EP1918241A1 - Türvorrichtung für aufzug - Google Patents

Türvorrichtung für aufzug Download PDF

Info

Publication number: EP1918241A1
Authority: EP; European Patent Office
Prior art keywords: door; car; elevator; actuating strip; hall
Prior art date: 2005-08-25
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP05780958A

Other languages

English (en)

French (fr)

Other versions

EP1918241A4 (de

Inventor

Takaharu c/o Mitsubishi Denki Kabushiki Kaisha UEDA

Hiroshi Mitsubishi Denki Kabushiki Kaisha KIGAWA

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

Mitsubishi Electric Corp

Original Assignee

Mitsubishi Electric Corp

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

2005-08-25

Filing date

2005-08-25

Publication date

2008-05-07

2005-08-25 Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp

2008-05-07 Publication of EP1918241A1 publication Critical patent/EP1918241A1/de

2013-01-16 Publication of EP1918241A4 publication Critical patent/EP1918241A4/de

Status Withdrawn legal-status Critical Current

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Classifications

- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B13/00—Doors, gates, or other apparatus controlling access to, or exit from, cages or lift well landings
- B66B13/24—Safety devices in passenger lifts, not otherwise provided for, for preventing trapping of passengers
- B66B13/26—Safety devices in passenger lifts, not otherwise provided for, for preventing trapping of passengers between closing doors

