JP2006160473A - Elevator device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an elevator device, without generating an exposed through void due to a horizontal slit in a horizontally movable connection mechanism for a plurality of movable rectangular plate members forming a movable side wall of a getting-on/off passage. <P>SOLUTION: An elevator shaft member 1 that is horizontally displaceable to a getting-on/off port 2 in a base construction or the like is provided, and a landing doorway 3 facing the getting-on/off port 2 is disposed. Between the getting-on/off port 2 and the landing doorway 3, an extendable getting-on/off passage 4 is provided. The movable side wall 9 of the getting-on/off passage 4 is composed of a first plate member 10 and a second plate member 11 which are combined at edge parts to be extendable, and connected by the horizontally movable connection mechanism 19. When an earthquake occurs to make the elevator shaft member 1 separated from the getting-on/off port 2, the combined parts are contracted to expose the horizontal slit 12 in the horizontally movable connection mechanism 19 on the inner side of the getting-on/off passage 4, and a connecting pin 16 and a closing plate are displaced to cover the exposed horizontal slit 12 to eliminate generation of the exposed through void. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  This invention is an elevator that supports a base-isolated building via a base-isolating device and is formed on both the base-base body and the base-isolated building, and is displaced at least horizontally with respect to the both. The present invention relates to an elevator apparatus provided with a hoistway body and provided with a telescopic boarding / exiting passage connecting the boarding / exiting ports of both the above and the landing entrance of the hoistway body.

  In the conventional elevator apparatus, the base-isolated building is supported by the base building via the base-isolating device, and is formed on both the base and the base-isolating building and displaced at least in the horizontal direction with respect to the both. An elevator hoistway body is provided. And the telescopic boarding / exiting path which connected both the boarding / exiting gates and the landing doorway of the hoistway body is provided. (See Patent Document 1 for an elevator device having a similar configuration).

  And as a movable side wall of the boarding / alighting passage, a plurality of strip-shaped plate bodies are arranged vertically in the longitudinal direction, and the edges in the width direction are overlapped with each other so as to be movable in the width direction of the strip-shaped plate body. A horizontal movable connecting mechanism employed in a conventional elevator apparatus that connects strip-shaped plate members arranged with their edges overlapped with each other on such a movable side wall will be described with reference to FIG.

  That is, in FIG. 17, one end is held by the first plate body 201 that forms one side of the strip-shaped plate body 101 that is arranged by overlapping the edge portions, and is closer to the edge portion in the width direction of the first plate body 201. A connecting pin 301 is erected on the back side of the. Further, a horizontal elongated hole 501 is provided in the horizontal elongated hole 501 in which the longitudinal length is horizontally arranged near the edge corresponding to the connecting pin 301 of the second plate 401 that forms the other side of the strip-shaped plate 101. The connecting pin 301 is inserted and slidably fitted in the horizontal direction. The horizontal movable connecting mechanism 601 is formed with the connecting pin 301 and the horizontal elongated hole 501 as main components.

Japanese Patent Laid-Open No. 11-335023 (page 3, FIG. 4)

  In the conventional elevator apparatus, the movable side wall of the boarding / exiting passage is formed to be stretchable by a plurality of strip-shaped plate bodies, and the overlapping portions of the strip-shaped plate bodies are horizontally movable connection having a connection pin and a horizontal elongated hole as main parts. It is movably connected by a mechanism. However, the horizontal elongated hole of the horizontal movable connecting mechanism may be exposed as a through space inside the boarding passage due to the expansion and contraction of the movable side wall. At this time, there is a problem that a foreign matter is caught in the through space where the horizontal elongated hole is exposed.

  The present invention has been made to solve such a problem, and in the horizontal movable connecting mechanism of a plurality of strip-shaped plate bodies that extendably connect the movable side walls of the passenger passage, the strip-shaped plate bodies have moved. It is an object of the present invention to obtain an elevator apparatus in which a horizontal elongated hole in the horizontal movable connecting mechanism is sometimes not exposed.

