The present invention relates to an elevator car upper handrail apparatus which is erected on a car upper surface and prevents a worker from falling.
In a conventional car upper handrail apparatus, a pair of first handrails are erected on both sides of a car upper surface, i.e. one on the left side and one on the right side. Also, a pair of second handrails are respectively connected to ends of the first handrails on a side opposite to a landing. Further, a gap between ends of the first handrails on a landing side is simply left open, as no member for connecting the ends of the first handrails on the landing side is used (see PTL 1, for example).
In another conventional car upper handrail apparatus, a handle post is erected between ends of first and second side handrails erected on both sides of a car upper surface on a landing side, i.e. one on the left side and one on the right side. A first connection bracket is provided between an upper end of the handle post and the first side handrail. A handle bar and a second connection bracket are provided between the upper end of the handle post and the second side handrail.
A proximal end of the first connection bracket is connected, so as to be freely rotatable, to the first side handrail. A distal end of the first connection bracket is locked onto a first pin provided on the handle post. A proximal end of the second connection bracket is connected, so as to be freely rotatable, to the second side handrail. A distal end of the second connection bracket is locked onto a second pin provided on the handle bar (see PTL 2, for example).
[PTL 1] Japanese Patent Application Publication No. 2007-261788
[PTL 2] Japanese Patent Application Publication No. 2011-93618
In the conventional car upper handrail apparatus disclosed in PTL 1, no reinforcing member is used to connect the ends of the first handrails on the landing side, hence, supposing that a force will be applied, in a width direction of the car, to one or both of the first handrails on the landing side of the car upper surface, it is necessary to increase the rigidity of each of the first handrails, which results in an increase in component size and weight.
On the other hand, in the conventional car upper handrail apparatus disclosed in PTL 2, the ends of the first and second side handrails on the landing side are connected to each other, hence a load can be split between the first and second side handrails, as a result the first and second side handrails can be reduced in size and weight. However, when a worker enters/exits the car upper surface, it is necessary for the first or second connection bracket to be released from the first or second pin and rotated, and then for the first or second connection bracket to be rotated back to an original position and locked back onto the pin, which results in a decline in workability. Moreover, should the worker forget to lock the first and second connection brackets onto the first and second pins, the strength required of the first and second side handrails may not be secured.
The present invention has been made to solve the problems described above, and an object thereof is to obtain an elevator car upper handrail apparatus in which the strength required of first and second side handrails can be more reliably secured while the weight thereof is reduced, and in which a decline in workability when a worker enters/exits a car upper surface can be prevented.
An elevator car upper handrail apparatus according to the present invention is provided with first and second side handrails erected respectively along left and right edges of a car upper surface when viewed from a landing side, and a connecting body provided between respective ends of the first and second side handrails on the landing side, wherein the connecting body includes an opening/closing member which is rotatable between a closed position, in which a path for movement of a worker from a landing to the car upper surface is closed by the opening/closing member and an open position, in which the path for movement is opened by the opening/closing member, the opening/closing member is configured to return automatically to the closed position, and when the opening/closing member is in the closed position, the connecting body transmits an external force applied to one of the first and second side handrails in the width direction of a car to the other of the first and second side handrails.
In the elevator car upper handrail apparatus according to the present invention, a connecting body is provided with an opening/closing member which is rotatable between a closed position and an open position, the opening/closing member is configured to return automatically to the closed position, and when the opening/closing member is in the closed position, the connecting body transmits an external force applied to one of the first and second side handrails in the width direction of a car to the other of the first and second side handrails, hence, the strength required of the first and second side handrails can be more reliably secured while the weight thereof is reduced, and a decline in workability when a worker enters/exits the car upper surface can be prevented.
Embodiments of the present invention will be described hereinafter with reference to the drawings.
The car 1 is suspended in a hoistway from a suspending body (not shown), and ascends/descends in the hoistway due to the driving force of a hoisting machine (not shown).
A car upper handrail apparatus, which prevents a worker from falling when the worker performs work on the car 1, is installed on the car 1. The car upper handrail apparatus includes first and second side handrails 3 and 4 which are erected vertically along left and right edges of the car upper surface 1e when viewed from a landing side, a rear handrail 5 fixed between ends of the first and second side handrails 3 and 4 on an opposite side to the landing, and a connecting body 6 provided between ends of the first and second side handrails 3 and 4 on a landing side.
The configuration of the second side handrail 4 is the same as that of the first side handrail 3. Further, the structure for fixing the second side handrail 4 to the car 1 is the same as that for fixing the first side handrail 3 to the car 1.