Definitions

the present invention relates to a door device for an elevator for opening/closing an elevator doorway which communicates an interior of a car and an elevator hall.
an actuating strip displaceable with respect to each of the doors is provided at a door closing-side end of the door.
the actuating strip moves together with the door while remaining protruding from the door closing-side end of the door.
a moving direction of the door is reversed from a door closing direction to a door opening direction (see Patent Document 1).
Patent Document 1 JP 05-301692 A
the actuating strip In the conventional door device for the elevator constructed as described above, when the door is moved, the actuating strip remains protruding from the door. Therefore, for example, a dolly or the like tends to hit the actuating strip, so the actuating strip is likely to be damaged. For this reason, the actuating strip is increased in rigidity and weight in order to prevent the actuating strip from being broken. Accordingly, in a case where the foreign object is a flexible and lightweight thing such as a string, the actuating strip is unlikely to be displaced with respect to the door even when the foreign object has come into contact with the actuating strip. As a result, detection of the foreign object may become impossible.
the present invention has been made to solve the above-mentioned problem, and it is therefore an object of the present invention to obtain a door device for an elevator which makes it possible to detect a foreign object more reliably with a simple construction.
a door device for an elevator includes: an elevator door having a hall door and a car door, which is displaceable between a door juxtaposition position at which the car door is juxtaposed to the hall door and a door deviation position at which the car door is located on a door opening side with respect to the hall door by a predetermined distance from the door juxtaposition position, for opening/closing a doorway of the elevator by causing the hall door and the car door to move in engagement with each other when the car door is located at the door deviation position; an actuating strip provided between the car door and the hall door and designed to be displaceable between a protruding position at which the actuating strip protrudes in a door closing direction from a door closing-side end of the elevator door and a retracted position at which the actuating strip is accommodated between the car door and the hall door, the retracted position being located on the door opening side with respect to the protruding position; and a displacement device for displacing the actuating strip in accord
Fig. 1 is a partial elevation view showing a door device for an elevator according to Embodiment 1 of the present invention.
Fig. 2 is a sectional view taken along the line II-II of Fig. 1 .
Fig. 3 is a partial elevation view showing the door device for the elevator at a time when a doorway 1 of Fig. 1 is fully closed.
Fig. 4 is a sectional view taken along the line IV-IV of Fig. 3 . It should be noted in Fig. 1 that the doorway 1 is in a half-open state.
an upper portion of the doorway 1 of the elevator is provided with a car-side hanger case 2 fixed to a car, and an elevator hall-side hanger case (not shown) fixed to a wall surface on an elevator hall side.
the car-side hanger case 2 is provided with a horizontally (in a width direction of the doorway 1) extending car-side door rail 3.
the elevator hall-side hanger case is provided with a horizontally extending elevator hall-side door rail (not shown) .
a pair of car doors 4 for opening/closing the doorway 1 are suspended from the car-side door rail 3.
a plurality of (two in this example) hanger rollers 5, which are laid on the car-side door rail 3, are provided on an upper portion of each of the car doors 4.
the respective car doors 4 are moved along the car-side door rail 3 due to a driving force of a door driving device (not shown) mounted on the car.
the respective hanger rollers 5 are rolled on the car-side door rail 3 as the car doors 4 are moved.
a pair of hall doors 7 for opening/closing the doorway 1 are suspended from the elevator hall-side door rail.
the respective hall doors 7 are movable along the elevator hall-side door rail.
the respective hall doors 7 are constantly urged in such a direction as to close the doorway 1 (in a door-closing direction) by weights or springs (not shown).
a lower portion of the doorway 1 is provided with a car threshold 6 fixed to the car, and an elevator hall threshold 8 fixed to the wall surface on the elevator hall side.
the car threshold 6 is provided with guide grooves (not shown) into which lower portions of the car doors 4 are inserted, respectively.
the elevator hall threshold 8 is provided with guide grooves (not shown) into which lower portions of the hall doors 7 are inserted, respectively.
Each of the car doors 4 and a corresponding one of the hall doors 7 are disposed in parallel to each other in a depth direction of the car ( Figs. 2 and 4 ).
An engagement device 11 for engaging the car door 4 and the hall door 7 with each other in the width direction of the doorway 1 is provided between the car door 4 and the hall door 7.
the engagement device 11 has an engagement roller 10 provided on the hall door 7, and a vane 9 fixed to the car door 4.
the vane 9 can be engaged with the engagement roller 10.
the vane 9 is a vertically extending plate member.
the engagement roller 10 is a roller rotatable about a horizontal shaft extending in the depth direction of the car.
the engagement roller 10 is disposed on the vane 9 on a door-opening side thereof.
the car door 4 is displaceable between a door juxtaposition position ( Fig. 3 ) at which the car door 4 is juxtaposed to the hall door 7 in the depth direction of the car, and a door deviation position ( Fig. 1 ) at which the car door 4 deviates from the door juxtaposition position toward the door-opening side by a predetermined distance A with respect to the hall door 7.
a door closing-side end 4a of the car door 4 is disposed at the same position as a door closing-side end 7a of the hall door 7 in the depth direction of the car.
