KR20100053420A - Renewal method of hydraulic elevator and rope type elevator renewed by said method - Google Patents

Abstract

PURPOSE: A renewal method of a hydraulic elevator and a rope-type elevator renewed by the same is provided to integrate a hydraulic jack plunger and a balance weight and use the hydraulic jack plunger as a guide of the balance weight. CONSTITUTION: A renewal method of a hydraulic elevator and a rope-type elevator renewed by the same comprises following steps. A hoist(11) is installed on the upper part of a hoist way(1) and the upper end of an elevator guide rail(8). Hydraulic oil is extracted from the hydraulic jack and packing is removed from the upper part of a hydraulic jack cylinder. A balance weight suspending pulley(13) is formed on the upper part of a hydraulic jack plunger(6). A balance weight(15) is installed on the hydraulic jack plunger. An elevator chamber(2) is coupled with one end of a main rope(14) wound with a sheave(12).

Description

RENEWAL METHOD OF HYDRAULIC ELEVATOR AND ROPE TYPE ELEVATOR RENEWED BY SAID METHOD}

The present invention relates to a method for renewing an indirect hydraulic elevator to a rope type elevator and a rope type elevator renewed by the method.

1 is a longitudinal sectional view of a hoistway showing an example of an indirect hydraulic elevator, FIG. 2 is a transverse sectional view of a hoistway showing an example of an indirect hydraulic elevator, and FIG. 3 is a longitudinal sectional view showing the structure of the top of the hydraulic jack. 1 is the hoistway, 2 the elevator compartment, 3 the return sheave, 4 the jack bar, 5 the hydraulic jack cylinder, 6 the hydraulic jack plunger, 7 the hydraulic jack packing, 8 the elevator guide rail, 9 is the main rope.

The indirect hydraulic elevator uses a car compartment (2) in which a person rides on one end of the main rope (9) wound on the return sheave (3) fixed to the top of the hydraulic jack plunger (6) installed in the hoistway (1). The other end of the main rope (9) to the jack base (4) below the hydraulic jack, and the elevator jack together with the lifting and lowering of the hydraulic jack by the oil pressure of the power unit (not shown) installed in the machine room adjacent to the hoistway (1). The compartment 2 is lifted up and down. The movement amount of the cage 2 is twice the movement amount of the plunger 6 of the hydraulic jack.

The indirect hydraulic elevator configured as described above is popular in low-rise buildings due to its simple structure and the possibility of installing a machine room at an arbitrary position away from the hoistway.

However, in recent years, the social environment has been required to be renewed to a rope type elevator, which has a high demand for energy saving or a clean environment, and can easily improve transportation efficiency while having high energy efficiency. Furthermore, it was necessary to renew the rope type elevator of the traction type suspended by the cage and the counterweight on both ends of the main rope wound on the sheave fastened to the hoist installed in the hoistway.

Moreover, the hydraulic elevator which uses the components of a hydraulic elevator as a component of a machine room elevator as a prior art, and only removes a plunger rail from the mounting components of a hydraulic elevator, and reduces the cost required for renewal. The renewal method of is proposed (for example, refer patent document 1). In addition, as another conventional technique, the existing hydraulic cylinder and plunger are fixed by brackets or the like without being dismantled to form a base, and the existing rotary sheave of the top of the plunger is removed to newly prepare a thin electric hoist. At the same time, a new counterweight is provided in the hoistway, and the cage and the counterweight are connected by the main rope through the rotary sheave of the thin electric hoist, thereby newly providing a microcomputer control panel for controlling the thin electric hoist and renewed as a rope type elevator. A renewal method of an elevator is proposed (see Patent Document 2, for example).