The connecting body 6 includes first and second flat plate-shaped opening/closing members 7 and 8. A proximal end of the first opening/closing member 7 is connected, so as to be rotatable, to the end of the first side handrail 3 on the landing side via a plurality of hinges 9a. A proximal end of the second opening/closing member 8 is connected, so as to be rotatable, to the end of the second side handrail 4 on the landing side via a plurality of hinges 9b.
The first and second opening/closing members 7 and 8 are rotatable, about a vertical axis, between a closed position (the solid line shown in
Further, a plurality of torsion springs 10a which apply, to the first opening/closing member 7, a force to return the first opening/closing member 7 to the closed position, are provided at the proximal end of the first opening/closing member 7. A plurality of torsion springs 10b which apply, to the second opening/closing member 8, a force to return the second opening/closing member 8 to the closed position are provided at the proximal end of the second opening/closing member 8. As a result, the first and second opening/closing members 7 and 8 automatically return to the closed position when an external force that acts to rotate the first and second opening/closing members 7 and 8 from the closed position towards the open position is removed.
The first connecting portion 7a includes a first opposing portion 7b formed by bending the distal end of the first opening/closing member 7 perpendicularly towards the landing, and a first folded-back portion 7c formed by bending the distal end of the first opposing portion 7b perpendicularly towards a proximal end of the first opening/closing member 7. A first concave portion 7d, which is continuous in the vertical direction, is formed at an inner side of the first connecting portion 7a.
A second connecting portion 8a is provided in an area, which is overlapped by the first connecting portion 7a when the first opening/closing member 7 is in the closed position or, in other words, at the distal end of the second opening/closing member 8. The second connecting portion 8a is formed by bending the distal end of the second opening/closing member 8 into a U shape. The first and second connecting portions 7a and 8a constitute catching portions each having an angle of 90° or more.
The second connecting portion 8a includes a second opposing portion 8b formed by bending the distal end of the second opening/closing member 8 perpendicularly towards a side opposite to the landing, and a second folded-back portion 8c formed by bending the distal end of the second opposing portion 8b perpendicularly towards a proximal end of the second opening/closing member 8. A second concave portion 8d, which is continuous in the vertical direction, is formed at an inner side of the second connecting portion 8a.
The length dimension of the second opening/closing member 8 in the width direction (the left-right direction in
When the first and second opening/closing members 7 and 8 are in the closed position, the first and second connecting portions 7a and 8a do not overlap each other when viewed from the landing side. However, the first and second connecting portions 7a and 8a do overlap each other when viewed along the width direction of the car 1.
Further, when the first and second opening/closing members 7 and 8 are in the closed position, the first folded-back portion 7c is positioned outside the second concave portion 8d, and the second folded-back portion 8c is positioned outside the first concave portion 7d. In other words, the first and second connecting portions 7a and 8a are normally oppose each other via a gap in the width direction of the car 1 so as to allow rotation of the opening/closing members 7 and 8 from the closed position towards an open position.
Further, the first and second connecting portions 7a and 8a come into contact with each other, as shown in
With such a car upper handrail apparatus, a worker can easily move onto the car upper surface 1e by simply rotating the first and second opening/closing members 7 and 8, such that a decline in workability when the worker enters/exits the car upper surface 1e can be prevented.
Further, when, for example, a worker working close to the landing pushes the first side handrail 3 towards an outer side of the car 1 for some reason, the first side handrail 3 collapses towards the outer side of the car 1 proportionately to the load acting thereon. When the extent to which the first side handrail 3 collapses becomes equal to or greater than a gap between the first and second connecting portions 7a and 8a, the first and second opening/closing members 7 and 8 are connected to each other via the first and second connecting portions 7a and 8a.
As a result, the load supported by the first side handrail 3 is transmitted to the second side handrail 4 via the first and second connecting portions 7a and 8a so as to be supported by both the left and right side handrails 3 and 4. In this state, twice the load can be supported in comparison to when a load is supported by the first side handrail 3 alone.
Further, the first and second opening/closing members 7 and 8 are configured to return automatically to the closed position. Accordingly, the strength required of the first and second side handrails 3 and 4 can be more reliably secured while the weight thereof is reduced.
Moreover, as the first and second connecting portions 7a and 8a are formed by bending the respective distal ends of the first and second opening/closing members 7 and 8, the configurations thereof are simple.
Further, as the proximal end of the first opening/closing member 7 is connected to the first side handrail 3 and the proximal end of the second opening/closing member 8 is connected to the second side handrail 4, it is possible for a worker to move onto the car upper surface 1e via the wide area between the first and second side handrails 3 and 4, whereby workability is improved.