An elevator door for opening/closing the doorway 1 has the respective car doors 4 and the respective hall doors 7.
the door closing-side ends 4a of the respective car doors 4 abut on each other, and the door closing-side ends 7a of the respective hall doors 7 abut on each other, at a fully closed door end position O located at a center of the doorway 1 ( Fig. 3 ).
each of the car doors 4 is displaceable between the door juxtaposition position and the door deviation position with respect to a corresponding one of the hall doors 7 ( Figs. 3 and 4 ).
a movement of the car door 4 in a door opening direction causes the hall door 7 to move together with the car door 4 in the door opening direction against the urging in a door closing direction by the weight or the like.
An actuating strip 12 displaceable with respect to the elevator door, and a displacement device 21 for displacing the actuating strip 12 in accordance with displacement of the car door 4 with respect to the hall door 7 are provided between the car door 4 and the hall door 7.
the actuating strip 12 is a lightweight plate member extending in a height direction of the elevator door. An upper portion and a lower portion of the actuating strip 12 are provided with an upper mounting portion 12b and a lower mounting portion 12c, which protrude toward the door opening side, respectively.
the actuating strip 12 is displaceable between a protruding position ( Figs. 3 and 4 ) at which the actuating strip 12 protrudes from the door closing-side end of the elevator door in the door closing direction, and a retracted position ( Figs. 1 and 2 ) at which the actuating strip 12 is accommodated between the car door 4 and the hall door 7.
the retracted position is located on the door opening side with respect to the protruding position. That is, when the actuating strip 12 is located at the protruding position, a door closing-side end 12a of the actuating strip 12 is located on the door closing side with respect to both the door closing-side end 4a of the car door 4 and the door closing-side end 7a of the hall door 7.
the door closing-side end 12a of the actuating strip 12 is located on the door opening side with respect to at least one of the door closing-side end 4a of the car door 4 and the door closing-side end 7a of the hall door 7.
the actuating strip 12 is allowed to protrude from the door closing-side end of the elevator door by a protrusion amount C when being located at the protruding position ( Fig. 4 ).
the car door 4 is provided with an upper turning shaft 13 and a lower turning shaft 14, which are disposed apart from each other in the height direction of the elevator door.
the actuating strip 12 is supported by the car door 4 via an upper turning link (turning member) 15 turnable about the upper turning shaft 13, and a lower turning link 16 turnable about the lower turning shaft 14.
the upper mounting portion 12b is turnably mounted at one end of the upper turning link 15 by means of a pin 15a.
the lower mounting portion 12c is turnably mounted at one end of the lower turning link 16 by means of a pin 16a.
the actuating strip 12 is displaced between the protruding position and the retracted position through the turning of each of the upper turning link 15 and the lower turning link 16.
the car door 4 is provided with a stopper 20 for holding the actuating strip 12 at the protruding position through abutment on the upper turning link 15.
a cam roller 17 is provided at the other end of the upper turning link 15.
the hall door 7 is provided with a cam plate 18 for turning the upper turning link 15 while coming into contact with the cam roller 17.
the cam plate 18 is disposed on the door opening side of the cam roller 17.
the displacement device 21 has the upper turning link 15, the cam roller 17, and the cam plate 18.
the actuating strip 12 When the car door 4 is located at the door juxtaposition position, the actuating strip 12 is displaced to the protruding position ( Fig. 3 ). When the actuating strip 12 is located at the protruding position, the cam roller 17 is spaced apart from the cam plate 18 by a gap B, and the upper turning link 15 abuts on the stopper 20. The gap B is smaller than the gap A between the vane 9 and the engagement roller 10.
the actuating strip 12 When the car door 4 is located at the door deviation position, the actuating strip 12 is displaced to the retracted position ( Fig. 1 ). When the actuating strip 12 is located at the retracted position, the turning of the upper turning link 15 is retained while the cam roller 17 remains pressed against the cam plate 18. That is, the cam plate 18 receives the turning of the upper turning link 15 resulting from the weight of the actuating strip 12 itself, so the actuating strip 12 is held at the retracted position.
the upper turning link 15 When the car door 4 is displaced from the door deviation position to the door juxtaposition position, the upper turning link 15 is turned toward the stopper 20 side while the cam roller 17 comes into contact with the cam plate 18, due to the weight of the actuating strip 12 itself. After that, when the upper turning link 15 abuts on the stopper 20, the upper turning link 15 is stopped from turning, so the actuating strip 12 is held at the protruding position. After that, the cam roller 17 is spaced apart from the cam plate 18, so the car door 4 is displaced to the door juxtaposition position.
the car door 4 is provided with a micro switch (position detecting device) 19 for detecting whether or not the actuating strip 12 has been displaced to the protruding position.
the micro switch 19 detects whether or not the actuating strip 12 has been displaced to the protruding position depending on whether or not the micro switch 19 has come into contact with the lower turning link 16.
the doorway 1 is provided with a full closure detecting sensor (not shown) for detecting whether or not the doorway 1 has been fully closed.
Information from the full closure detecting sensor and the micro switch 19 is transmitted to a control device for controlling an operation of the elevator.