[Patent Document 1] Japanese Patent Application Laid-Open No. 2002-37563

[Patent Document 2] Japanese Patent Application Laid-Open No. 2003-34474

In the case of renewing the indirect hydraulic elevator to a rope type elevator, removing the long hydraulic jack from the hoist requires cutting and dividing the hydraulic jack, which required not only a great effort but also a long construction period. In addition, since the demolished material needs to be disposed of as waste materials, it is not environmentally preferable. Moreover, although the renewal method of the hydraulic elevator of the prior art is a renewal method of an indirect hydraulic elevator, it does not effectively use a hydraulic jack as a counterweight.

The present invention has been made to solve the above problems, and when the indirect hydraulic elevator is renewed to a rope type elevator, the existing hydraulic jack is not removed, and the plunger portion and the counterweight of the hydraulic jack are integrally formed, It is to provide a hydraulic elevator renewal method and a rope elevator renewed by the method to use the cylinder as a guide of the counterweight.

The renewal method of the hydraulic elevator according to the present invention includes a cylinder and a plunger of the hydraulic jack in the hoistway and fasten the car compartment to one end of the main rope wound on the return sheave fixed to the top of the plunger, The other end is fastened to the cylinder side of the hydraulic jack, and the indirect hydraulic elevator that lifts the cage together with the lifting and lowering of the hydraulic jack plunger is renewed to a rope type elevator. And extract the hydraulic oil from the hydraulic jack, remove the packing on the cylinder top of the hydraulic jack, provide a counterweight suspension pulley on the top of the plunger of the hydraulic jack, and equip it with the hydraulic jack plunger. We install and sift car compartment on one end of main rope wound on sheave of hoist And a balance weight is hung and plunger through a pulley suspended standing balance weight to the other end of the main rope.

In addition, an extension cylinder is further mounted on the upper part of the cylinder.

In addition, the counterweight that is raised and lowered integrally with the plunger of the hydraulic jack is installed by dividing the cylinder of the hydraulic jack in both sides.

In addition, the balance weight which is raised and lowered integrally with the plunger of the hydraulic jack is guided and lifted by the cylinder of the hydraulic jack.

In addition, the rope-type elevator renewed by the hydraulic elevator renewal method includes a hoist installed in the upper part of the hoistway or the upper end of the car guide rail, the existing hydraulic jack in which the hydraulic fluid in the upper part of the cylinder is removed, and the packing of the upper part of the cylinder is removed. , Counterweight suspending pulley installed on the upper part of the hydraulic jack plunger, counterweight installed so as to move up and down integrally with the plunger of the hydraulic jack, wound on the sheave of the hoisting machine and fastening the elevator compartment at one end thereof, and counterweight suspension at the other end It is equipped with a main rope that suspends a counterweight and a plunger through a ding pulley.

It also has an extension cylinder additionally mounted on top of the existing hydraulic jack.

In addition, a cylinder of a hydraulic jack and a plunger in the hoistway, one end of the main rope wound on the return sheave fixed to the top of the plunger, is suspended from the cage through the car suspending pulley, and the rope is installed at the top of the hoistway. It is fastened to the stop girders, the other end of the main rope is fastened to the cylinder side of the hydraulic jack, and renewed from the indirect hydraulic elevator that lifts the elevator compartment with the lifting and lowering of the plunger of the hydraulic jack. Plunger and upper return sheaves respectively installed on the upper end of the guide rail, the existing hydraulic jack from which the packing of the upper part of the cylinder is removed, and the pair of counterweight suspensions installed on the upper part of the hydraulic jack plunger, while the hydraulic oil inside the cylinder is removed Counterweights installed to pull up and down with the plunger of the hydraulic jack, It is wound on the sheave, one end of which is suspended through the car suspending pulley and fastened to the rope stop girders at the top of the hoistway, the other end of which is balanced by a pair of counterweight suspending pulleys and an upper return sheave. And a main rope for suspending the plunger.

According to this invention, it is not necessary to carry out an existing hydraulic jack, and it can utilize as a weight of the guide mechanism of a counterweight, and a counterweight. Moreover, since a counterweight is comprised integrally with an existing plunger part, the weight of the added weight can be reduced.