  In the elevator apparatus according to the present invention, a base-isolated building body, a base building body, and a base-isolated building that are supported on the base building body via a seismic isolation device and are relatively displaced in a horizontal direction with respect to the base building body during an earthquake. Elevator hoistway bodies which are arranged vertically through both bodies and are displaced at least in the horizontal direction with respect to the two, and entrances / exits provided in each of the above and the hoistway bodies, respectively, facing the entrance / exit The entrance / exit passage formed by connecting the hall entrances and exits arranged at the above-mentioned positions and configured to be stretchable and a plurality of strip-shaped plate bodies are arranged vertically in the longitudinal direction and the edges in the width direction are overlapped with each other The movable side wall of the boarding passage formed between the side edge of the entrance / exit and the side edge of the entrance / exit is overlapped with each other. One side of the strip-shaped plate One end is held by the formed first plate, and the second plate that forms the other side of the strip-shaped plate is inserted into a horizontal elongated hole that is horizontally arranged in the longitudinal direction and slidably fitted. A connecting pin and a block provided at the insertion end of the connecting pin and covering a horizontal oblong hole disposed outside the overlapped portion by the relative displacement of both the first plate and the second plate. And a horizontally movable connecting mechanism made of a plate.

  The elevator apparatus according to the present invention is provided with an elevator hoistway body that is displaced at least in a horizontal direction with respect to an entrance provided in a base building or the like, and a landing doorway facing the entrance is arranged on the hoistway body. . An entrance / exit passage configured to be extendable / contracted is provided by connecting the entrance / exit to the entrance / exit. Moreover, the movable side wall of the boarding / alighting passage is configured to be extendable and contractable by a plurality of strip-shaped plate bodies, and is connected by a horizontal movable connection mechanism.

  In normal times when there is no earthquake, the entrance / exit and the entrance / exit are arranged at a predetermined interval, the first plate is on one side and the second plate is on the other side. A plate is arranged. And when an earthquake occurs and a hoistway body leaves | separates from the entrance / exit, the overlap part of both the 1st board body and the 2nd board body shrinks, and the horizontal long hole of a horizontal movable connection mechanism is both said both It moves outside the overlapping part and is exposed inside the boarding passage.

  However, the horizontal elongated hole exposed inside the boarding passage is covered with the closing plate because the connecting pin and the closing plate of the horizontal movable connecting mechanism are displaced in the horizontal direction. For this reason, the movement of the strip-shaped plate 8, that is, the movement of both, does not cause an exposed through space due to the horizontal elongated hole constituting the horizontal movable connecting mechanism. Therefore, there is an effect of preventing a problem that foreign matter is caught in the through space where the horizontal elongated hole is exposed.

Embodiment 1 FIG.
1 to 10 are views showing an embodiment of the present invention. FIG. 1 is an elevational view of a movable side wall portion of the getting-on / off passage viewed from the outside of the getting-on / off passage, and FIG. 2 is an enlarged view of a portion corresponding to part A in FIG. 3 is a plan view of FIG. 2, FIG. 4 is a longitudinal side view of FIG. 2, FIG. 5 is a view corresponding to FIG. 2 corresponding to the extension of the movable side wall of FIG. 1 is a view corresponding to FIG. 2 corresponding to the shortening of the movable side wall of FIG. 1, FIG. 8 is a plan view of FIG. 7, and FIG. 9 shows a state in which the upper part of the entrance / exit is inclined in the direction approaching the entrance / exit in FIG. FIGS. 10 and 10 are views showing a state in which the upper part of the entrance / exit is inclined in a direction away from the entrance / exit in the entrance / exit of FIG.

  Although illustration is abbreviate | omitted in the figure, the seismic isolation building body which is supported on a base building via a seismic isolation apparatus, and is displaced relative to a base building at a horizontal direction at the time of an earthquake is provided. And the hoistway body 1 of an elevator is arrange | positioned by penetrating to both a base building body and a seismic isolation building body, and displaces to a horizontal direction at least with respect to the said both. Moreover, the entrance / exit 2 is provided in each of the both, and the landing entrance 3 is provided in the position facing the entrance / exit 2 of the hoistway body 1.