the control device controls the operation of the elevator based on information from the full closure detecting sensor and the micro switch 19. That is, only when the elevator door fully closes the doorway 1 and the actuating strip 12 is located at the protruding position, the control device controls the operation of the elevator to allow the car to move.
the control device moves the elevator door in the door opening direction.
the control device stops the car from moving.
Fig. 5 is a graph showing a relationship between a speed of the elevator door and a time during a shift in the state of the doorway 1 of Fig. 1 from a fully open state to a fully closed state.
the speed of the elevator door rises in an acceleration section, becomes constant in a constant-speed section, and then decreases in a deceleration section during the shift in the state of the doorway 1 from the fully open state to the fully closed state.
the speed of the elevator door rises from 0 gently and then drastically.
the speed of the elevator door decreases from a speed in the constant-speed section drastically and then gently, and becomes 0 when the doorway 1 is fully closed.
a range equal to or lower than the speed of the elevator door during a changeover from a great change in speed to a gentle change in speed is defined as a low-speed range.
the low-speed range is set to a range equal to or lower than 20 mm/s .
Fig. 6A is a plan view showing the door device for the elevator at a time (in a state at a time t1) when the speed of the elevator door decreases drastically in the deceleration section of Fig. 5 .
Fig. 6B is a plan view showing the door device for the elevator at a time (in a state at a time t2) when the speed of the elevator door decreases gently in the deceleration section of Fig. 5 .
Fig. 6C is a plan view showing the door device for the elevator at a time (in a state at a time t3) when the speed of the elevator door is 0 in the deceleration section of Fig. 5 .
the hall door 7 is also moved in the door closing direction while being engaged with the car door 4.
each of the hall doors 7 is stopped from moving in the door closing direction and only a corresponding one of the car doors 4 continues to be moved in the door closing direction due to the driving force of the door driving device, as shown in Fig. 6B . That is, the car door 4 is displaced from the door deviation position toward the door juxtaposition position with respect to the hall door 7. At this moment, the vane 9 is disengaged from the engagement roller 10.
the upper turning link 15 is turned while the cam roller 17 comes into contact with the cam plate 18, so the actuating strip 12 is displaced from the retracted position toward the protruding position.
the upper turning link 15 abuts on the stopper 20 and then is stopped from turning. After that, the car door 4 continues to be moved in the door closing direction, so the cam roller 17 is spaced apart from the cam plate 18. After that, the car door 4 reaches the door juxtaposition position, so the doorway 1 is fully closed by the elevator door ( Fig. 6C ).
the car door 4 when the hall doors 7 fully closes the doorway 1, the car door 4 is displaced between the door juxtaposition position and the door deviation position.
the actuating strip 12 When the car door 4 is located at the door juxtaposition position, the actuating strip 12 is displaced to the protruding position.
the actuating strip 12 When the car door 4 is located at the door deviation position, the actuating strip 12 is displaced to the retracted position. Therefore, the actuating strip 12 is usually accommodated between the car door 4 and the hall door 7, and can be allowed to protrude from the door closing-side end of each of the doors constituting the elevator door only immediately before the elevator door fully closes the doorway 1.
a dolly or the like can be prevented from colliding with the actuating strip 12, and the actuating strip 12 can be reduced in strength and weight. Accordingly, even a lightweight and flexible foreign object such as a string can be detected more reliably with a simple construction.
the displacement device 21 for displacing the actuating strip 12 has the cam plate 18 provided on the hall door 7, and the upper turning link 15 which is turned with respect to the car door 4 while being pressed by the cam plate 18 in accordance with displacement of the car door 4 with respect to the hall door 7. Therefore, displacement of the actuating strip 12 with respect to each of the doors constituting the elevator door can be performed together with displacement of the car door 4 with respect to the hall door 7 with a simple construction.
the micro switch 19 detects whether or not the actuating strip 12 has been displaced to the protruding position, and the operation of the elevator is controlled based on information from the micro switch 19. Therefore, the elevator door can be restrained from malfunctioning.
the control device moves each of the doors constituting the elevator door in the door opening direction. Therefore, when a flexible foreign obj ect such as a string is wedged between the doors constituting the elevator door while extending across a space between the elevator hall and the car, the car can be prevented from starting to move.
the control device stops the car from moving. Therefore, even when the movement of the car is started while a flexible foreign object such as a string extends across a space between the elevator hall and the interior of the car, the car can be stopped immediately through displacement of the actuating strip 12.
the protrusion amount C of the actuating strip 12 at the time when the actuating strip 12 is located at the protruding position is adjusted by adjusting a length of a section of the upper turning link 15 between the upper turning shaft 13 and the pin 15a and a length of a section of the upper turning link 15 between the upper turning shaft 13 and the cam roller 17.
Fig. 7 is an enlarged view showing an essential part of a door device for an elevator according to Embodiment 2 of the present invention.