BEST MODE FOR CARRYING OUT THE INVENTION [

Embodiment 1

1 is a longitudinal cross-sectional view of a hoistway showing an example of an existing indirect hydraulic elevator, FIG. 2 is a cross-sectional view of a hoistway showing an example of an existing indirect hydraulic elevator, FIG. 3 is a longitudinal cross-sectional view showing the structure of the top of an existing hydraulic jack; 4 is a longitudinal sectional view of a hoistway showing an indirect hydraulic elevator renewed by the renewal method according to the first embodiment of the present invention, and FIG. 5 is an indirect hydraulic renewal renewed by the renewal method according to the first embodiment of the present invention. Cross section plan view of the upper part of the hoistway which shows an elevator, FIG. 6 is cross section plan view of the bottom part of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in Embodiment 1 of this invention, FIG. 7 is embodiment 1 of this invention. 8 is a longitudinal sectional view showing the structure of the top of the hydraulic jack renewed by the renewal method of FIG. It is a top view which shows the principal part structure of the indirect hydraulic elevator renewed by the renewal method in Embodiment 1 of this invention.

The existing indirect hydraulic elevator shown in FIGS. 1-3 has the same structure as before, 1 is a hoistway, 2 is an elevator compartment, 3 is a return sheave, 4 is a jack stand, 5 is a hydraulic jack cylinder, 6 is Plunger of the hydraulic jack, 7 is the packing of the hydraulic jack, 8 is the car guide rail, 9 is the main rope.

The indirect hydraulic elevator which renewed the existing indirect hydraulic elevator comprised in this way by the rope type elevator is shown in FIGS.

4-8, the same code | symbol as FIG. 1-FIG. 3 shows the same or an equivalent part. Reference numeral 10 denotes a machine table provided at the upper end of the hoistway or at the upper end of the pair of car guide rails 8, and is provided horizontally between the upper ends of the pair of car guide rails 8. 11 is a hoist set on the machine table 10, 12 is a sheave of the hoist 11, 13 is a counterweight suspending pulley installed on the top of the hydraulic jack plunger 6, 14 is wound on the sheave 12 As the main rope, one end is fastened to the rope fixture of the bottom of the car compartment 2 to suspend the car compartment 2, and the other end is fastened to the machine table 10 through the counterweight suspending pulley 13, and thus the counterweight ( 15) hanging. 15 is a pair of counterweights which are configured to move up and down integrally with the plunger 6 portion of an existing hydraulic jack, and are provided by dividing them on both sides with the hydraulic jack cylinder 5 interposed therebetween. The pair of counterweights 15 are guided and lifted by the weight guide member 17 installed in the hydraulic jack cylinder 5 fixed to the wall of the hoistway 1 via the cylinder support 16. 18 is a weight connector that connects a pair of counterweights 15 that are divided and installed. Moreover, the resin guide 19 of a "co" shape is provided in the part which opposes the weight guide member 17 of the balance weight 15. As shown in FIG. Moreover, although the packing 7 is provided in the top part of the hydraulic jack cylinder 5 so that pressure oil may not leak, if this packing 7 is left, it will slide when the counterweight 15 and the plunger 6 raise and lower. Since it becomes resistance, the packing 7 is removed and smooth running | work is realized. Furthermore, the distance of the part which supports the lifting of the counterweight 15 is made large by providing the extension cylinder 21 provided with the annular resin guide member 20 in the top part of the cylinder 5 of a hydraulic jack. The extension cylinder 21 may have a two-part configuration in order to facilitate installation. 22 is a weight buffer provided in the hoistway pit, and is disposed so as to be positioned directly below the pair of counterweights 15 on both sides of the jack base 4.

