The present invention relates to an elevator renovation method for renovating a hydraulic elevator to a non-hydraulic elevator.
An elevator includes a hoistway which extends vertically and a car which is provided so as to be movable in the hoistway. Conventionally, the renovation of a hydraulic elevator to a machine room-less rope elevator or a pressure-driven elevator has been carried out. An example of the renovation is now described. According to a method described in Patent Literature 1, when an old existing hydraulic elevator is to be renovated to a rope elevator, devices relating to the driving of the hydraulic elevator are first removed. Thereafter, devices of the rope elevator are installed in the hoistway.
According to the above-mentioned elevator renovation method, however, the removal of devices for the hydraulic elevator, which are provided in the hoistway, such as a jack and a plunger, takes time and efforts. Therefore, there is a problem in that a period of renovation work becomes disadvantageously long. Moreover, when a top part of the hoistway has no room for a space for providing a new hoisting machine and deflector sheave, and further a space for providing beams for supporting the hoisting machine and the deflector sheave, there is another problem in that the renovation is difficult.
Patent Literature
The present invention has been made to solve the problems described above, and therefore has an object to provide an elevator renovation method, which is capable of reducing a renovation period and enabling effective use of a space when an existing hydraulic elevator is renovated to a non-hydraulic elevator.
In order to attain the object described above, according to the present invention, there is provided an elevator renovation method for renovating a hydraulic elevator in which a plunger provided integrally with a car is hydraulically driven to a non-hydraulic elevator, including; providing a driving device for generating a driving force for raising the car; leaving the plunger so that the plunger can be raised and lowered inside an existing jack; and obtaining the non-hydraulic elevator by exerting the driving force of the driving device in a direction in which the plunger is moved up to raise the car.
According to the elevator renovation method of the present invention, it is possible to reduce the renovation period and enable the effective use of a space when the existing hydraulic elevator is renovated to the non-hydraulic elevator.
Embodiments of an elevator renovation method according to the present invention are hereinafter described referring to the accompanying drawings. In the drawings, the same reference symbol denotes the same or a corresponding part.
A first embodiment describes a mode in which a hydraulic elevator referred to as a so-called “hydraulic direct plunger type elevator” in the field of art is renovated to a machine room-less rope elevator which is one of non-hydraulic elevators (elevators including a plunger driven by a force other than a hydraulic pressure of a jack).
In the hydraulic elevator before the renovation, a plunger 3 is provided integrally with a car 1 including a car floor 1a and car doors 1b. The plunger 3 extends downward from a bottom portion of the car 1. The plunger 3 is inserted into a jack 4 and is moved up by a hydraulic pressure of the jack 4. By the upward movement of the plunger 3, the car 1 is configured to be raised.
One of features of the elevator renovation method according to the present invention resides in that the plunger 3 and the jack 4 of the hydraulic elevator are not removed but are used as a part of devices included in the rope elevator. Specifically, the plunger 3 is left so as to be movable upward and downward inside the existing jack 4. Therefore, an oil draw out, a pipe, and a hydraulic driving portion (including a hydraulic tank, a pump, a motor, a control board, and the like), which are elements other than the plunger 3 and the jack 4, are removed.
On a buffer base 16c (buffer is not shown) provided in a pit, return pulleys 11, a rope stopper 13b, and a drum-type hoisting machine 10 are mounted as illustrated in
Next, as illustrated in
The counterweights 6 provided on both sides of the car 1 are guided by a pair of counterweight guide rails 5, each made of a steel plate having an approximately C-like transverse cross section. Each of the counterweight guide rails 5 is fixed by brackets 5a mounted to hoistway walls by anchor bolts 5b, as illustrated in
Next, as illustrated in
As illustrated in
A governor rope guide device (mounting plate) 14j is mounted to a lower part of a crosshead 2b of the car frame 2. The governor rope guide device 14j is connected to a clip 14e through a bolt in a mode in which the governor rope guide device 14j and the clip 14e sandwich the crosshead 2b therebetween.
