1990-05-30 EP EP19900305886 patent/EP0400994B1/de not_active Revoked
- 1990-05-30 DE DE1990607173 patent/DE69007173T2/de not_active Revoked
- 1990-05-30 ES ES90305886T patent/ES2052175T3/es not_active Expired - Lifetime
-
1998
- 1998-01-26 HK HK98100670A patent/HK1001685A1/xx not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
DE69007173T2 (de) | 1994-10-06 |
EP0400994A1 (de) | 1990-12-05 |
HK1001685A1 (en) | 1998-07-03 |
JPH0313480A (ja) | 1991-01-22 |
ES2052175T3 (es) | 1994-07-01 |
DE69007173D1 (de) | 1994-04-14 |
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