  As described below, an entrance / exit passage 4 configured to be extendable / contracted is provided by connecting the entrance / exit 2 and the landing entrance 3. That is, one side of the floor board 5 on the landing doorway side is pivotally attached to the lower part of the landing doorway 3 by a ball joint, and the other side is superposed on the floor on the landing door 2 side. Moreover, one side of the board 6 at the entrance / exit side is pivotally attached to the entrance / exit 2 side at a position away from the landing entrance 3 of the floor, and the other side is superposed on the other side of the floor board 5 at the entrance / exit side.

  Further, a plurality of strip-shaped plate bodies are arranged in the direction of the frontage of the entrance / exit 2 and are arranged in parallel with the direction of passage of the entrance / exit passage 4 to form the movable ceiling 7 of the entrance / exit passage 4. The plurality of strip-shaped plate bodies of the movable ceiling 7 are connected to each other by a link mechanism in which link pieces are combined in an X shape, so that the movable ceiling 7 is configured to be extendable. The plurality of strip-shaped plate bodies 8 are arranged vertically in the longitudinal direction and are arranged so as to be movable in the width direction of the strip-shaped plate bodies 8 by overlapping the edges in the width direction. A movable side wall 9 of the boarding / alighting passage 4 is configured between the edge and the side edge of the landing entrance 3.

  And the 1st plate body 10 which forms the one side in the strip-shaped plate body 8 mutually arrange | positioned by superposing | polymerizing an edge part, and the 2nd plate body 11 which forms the other side are provided, A horizontal long hole 12 is provided in the vicinity of the edge of the overlapping portion with the second plate body 11. Moreover, the holding plate 13 is arrange | positioned at the superposition | polymerization part side with the 1st board 10 of the 2nd board 11, and the vertical elongate hole 14 by which the longitudinal direction was arrange | positioned perpendicularly is provided.

  In addition, two guide rails 15 are provided on the back surface of the second plate 11 and are horizontally spaced apart from each other, and the upper and lower edges of the holding plate 13 are respectively slidably engaged in the horizontal direction. One end of the connecting pin 16 is slidably engaged with the vertical long hole 14 of the holding plate 13 in the vertical direction, and is arranged in a standing state with respect to the holding plate 13. The other end of the connecting pin 16 is It is inserted into the horizontal long hole 12 of the first plate 10 and engaged with the horizontal long hole 12 so as to be slidable in the horizontal direction.

  Then, one side of the closing plate 17 is fixed to the other end of the connecting pin 16, that is, the insertion end of the horizontal long hole 12, and the other side is extended closer to the anti-overlapping portion of the first plate body 10. Further, a lip-shaped channel steel guide fitting 18 is fixed to the back surface of the first plate body 10 via a lip portion, and the closing plate 17 is slidably held in the groove shape. The horizontal movable connecting mechanism 19 is configured with the horizontal elongated hole 12, the holding plate 13, the guide rail 15, the connecting pin 16, and the closing plate 17 as main parts.

  Further, the vertically movable connecting mechanism 20 is configured with the vertical elongated hole 14 and the connecting pin 16 as main parts. The horizontal movable coupling mechanism 19 and the vertical movable coupling mechanism 20 are integrally formed, and the strip-shaped plate bodies 8 arranged by overlapping the edges are arranged with each other, that is, the first plate body 10 and the second plate body 11. And a plurality of them are arranged apart from each other in the overlapping part.

  In the elevator apparatus configured as described above, an elevator hoistway body 1 that is displaced at least in a horizontal direction with respect to the entrance 2 provided in the base building or the like is provided, and a landing entrance 3 that faces the entrance 2 Is placed. In addition, an entrance / exit passage 4 configured to be extendable / contracted is provided by connecting the entrance / exit 2 and the landing entrance 3. And the landing entrance 3 is arrange | positioned with the predetermined space | interval with respect to the entrance / exit 2 at the normal time without an earthquake.