Even in the indirect hydraulic elevator renewed to the rope type elevator, the moving amount of the cage 2 is twice the moving amount of the hydraulic jack plunger 6, that is, the counterweight 15. Moreover, it is not necessary to carry out an existing hydraulic jack, and it can utilize as a guide mechanism of the counterweight 15 and the weight of a counterweight. In addition, since the counterweight 15 is guided by the weight guide member 17 integrally formed with the cylinder support 16, there is no need to install a guide rail for counterweight separately. Furthermore, since the counterweight 15 is integrally formed with the existing plunger 6 portion, the weight of the weight to be added can be reduced. In addition, you may install the guide rail for counterweights separately, without guiding the counterweight 15 by the cylinder 5.

Next, the procedure of the renewal method by this invention is demonstrated.

First, the hydraulic elevator is driven, and the hoist 11 set on the machine table 10 installed over the upper part of the hoistway 1 or between the upper ends of the pair of car guide rails 8 is weighed. do. The hoist 11 set on the bench 10 is attached to the upper end of the cage guide rail 8. Next, the hydraulic elevator is driven to move the cage 2 to the lower floor of the hoistway 1 to stop. A lifting device (not shown) is attached to the machine table 10 or the car guide rail 8 to suspend the car compartment 2. Next, the pressure and hydraulic oil inside the hydraulic jack are extracted and the upper packing 7 of the cylinder 5 is removed. And the cage | basket | car 2 is suspended and the extension cylinder 21 equipped with the annular resin guide member 20 is attached to the upper part of the cylinder 5, and is mounted. Next, the elevator compartment 2 is moved by the lifting device, the cylinder support 16 is installed, and the weight guide member 17 is installed. Next, the pair of counterweights 15 are divided and arranged on both sides with the hydraulic jack cylinder 5 interposed therebetween, and installed so as to be guided to the weight guide member 17, and also between the pair of counterweights 15. The connector 18 is attached and integrated. The shock absorber 22 is provided at the hoistway pit. Next, one end of the main rope 14 is fastened to the rope fixture of the bottom of the cage 2. Then, the main rope 14 is wound around the sheave 12 of the hoist 11 of the hoistway 11, and the other end of the main rope 14 is fastened to the machine table 10. Next, the main rope 14 on the counterweight side is laid down in a U-shape and wound on the counterweight suspending pulley 13. Thereafter, the car compartment 2 is lowered by the lifting device, and the car compartment 2 is suspended by the main rope 14. Finally, the lifting device is removed, and the hydraulic system in the pipe or machine room is removed to complete the renewal.

Embodiment 2 Fig.

9 is a longitudinal sectional view of a hoistway showing an example of another indirect hydraulic elevator, FIG. 10 is a cross sectional view of a hoistway showing an example of another indirect hydraulic elevator, and FIG. 11 is renewed by the renewal method according to the second embodiment of the present invention. Fig. 12 is a schematic perspective view showing a roping configuration of an indirect hydraulic elevator renewed by the renewal method in Embodiment 2 of the present invention, and Fig. 13 is an embodiment of the present invention. Cross-sectional plan view of the upper part of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in the form 2, FIG. 14 is the lower part of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in Embodiment 2 of this invention. Transverse top view.

In addition, the same code | symbol is equivalent to the 1st embodiment in drawing, and the description is abbreviate | omitted.

9 to 10, 1 is a hoistway, 2 is an elevator compartment of a elevator, 3 is a pair of upper return sheaves, 4 is a jack stand, 5 is a hydraulic jack cylinder, 6 is a hydraulic jack plunger, 8 is an elevator Khan guide rail, 9 is the main rope, 23 is a pair of elevator suspending pulleys installed in the lower part of the cage (2), 24 is the rope stop girders installed horizontally in the upper part of the hoistway (1), 25 is The lower return sheave, 26, installed on the jack base 4, is a guide rail of the hydraulic jack. One end of the main rope 9 wound on the upper return sheave 3 fastened to the top of the plunger 6 of the hydraulic jack is connected to the car compartment 2 via a pair of car suspending pulleys 23. Is fastened to the rope stop girders 24, and the other end of the main rope 9 is connected between the lower return sheave 25 installed at the bottom of the jack and the pair of upper return sheaves 3, respectively. It is fastened to the jack base 4 after winding by round trip times. The cage 2 has a dedicated cage guide rail 8, and the hydraulic jack has a dedicated jack guide rail 26. The movement amount of the cage | basket | car 2 in this system becomes twice the movement amount of the hydraulic jack plunger 6. As shown in FIG.