In a top part of the hoistway 15, a governor device 16 is provided. On the other hand, a tension sheave 17 is provided in a lower part of the hoistway 15. The governor device 16 is supported through an intermediation of a governor mount base 16b, whereas the tension shave 17 is supported through an intermediation of a fitting 17a and an arm 17b. The governor mount base 16b and the fitting 17a are mounted to a car guide rail 16a by using clips and bolts.
A governor rope 18 passes from a governor rope gripper 14d provided to the car frame 2 through the tension sheave 17 and the governor 16 to return to the governor rope gripper 14d provided to the car frame 2 again. As an exploded state illustrated in
After a new control board 25 is carried into the hoistway 15 and is mounted to the car guide rail 16a through fittings, various types of wirings are provided. Then, after adjustment of mounting of various types of hoistway switches and various types of adjustment for operating the elevator are performed, the renovation to the rope-type elevator is completed.
As described above, according to the elevator renovation method according to this embodiment, the jack and the plunger of the hydraulic elevator are not removed but are used as a part of the car devices. Thus, the jack and the plunger are not required to be disassembled and carried out. Therefore, a work period can be significantly reduced, while renovation cost for renovation to the machine room-less elevator can also be reduced. The above-mentioned advantage also brings about an advantage in that waste is reduced to reduce an environmental load. Moreover, it is sufficient that the hoisting machine for raising and lowering the car be provided in the vicinity of the jack and the plunger, that is, in the lower part of the hoistway (bottom portion). Therefore, even in the case where the top portion of the hoistway has no room for a space for providing a new hoisting machine and deflector sheave and further a space for providing the beams for supporting the hoisting machine and the deflector sheave, the hydraulic elevator can be renovated to the rope type elevator.
Next, a second embodiment of the present invention is described referring to
As illustrated in
Next, the lid of the oil seal portion on the opening for the jack, which is provided in the center of the buffer base 16c, is removed. The plunger 3 is pulled up together with the car 1 by the winch, and is lifted up above the jack 4. A pair of rope stoppers 3a are connected to the plunger 3 by bolts 3b so that the rope stoppers 3a face and sandwich the plunger 3.
Subsequently, similarly to the first embodiment, the counterweight guide rails 5, the weight buffers 9, the counterweights 6, and the return pulleys 7 are mounted. The hoisting ropes 13a pass through one of the rope stoppers 3a of the plunger 3, one of the first return pulleys 11, the second return pulley 13, and further the return pulley 7 on the top of the counterweight guide rail 5 to be connected to one of the counterweight 6. On the opposite side, the hoisting ropes 13a pass through another of the rope stoppers 3a of the plunger, another of the return pulleys 11, a sheave 19a of the hoisting machine 19, and further the return pulley 7 on the top of another of the counterweight guide rails 5 in a similar manner to be connected to another of the counterweights 6. By providing the hoisting ropes 13a in this manner, the car 1 can be raised and lowered by a driving force of the hoisting machine 19.
Further, as in the case of the first embodiment, the emergency stop device and associated components, the governor, the tension sheave, and the governor rope are mounted. Finally, as in the case of the first embodiment, after the new control board 25 is carried into the hoistway 15 and is mounted to the car guide rail 16a through the fittings, various wirings are provided. Then, after adjustment of mounting of various types of hoistway switches and various types of adjustment for operating the elevator are performed, the renovation to the rope-type elevator is completed.
Even according to the second embodiment described above, similarly to the first embodiment, when the existing hydraulic elevator is renovated to the rope-type elevator, the renovation period can be reduced, while the space can be efficiently used.