In the second embodiment, a first connecting portion 11 is fixed to the distal end of the first opening/closing member 7. The first connecting portion 11 includes a fixing portion 11a fixed to the first opening/closing member 7 and first and second L-shaped hook portions 11b and 11c which project respectively from a distal end of the fixing portion 11a towards both sides of the first opening/closing member 7 in an opening/closing direction.
A first concave portion 11d, which is continuous in the vertical direction, is formed at an inner side of the fixing portion 11a and the first hook portion 11b. A second concave portion 11e, which is continuous in the vertical direction, is formed at an inner side of the fixing portion 11a and the second hook portion 11c. The first and second hook portions 11b and 11c constitute catching portions each having an angle of 90° or more.
A second connecting portion 12 is fixed to the distal end of the second opening/closing member 8. The second connecting portion 12 is provided in an area that is overlapped by the first connecting portion 11 when the first and second opening/closing members 7 and 8 are in the closed position. Further, the second connecting portion 12 includes a vertical connecting rod 12a which selectively opposes one of the first and second hook portions 11b and 11c when the first and second opening/closing members 7 and 8 are in the closed position.
Further, when the first and second opening/closing members 7 and 8 are in the closed position, the connecting rod 12a does not overlap the first and second hook portions 11b and 11c when viewed from the landing side. However, the connecting rod 12a does overlap the first or second hook portion 11b or 11c when viewed along the width direction of the car 1.
Further, when the first and second opening/closing members 7 and 8 are in the closed position, the connecting rod 12a is positioned outside the first and second concave portions 11d and 11e. In other words, the first and second connecting portions 11 and 12 normally oppose each other via a gap in the width direction of the car 1 so as to allow rotation of the opening/closing members 7 and 8 from the closed position towards an open position.
Further, the first and second connecting portions 11 and 12 come into contact with each other due to at least one of the first and second side handrails 3 and 4 being displaced in the width direction of the car 1, whereby an external force applied in the width direction of the car 1 is transmitted therebetween. In such a state, the connecting rod 12a enters the first or second concave portion 11d or 11e and comes into contact with the first or second hook portion 11b or 11c. All other configurations and operations are similar or identical to the first embodiment.
Such connecting portions 11 and 12 also allow the strength required of first and second side handrails 3 and 4 to be more reliably secured while the weight thereof is reduced, and allow a decline in workability, when a worker enters/exits the car upper surface 1e, to be prevented.
Moreover, when the first and second opening/closing members 7 and 8 return to the closed position from a state of being rotated towards the open position, the first and second connecting portions 11 and 12 can be connected to each other regardless of which of the first and second opening/closing members 7 and 8 returns to the closed position first.
Note that, in the first and second embodiments, the dimensions of the first and second opening/closing members 7 and 8 in the width direction of the car 1 are the same, but may be different.
The opening/closing member 14 is rotatable, about a vertical axis, between a closed position (the solid line shown in
Further, a plurality of torsion springs 17 which apply, to the opening/closing member 14, a force to return the opening/closing member 14 to the closed position, are provided at the proximal end of the opening/closing member 14.
A proximal end of the fixed connecting member 15 is fixed perpendicularly to the second side handrail 4. In other words, the fixed connecting member 15 does not rotate with respect to the second side handrail 4. The dimension of the fixed connecting member 15 in the width direction of the car 1 is smaller than that of the opening/closing member 14 in the width direction.
A first connecting portion 18 is fixed to the distal end of the opening/closing member 14. The first connecting portion 18 has the same shape as the first connecting portion 11 of the second embodiment except with the second hook portion 11c removed therefrom. A second connecting portion 12 similar to that of the second embodiment is fixed to the distal end of the fixed connecting member 15. All other configurations and operations are similar or identical to the second embodiment.
Such a connecting body 13 also allows the strength required of the first and second side handrails 3 and 4 to be more reliably secured while the weight thereof is reduced, and allows a decline in workability, when a worker enters/exits the car upper surface 1e, to be prevented.
Moreover, as only one opening/closing member 14 is used, fewer hinges 16 and torsion springs 17 have to be used.
Note that, in the third embodiment, the side handrail on the right side when viewed from the landing side is set as the first side handrail, however, the left side handrail may be set as the first side handrail and the right side handrail set as the second side handrail.
Further, the dimensional balance between the opening/closing member and the fixed connecting member is not limited to the example described above, and the dimension of the fixed connecting member in the width direction of the car 1 may be set to be the same as the dimension of the opening/closing member in the width direction, or may be set to be larger than the dimension of the opening/closing member in the width direction.