The indirect hydraulic elevator which renewed the existing indirect hydraulic elevator comprised in this way by the rope type elevator is shown to FIG.

In FIGS. 11-14, the same code | symbol as FIG. 9-10 shows the same or an equivalent part. 10 is a machine installed in the upper part of a hoistway or the upper end of a pair of jack guide rails 26, and is installed horizontally between the upper ends of a pair of jack guide rails 26 here. 11 is a hoist set on the bench 10, 12 is a sheave of the hoist 11, 13 is a pair of counterweight suspending pulleys installed at the upper end of the hydraulic jack plunger 6, 27 is a bench 10 The upper return sheave installed at the bottom of the main body, 28 is the main rope wound on the sheave 12, one end of the car suspension (2) through the car suspending pulley (23) is fastened to the rope stop girders (24) The other end is fastened to the machine table 10 by hanging a pair of counterweights 15 through a pair of counterweight suspending pulleys 13 and an upper return sheave 27. 15 is a pair of counterweights which are configured to move up and down integrally with the existing hydraulic jack plunger 6 portion, and are dividedly provided on both sides with the hydraulic jack cylinder 5 interposed therebetween. The main rope 28 on the counterweight side is provided at the top of the jack guide rail 26 via the first suspending pulley 13 provided on the counterweight 15 from the sheave 12 of the hoist 11. It is fastened to the machine base 10 via the return sheave 27 and the 2nd suspending pulley 13 provided in the upper part of the counterweight 15 from this upper return sheave 27. 29 is a weight buffer provided in the jack base 4, and is arrange | positioned so that it may be located directly under the pair of counterweights 15. As shown in FIG. 30 is an elevator compartment practical shock absorber provided in the hoistway pit, and is disposed to be located directly below the cage compartment 2.

Thus, even in an indirect hydraulic elevator renewed to a rope type elevator, smooth running is realized by removing the packing 7 provided at the top of the hydraulic jack cylinder 5. In addition, the movement amount of the cage | basket | car 2 becomes twice the movement amount of the hydraulic jack plunger 6, ie, the balance weight 15. As shown in FIG. And since it does not need to carry out the existing hydraulic jack, since the counterweight 15 is guided by the exclusive guide rail, it can run smoothly. Moreover, since the counterweight 15 is comprised integrally with the existing plunger 6 part, the weight of the added weight can be reduced.

Next, the procedure of the renewal method by this invention is demonstrated. First, the hoist 11 and the upper return sheave 27 which were set to the machine base 10 installed over the upper part of the hoistway 1 or the upper end of a pair of jack guide rail 26 by operating a hydraulic elevator. To be positive. The top of the jack guide rail 26 is provided with a hoist 11 and an upper return sheave 27 set on the bench 10. Next, the hydraulic elevator is driven to move the cage 2 to the lower floor of the hoistway 1 to stop. A lifting device (not shown) is attached to the bench 10 or the jack guide rail 26 to suspend the cage 2. Next, the pressure and hydraulic oil inside the hydraulic jack are extracted and the packing 7 on the upper portion of the cylinder 5 is removed. Next, the pair of counterweights 15 are suspended to guide the jack guide rails 26. Then, the shock absorber 29 for the jack 4 is provided, and the shock absorber 30 for the car is provided in the hoistway pit. Next, one end of the main rope 28 is fastened to the rope stop girders 24, and the main rope 28 is wound around the sheave 12 of the hoist 11 of the hoistway 1 and the other end of the main rope 28. To the machine table (10). Next, the upper return sheave 27 provided in the upper part of the hoistway via the 1st suspending pulley 13 provided in the upper part of the counterweight 15 by hanging the main rope 28 of the counterweight side in U shape, Furthermore, it winds through the 2nd suspending pulley 13 provided in the upper part of the counterweight 15 from the said upper return sheave 27. Thereafter, the hanging elevator compartment 2 is lowered by the lifting device, and the cage compartment 2 is suspended by the main rope 28. Finally, the lifting device is removed, and the hydraulic system of the pipe or machine room is removed to complete the renewal.