Next, as a third embodiment of the present invention, a of renovating a hydraulic direct plunger type elevator to a pressure-driven elevator is described referring to
As illustrated in
In the illustrated example, the two pressure-driving belt devices 21 are mounted so as to be pressed against the plunger 3 from the opposite sides. Each of the pressure-driving belt devices 21 includes a neck portion 21d at one end portion of an elongated arm 21c (end portion on the side closer to the plunger 3). Each of the neck portions 21d stands obliquely upward toward the plunger 3. A driving belt 21a (having a cogged-belt shape) is rockably supported by each of the neck portions 21d. A driving motor 21b is connected to each of the driving belts 21a. Each of the driving belts 21a is driven to be circulated by a driving force of the driving motor 21b, which is transferred through a reduction gear 21g and a cogged gear 21f. A spring 21j is provided to a lower surface of another end portion of each of the arms 21c. Further, a supporting portion 21e is provided to a portion of each of the arms 21c, which is closer to the one end. Each of the arms 21c is supported by the corresponding supporting portion 21e so as to be inclined in a seesaw-like fashion.
With the configuration described above, the pressure-driving belt devices 21 can press the driving belts 21a so as to bring the driving belts 21a in pressure contact with the pressure-driving belt devices 21 with a strong force based on the principle of leverage. Moreover, each of the driving belts 21a has the cogged belt-like shape, and therefore does not slip against the cogged gear 21f. Further, rough surfaces are provided on portions of a surface of the plunger 3, which are to be held in pressure contact with the driving belts 21a. Specifically, as a first mode of the rough surface, an adhesive 3c is applied onto the portions of the surface of the plunger 3, which are to be held in pressure contact with the driving belts 21a. Then, vertically extending band-like sheets of abrasive paper 3d are bonded thereon. By the abrasive paper 3d, the friction force between the driving belts 21a and the plunger 3 is increased to reduce the slippage between the driving belts 21a and the plunger 3. By the above-mentioned manner, the driving force of the pressure-driving belt devices 21 can be economically and reliably transferred to the plunger 3 to raise and lower the plunger 3, that is, to raise and lower the car 1.
The rough surfaces provided to the portions of the surface of the plunger 3, which are to be held in pressure contact with the driving belts 21a, are not limited to the mode using the abrasive paper 3d. Thus, the following modes can be described as other examples. As a second mode of the rough surface as illustrated in
The configuration other than that described above and the other removal and installation work and adjustment work are the same as those described in the above-mentioned first embodiment.
Even according to the third embodiment described above, similarly to the first embodiment, when the existing hydraulic elevator is renovated to the rope-type elevator, the renovation period can be reduced, while the space can be efficiently used.
The pressure-driven elevator obtained by the renovation of the hydraulic direct plunger type elevator is not limited to include the counterweights as described in the above-mentioned third embodiment. A configuration illustrated in
Even according to the fourth embodiment described above, similarly to the first embodiment, when the existing hydraulic elevator is renovated to the rope-type elevator, the renovation period can be reduced, while the space can be efficiently used.
The contents of the present invention have been specifically described above referring to the preferred embodiments. However, it is apparent that various modified modes are possible by those skilled in the art based on the basic technological thought and teaching of the present invention.
1 car, 3 plunger, 4 jack, 6 counterweight, 8 compensating rope, 10 drum-type hoisting machine (driving device), 13a hoisting rope, 15 hoistway, 21 pressure-driving belt device (driving device)
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2011/062914 | 6/6/2011 | WO | 00 | 9/24/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/168992 | 12/13/2012 | WO | A |
Number | Name | Date | Kind |
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7775325 | Liebetrau et al. | Aug 2010 | B2 |
8407876 | Fischer | Apr 2013 | B2 |
20110209318 | Fischer | Sep 2011 | A1 |
Number | Date | Country |
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2010 105805 | May 2010 | JP |
2010 116231 | May 2010 | JP |
2010105805 | May 2010 | JP |
2010116231 | May 2010 | JP |
Entry |
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International Search Report Issued Aug. 30, 2011 in PCT/JP11/062914 filed Jun. 6, 2011. |
Number | Date | Country | |
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20140013562 A1 | Jan 2014 | US |