Fig. 8 is an enlarged view showing the essential part in a state in which an actuating strip-side link member 32 of Fig. 7 has been turned with respect to a cam plate-side link member 33.
an upper turning link 31 has the actuating strip-side link member 32 and the cam plate-side link member 33, which are turnable about the common upper turning shaft 13.
One end of the actuating strip-side link member 32 is provided on the upper turning shaft 13.
the upper mounting portion 12b is turnably mounted at the other end of the actuating strip-side link member 32 by means of the pin 15a.
a support member 34 extending in a length direction of the cam plate-side link member 33 is provided at one end of the cam plate-side link member 33.
the support member 34 restricts the turning of the actuating strip-side link member 32 with respect to the cam plate-side link member 33 during displacement of the actuating strip 12 in the door closing direction.
the cam roller 17 is provided at the other end of the cam plate-side link member 33.
the cam plate-side link member 33 is turned about the upper turning shaft 13 while being pressed by the cam plate 18.
the actuating strip-side link member 32 is urged toward the support member 34 side due to the weight of the actuating strip 12.
the actuating strip-side link member 32 is turned about the upper turning shaft 13 as the cam plate-side link member 33 is turned.
the actuating strip-side linkmember 32 is turned with respect to the camplate-side link member 33 against the urging by the urging strip 12 when the actuating strip 12 is raised through, for example, contact with a foreign object or the like.
a micro switch (turning detecting device) 35 for detecting whether or not the actuating strip-side link member 32 has been turned with respect to the cam plate-side link member 33 is provided between the actuating strip-side link member 32 and the support member 34.
the micro switch 35 is fixed to the actuating strip-side link member 32. Accordingly, when the actuating strip-side link member 32 is turned with respect to the cam plate-side link member 33, the micro switch 35 is displaced so as to be brought into contact with or spaced away from the support member 34.
the micro switch 35 is activated while being pressed against the support member 34 ( Fig. 7 ).
the micro switch 35 is deactivated through displacement thereof in such a direction as to be spaced apart from the support member 34 ( Fig. 8).
Fig. 8 shows a state in which the micro switch 35 has been deactivated with the actuating strip-side link member 32 and the support member 34 forming an angle D therebetween.
the control device determines whether or not the actuating strip-side link member 32 has been turned with respect to the cam plate-side link member 33 depending on whether or not the micro switch 35 has been activated. That is, when the micro switch 35 is activated, the control device determines that the actuating strip-side link member 32 has not been turned with respect to the cam plate-side link member 33. When the micro switch 35 is deactivated, the control device determines that the actuating strip-side link member 32 has been turned with respect to the cam plate-side link member 33. When the micro switch 35 is deactivated, the control device detects that a foreign obj ect has come into contact with the actuating strip 12.
Embodiment 2 of the present invention is identical to Embodiment 1 of the present invention in other constructional details.
the upper turning link 31 has the cam plate-side link member 33, which is turnable with respect to the car door 4 while being pressed by the cam plate 18, and the actuating strip-side link member 32, which is provided with the actuating strip 12 and designed to be turnable with respect to the cam plate-side link member 33.
the cam plate-side link member 33 is provided with the support member 34 for restricting the turning of the actuating strip-side link member 32 with respect to the cam plate-side link member 33 during displacement of the actuating strip 12 in the door closing direction.
the micro switch 35 for detecting whether or not the actuating strip-side link member 32 has turned with respect to the cam plate-side link member 33 is provided between the actuating strip-side link member 32 and the support member 34. Therefore, contact of the foreign object with the actuating strip 12 can be detected before the actuating strip 12 reaches the protruding position. Accordingly, the foreign object can be detected earlier.
Fig. 9 is a partial elevation view showing a door device for an elevator according to Embodiment 3 of the present invention.
Fig. 10 is a sectional view taken along the line X-X of Fig. 9 .
Fig. 11 is a partial elevation view showing the door device for the elevator at a time when the doorway 1 of Fig. 9 is fully closed.
Fig. 12 is a sectional view taken along the line XII-XII of Fig. 11 .
each of the doors constituting the elevator door is provided with a safety shoe 41 displaceable with respect to the car door 4.
the safety shoe 41 is disposed between the actuating strip 12 and the hall door 7 in the depth direction of the car. In this example, there is a gap E between the car door 4 and the actuating strip 12.
the car door 4 is provided with a support shaft 42.
the support shaft 42 is disposed between the upper turning shaft 13 and the lower turning shaft 14 in the height direction of the elevator door.
the safety shoe 41 is supported by the car door 4 via a turning link 43, which is turnable about the support shaft 42.
the safety shoe 41 is provided at one end of the turning link 43 turnably about a pin 43a.
a micro switch (detection device) 55 for detecting whether or not a foreign object has come into contact with the safety shoe 41 is provided at the other end of the turning link 43 through an intermediation of a mounting board 54.
the car is mounted with a link turning device 45 for turning the turning link 43.
the link turning device 45 turns the turning link 43 as the car door 4 moves with respect to the car.