  Further, in the normal state, both of the first plate body 10 and the second plate body 11 arranged by overlapping the edge portions of the plurality of strip-shaped plate bodies 8 constituting the movable side wall 9 of the getting-on / off passage 4 are illustrated. 2 is arranged. That is, the horizontal elongated hole 12 is disposed in both the overlapping portions, and the holding plate 13, the connecting pin 16 and the closing plate 17 are disposed closer to the entrance / exit 2. Further, the connecting pin 16 is disposed in the vicinity of the vertical center of the vertical slot 14 of the closing plate 17.

  And when an earthquake occurs and the hoistway body 1 leaves | separates from the entrance / exit 2, the connecting pin 16 and the closing plate 17 are displaced in the direction of the entrance / exit 3 and the state shown in FIG. Become. At this time, the horizontal elongated hole 12 moves out of both the overlapping portions and is exposed to the inside of the passenger passage 4, but the exposed horizontal elongated hole 12 is covered with the closing plate 17.

  For this reason, there is no exposure through space of the horizontal elongated hole 12 forming the horizontal movable connecting mechanism 19 by the movement of the strip-shaped plate body 8, that is, both of the above movements. Therefore, it is possible to prevent a problem that a foreign object is caught in the exposed through space where the horizontal elongated hole 12 is exposed. Further, it is possible to prevent a problem that the aesthetic appearance is impaired by the formation of the exposed through space of the horizontal elongated hole 12.

In addition, when an earthquake occurs and the hoistway body 1 approaches the entrance / exit 2, the holding plate 13 is displaced in the direction of the entrance / exit 3 to change from the state shown in FIG. 2 to the state shown in FIG. 7.
Further, when an earthquake occurs and the hoistway body 1 is displaced and the upper part of the landing entrance 3 is inclined in a direction approaching the entrance 2, the state shown in FIG. When it inclines in the direction away from, it will be in the state shown in FIG.

  9 and 10, the connecting pin 16 moves in the longitudinal direction of the vertical long hole 14 provided in the holding plate 13 of the vertical movable connecting mechanism 20. Accordingly, both of the above can be smoothly displaced relative to each other without excessive deformation, and it is possible to easily cope with the inclination of the landing entrance 3 with respect to the entrance 2 when an earthquake occurs. For this reason, the number of inspections after the earthquake can be reduced and the resumption of operation can be facilitated.

Embodiment 2. FIG.
11 to 16 show other embodiments of the present invention. FIG. 11 is a view corresponding to FIG. 2, FIG. 12 is a plan view of FIG. 11, and FIG. FIG. 14 is a plan view of FIG. 13, FIG. 15 is a diagram showing a state when the movable side wall of FIG. 11 is shortened, and FIG. 16 is a plan view of FIG. Except for FIGS. 11 to 16, except for the configuration of the horizontal movable connecting mechanism and the vertical movable connecting mechanism, the elevator apparatus is configured in the same manner as the embodiment of FIGS. 1 to 10 described above.

  In the figure, the same reference numerals as those in FIGS. 1 to 10 denote the corresponding parts, and the connecting pin 21 is attached to the back surface of the second plate 11 near the edge of both the first plate 10 and the second plate 11 on the overlapping portion side. Is inserted into the horizontal long hole 12 of the first plate 10 and is slidably fitted into the horizontal long hole 12. In addition, the closing plate 22 is disposed on both of the anti-polymerization portions on the back surface side of the first plate body 10, and the edge portions on both of the anti-polymerization portions are fastened to the insertion end of the connecting pin 21. The horizontal movable connecting mechanism 23 is configured with the horizontal elongated hole 12, the connecting pin 21, and the closing plate 22 as the main parts.

  The elevator apparatus configured as described above omits the vertical movable connecting mechanism 20 of the embodiment shown in FIGS. 1 to 10 and simplifies the configuration. And at the normal time without an earthquake, both the 1st board 10 and the 2nd board 11 which were arrange | positioned by superposing | stacking an edge part mutually are arrange | positioned in the state shown in FIG. That is, the horizontal long hole 12 is disposed in both the overlapping portions, and the connecting pin 21 and the closing plate 22 are disposed closer to the entrance 2.