Further, in the third embodiment, the proximal end of the opening/closing member 14 is directly connected to the first side handrail 3, however, a fixed connecting member may also be fixed to the first side handrail side, and the proximal end of the opening/closing member may be connected, so as to be rotatable, to the distal end of the fixed connecting member. In other words, the opening/closing member may be connected to the first side handrail via a fixed connecting member.
A connecting body 19 of the fourth embodiment includes an opening/closing member 20. A proximal end of the opening/closing member 20 is connected, so as to be rotatable, to the end of the first side handrail 3 on the landing side via the hinges 16 in the same way as in the third embodiment.
The opening/closing member 20 is rotatable, about a vertical axis, between a closed position (the solid line shown in
Further, similarly to the third embodiment, torsion springs 17 which apply, to the opening/closing member 20, a force to return the opening/closing member 20 to the closed position, are provided at the proximal end of the opening/closing member 20.
A first connecting portion 18, which is similar to that of the third embodiment, is fixed to a distal end of the opening/closing member 20. A second connecting portion 4a, which is a portion of a vertical pillar of the second side handrail 4, is provided in an area that is overlapped by the first connecting portion 18 when the opening/closing member 20 is in the closed position. All other configurations and operations are similar or identical to the third embodiment.
Such a connecting body 19 also allows the strength required of first and second side handrails 3 and 4 to be more reliably secured while the weight thereof is reduced, and allows a decline in workability, when a worker enters/exits the car upper surface 1e, to be prevented.
Moreover, as only one opening/closing member 20 is used, fewer hinges 16 and torsion springs 17 have to be used.
Further, as no fixed connecting member is used, the number of components can be further reduced.
Note that, in the fourth embodiment, the side handrail on the right side when viewed from the landing side is set as the first side handrail, however, the left side handrail may be set as the first side handrail and the right side handrail set as the second side handrail.
Further, in the fourth embodiment, the proximal end of the opening/closing member 20 is directly connected to the first side handrail 3, however, a fixed connecting member similar to that of the third embodiment may be fixed to the first side handrail side, and the proximal end of the opening/closing member may be connected, so as to be rotatable, to the distal end of the fixed connecting member. In other words, the opening/closing member may be connected to the first side handrail via a fixed connecting member.
Further, in the first to fourth embodiments, the torsion springs are indicated as a mechanism for automatically returning the opening/closing member to the closed position, however, the mechanism is not limited thereto. For example, a mechanism may be used in which a weight is raised when the opening/closing member rotates towards the open position, such that the opening/closing member automatically returns to the closed position under the weight of the weight.
Further, the first and second connecting portions of the first to fourth embodiments may each be divided into two or more connecting portions in the vertical direction.
The opening/closing member 22 is rotatable between a closed position (the solid line shown in
The connection fitting 24 includes a pair of mutually opposing wall portions 24a and 24b. When the opening/closing member 22 is in the closed position, the distal end of the opening/closing member 22 is inserted between the wall portions 24a and 24b. A pair of grooves 24c and 24d are respectively provided in the wall portions 24a and 24b. When the opening/closing member 22 is in the closed position, the coupling rod 23 is inserted into the grooves 24c and 24d.
The width dimension of the grooves 24c and 24d is set to be larger than the diameter of the coupling rod 23. For this reason, the coupling rod 23 and the grooves 24c and 24d allow the opening/closing member 22 to rotate.
A stopper 25a for limiting the rotation angle of the opening/closing member 22 is provided at an inner side of the attachment fitting 25. When the opening/closing member 22 is in the open position, the proximal end of the opening/closing member 22 comes into contact with the stopper 25a.
Accordingly, the configuration according to the fifth embodiment also allows the strength required of first and second side handrails 3 and 4 to be more reliably secured while the weight thereof is reduced, and allows a decline in workability, when a worker enters/exits the car upper surface 1e, to be prevented.
Further, as the opening/closing member 22 returns to the closed position due to the own weight of the opening/closing member 22, a member such as a torsion spring for returning the opening/closing member 22 to the closed position is not required.
Note that the type of elevators to which the present invention is applied is not particularly limited, and that the present invention may be applied to machine room-less elevators, elevators having a machine room, elevators having a 1:1 roping system, elevators having a 2:1 roping system, double deck elevators, one-shaft multi-car type elevators in which a plurality of cars are arranged in a common hoistway, and the like.
Filing Document | Filing Date | Country | Kind |
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PCT/JP2015/070948 | 7/23/2015 | WO | 00 |