the link turning device 45 has a cam turning body 47 turnable about a support shaft 46 provided on the car door 4, a vertically extending support member 48 provided on the car, and a coupling body 49 for coupling the cam turning body 47 and the support member 48 to each other.
the cam turning body 47 has a turning portion 50 provided on the support shaft 46, and a cam portion 51 fixed to an end of the turning portion 50 on the turning link 43 side.
the coupling body 49 is provided so as to be turnable at each of an upper end of the support member 48 and an end of the turning portion 50 on a side opposite to the cam portion 51 side.
the cam turning body 47 is turned about the support shaft 46 as the car door 4 moves in the width direction.
the micro switch 55 is thereby displaced toward the cam portion 51.
the micro switch 55 is thereby displaced away from the cam portion 51.
a turning press member 44 turnable about a pin 44a is provided on a section of the turning link 43 between the pin 43a and the support shaft 42.
a free end of the turning press member 44 is disposed between the other end of the turning link 43 and the cam portion 51.
a cam follower 52 which comes into contact with the cam portion 51 and a seat plate 53 which comes into contact with the micro switch 55 are provided at the free end of the turning press member 44.
the cam follower 52 is turnable about a rotational shaft 52a.
Displacement of the safety shoe 41 in such a direction as to protrude from the elevator door is restricted through contact of the cam turning body 47 with the cam follower 52.
the amount of protrusion of the safety shoe 41 from the elevator door changes as the car door 4 moves in the width direction.
the safety shoe 41 is accommodated by the doors constituting the elevator door.
the safety shoe 41 is allowed to protrude from the elevator door as the elevator door is moved in the door opening direction.
the control device When the micro switch 55 is pressed to be activated, the control device performs the control of normal opening/closing operations. When the micro switch 55 is deactivated, the control device performs the control of reversing the moving direction of the elevator door from the door closing direction to the door opening direction.
Embodiment 3 of the present invention is identical to Embodiment 1 of the present invention in other constructional details.
the operation of the safety shoe 41 will be described.
the cam turning body 47 is turned as the elevator door moves.
the turning link 43 is turned, so the safety shoe 41 is displaced.
the micro switch 55 is constantly pressed against the cam portion 51 through an intermediation of the turning press member 44 due to the weight of the safety shoe 41 itself.
the micro switch 55 remains activated, so the normal opening/closing operation is continued.
the micro switch 55 When the safety shoe 41 is displaced through contact of, for example, a passenger or the like with the safety shoe 41, the micro switch 55 is displaced away from the turning press member 4 4 through the turning of the turning link 43. Thus, the micro switch 55 is deactivated, so the moving direction of the elevator door is reversed from the door closing direction to the door opening direction.
the actuating strip 12 operates in the same manner as in Embodiment 1 of the present invention.
each of the doors constituting the elevator door is provided with the safety shoe 41 in addition to the actuating strip 12. Therefore, not only a lightweight and flexible thing such as a string but also a foreign object exerting a large contact force such as a passenger can be detected more reliably. Thus, different kinds of foreign objects can be detected more reliably.
the actuating strip 12 is disposed between the safety shoe 41 and the car door 4, so the actuating strip 12 and the car door 4 can be disposed close to each other in the depth direction of the car.
a string or the like is wedged between the doors constituting the elevator door for fully closing the doorway 1
a winding angle of the string with respect to the actuating strip 12 can be increased.
a larger tensile force can be imparted to a foreign object such as the string, so the foreign object can be detected more reliably.
Fig. 13 is a partial elevation view showing a door device for an elevator according to Embodiment 4 of the present invention.
Fig. 14 is a sectional view taken along the line XIV-XIV of Fig. 13 .
Fig. 15 is a sectional view showing an essential part of the door device for the elevator at a time when the doorway 1 of Fig. 14 is fully closed.
the car door 4 is provided with the support shaft 42.
the safety shoe 41 is supported by the car door 4 via the turning link 43, which is turnable about the support shaft 42.
a fixed shaft 62 which is disposed apart from the support shaft 42, is fixed to the car door 4.
a fixed press member 61 is fixed between the support shaft 42 and the fixed shaft 62.
the fixed press member 61 is provided with the seat plate 53 with which the micro switch 55 comes into contact.
the safety shoe 41 When the elevator door is moved in the width direction of the doorway 1, the safety shoe 41 remains protruding from the door closing-side end of the elevator door.
the turning link 43 is urged in such a direction that the micro switch 55 is pressed against the seat plate 53, due to the weight of the safety shoe 41 itself.
the micro switch 55 By being pressed against the seat plate 53 by the turning link 43, the micro switch 55 is activated.
the safety shoe 41 is displaced against its own weight, the micro switch 55 is displaced away from the seat plate 53.
the micro switch 55 is deactivated through its displacement away from the seat plate 53.
Embodiment 4 of the present invention is identical to Embodiment 3 of the present invention in other constructional details and other operational details.
the present invention is applied to a biparting door device in which an elevator door composed of doors is designed to open toward both sides so that the doors are separated at a center to be spaced apart from each other.
the present invention may also be applied to a single swing door device in which an elevator door composed of doors is designed to open only in one direction.