  And when an earthquake occurs and the hoistway body 1 leaves | separates from the entrance / exit 2, the connecting pin 21 and the closing board 22 are displaced in the direction of the landing doorway 3 and the state shown in FIG. Become. At this time, the horizontal elongated hole 12 moves out of both the overlapping portions and is exposed to the inside of the passenger passage 4, but the exposed horizontal elongated hole 12 is covered with the closing plate 22.

  For this reason, the movement of the strip-shaped plate body 8, that is, the movement of both the above, does not cause an exposed through space of the horizontal elongated hole 12 forming the horizontal movable connecting mechanism 23. Therefore, although detailed explanation is omitted, FIGS. Also in the embodiment of FIG. 16, the same operation as that of the embodiment of FIGS. In addition, when an earthquake occurs and the hoistway body 1 approaches the entrance / exit 2, the width of both the overlapping portions is enlarged and the state shown in FIG. 11 is changed to the state shown in FIG. 15.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. The enlarged view of the A part corresponding | compatible part of FIG. The top view of FIG. FIG. 3 is a longitudinal side view of FIG. 2. FIG. 2 is a view corresponding to FIG. 2 corresponding to the extension of the movable side wall of FIG. 1. FIG. 6 is a plan view of FIG. 5. FIG. 2 is a view corresponding to FIG. 2 corresponding to the shortening of the movable side wall of FIG. 1. The top view of FIG. The figure which shows the state which the upper part of the hall | entrance entrance / exit inclined in the direction approaching a boarding / alighting entrance in the boarding / alighting passage of FIG. The figure which shows the state in which the upper part of the hall | entrance entrance / exit incline in the direction which goes away from the entrance / exit in the boarding / alighting passage of FIG. FIG. 3 is a diagram showing a second embodiment of the present invention and corresponding to FIG. 2 described above. The top view of FIG. The figure which shows the state at the time of the expansion | extension of the movable side wall of FIG. FIG. 14 is a plan view of FIG. 13. The figure which shows the state at the time of shortening of the movable side wall of FIG. The top view of FIG. The figure explaining the horizontal movable connection mechanism in the conventional elevator apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Hoistway body, 2 Entrance / exit, 3 Platform entrance / exit, 4 Entrance / exit passage, 8 Strip board, 9 Movable side wall, 10 1st board, 11 2nd board, 12 Horizontal long hole, 13 Holding board, 16 Connection Pin, 17 closing plate, 19 horizontal movable connecting mechanism, 20 vertical movable connecting mechanism, 21 connecting pin, 22 closing plate, 23 horizontal movable connecting mechanism.

Claims (2)

  A base-isolated building that is supported on a base building via a seismic isolation device and is horizontally displaced relative to the base building in the event of an earthquake, and runs through both the base building and the base-isolating building. An elevator hoistway body that is disposed and displaced at least horizontally with respect to the both, an entrance / exit provided in each of the both, and a position provided in the hoistway body and facing the entrance / exit The entrance / exit passage formed by connecting the platform entrances and exits, and a plurality of strip-like plate bodies are vertically arranged in the longitudinal direction, and the edges in the width direction are overlapped with each other to move in the width direction. The strip-shaped plate formed by being freely arranged and arranged by overlapping the movable side wall of the boarding passage provided between the side edge of the boarding gate and the side edge of the landing entrance and the edge. One end on the first plate forming one side of the body A connecting pin which is held and is provided on a second plate body forming the other side of the strip-shaped plate body, and is inserted into a horizontal long hole whose length is horizontally arranged and slidably fitted thereto, and the connecting pin A horizontal movable connection comprising a closing plate disposed at the insertion end of the first plate body and covering the horizontal elongated hole disposed outside the overlapped portion by the relative displacement of both the first plate body and the second plate body. Elevator device equipped with a mechanism.   2. A vertically movable coupling mechanism having a holding plate provided on a second plate body and having an end of the coupling pin on the second plate body side slidably engaged in a vertical direction. The elevator device described.

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