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Elevator Door Apparatuses (AREA)

EP05780958A 2005-08-25 2005-08-25 Türvorrichtung für aufzug Withdrawn EP1918241A4 (de)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
PCT/JP2005/015433 WO2007023549A1 (ja)	2005-08-25	2005-08-25	エレベータのドア装置

Publications (2)

Publication Number	Publication Date
EP1918241A1 true EP1918241A1 (de)	2008-05-07
EP1918241A4 EP1918241A4 (de)	2013-01-16

Family

ID=37771307

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP05780958A Withdrawn EP1918241A4 (de)	2005-08-25	2005-08-25	Türvorrichtung für aufzug

Country Status (5)

Country	Link
EP (1)	EP1918241A4 (de)
JP (1)	JPWO2007023549A1 (de)
KR (1)	KR100940420B1 (de)
CN (1)	CN100569623C (de)
WO (1)	WO2007023549A1 (de)

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EP2345618A1 (de)	2010-01-18	2011-07-20	Inventio AG	Sicherheitskontaktleiste einer Kabinentür
CN104401860A (zh) *	2014-09-22	2015-03-11	苏州合欣美电子科技有限公司	一种安全垂直电梯

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
CN101481059B (zh) *	2009-02-12	2011-05-25	日立电梯（中国）有限公司	具有开门异常防护功能的安全电梯及其安全控制方法
JP2011116493A (ja) *	2009-12-02	2011-06-16	Toshiba Elevator Co Ltd	エレベータの籠ドア装置
JP6016338B2 (ja) *	2011-08-10	2016-10-26	三菱電機株式会社	エレベータかごの戸安全装置
JP5978119B2 (ja) *	2012-12-19	2016-08-24	株式会社日立製作所	エレベータのドア装置

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- 2005-08-25 CN CNB2005800371551A patent/CN100569623C/zh not_active Expired - Fee Related
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EP2345618A1 (de)	2010-01-18	2011-07-20	Inventio AG	Sicherheitskontaktleiste einer Kabinentür
WO2011086062A1 (de)	2010-01-18	2011-07-21	Inventio Ag	Sicherheitskontaktleiste einer kabinentür
CN104401860A (zh) *	2014-09-22	2015-03-11	苏州合欣美电子科技有限公司	一种安全垂直电梯

Also Published As

Publication number	Publication date
EP1918241A4 (de)	2013-01-16
JPWO2007023549A1 (ja)	2009-02-26
WO2007023549A1 (ja)	2007-03-01
KR20070084379A (ko)	2007-08-24
KR100940420B1 (ko)	2010-02-02
CN101048333A (zh)	2007-10-03
CN100569623C (zh)	2009-12-16

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