1 is a longitudinal sectional view of a hoistway showing an example of an existing indirect hydraulic elevator.

2 is a cross sectional view of a hoistway showing an example of an existing indirect hydraulic elevator.

3 is a longitudinal sectional view showing the structure of the top of an existing hydraulic jack.

It is a longitudinal cross-sectional view of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in Embodiment 1 of this invention.

5 is a cross-sectional plan view of an upper part of a hoistway showing an indirect hydraulic elevator renewed by the renewal method in Embodiment 1 of the present invention.

Fig. 6 is a cross sectional plan view of a lower part of a hoistway showing an indirect hydraulic elevator renewed by the renewal method according to the first embodiment of the present invention.

Fig. 7 is a longitudinal sectional view showing the structure of the top portion of the hydraulic jack renewed by the renewal method according to the first embodiment of the present invention.

It is a top view which shows the structure of the principal part of the indirect hydraulic elevator renewed by the renewal method in Embodiment 1 of this invention.

9 is a longitudinal sectional view of a hoistway showing an example of another indirect hydraulic elevator.

10 is a cross sectional view of a hoistway showing an example of another indirect hydraulic elevator.

It is a longitudinal cross-sectional view of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in Embodiment 2 of this invention.

It is a schematic perspective view which shows the roping structure of the indirect hydraulic elevator renewed by the renewal method in Embodiment 2 of this invention.

Fig. 13 is a cross-sectional plan view of an upper part of a hoistway showing an indirect hydraulic elevator renewed by the renewal method according to the second embodiment of the present invention.

It is a cross-sectional plan view of the lower part of the hoistway which shows the indirect hydraulic elevator renewed by the renewal method in Embodiment 2 of this invention.

<Description of the code>

1 hoistway

2 elevator compartment

3 return sheave

4 jack stand

5 hydraulic jack cylinder

6 Hydraulic Jack Plunger

7 Hydraulic Jack Packing

8 car guide rail

9 main rope

10 machine stand

11 winding machine

12 sheave

13 Counterweight Suspension Pulleys

14 main rope

15 counterweight

16 cylinder support

17 weight guide member

18 weight connector

19 resin guide

20 resin guide member

21 extension cylinder

22 Shock Absorber

23 elevator suspending pulley

24 rope stop girder

25 bottom return sheave

26 Guide rail for hydraulic jack

27 upper return sheave

28 main rope

29 Shock Absorber

30 Shock Absorber

Claims (12)

A hydraulic jack cylinder and a plunger are provided in a hoistway, and a car compartment is fastened to one end of a main rope wound on a return sheave fixed to the top of the plunger, and the other end of the main rope is fastened to the cylinder side of the hydraulic jack. As a method of renewing the indirect hydraulic elevator for lifting the elevator compartment with the lifting and lowering of the hydraulic jack plunger to a rope type elevator, A hoist is installed at the upper part of the hoistway or at the upper end of the car guide rail, the hydraulic oil of the hydraulic jack is extracted, the packing of the hydraulic jack cylinder is removed, and a counterweight suspending pulley is provided at the upper part of the hydraulic jack plunger. And installing a counterweight to integrally move up and down with the hydraulic jack plunger, and fasten the elevator compartment to one end of the main rope wound on the sheave of the hoist, and to the other end of the main rope through the counterweight suspension pulley. And suspending the plunger. A hydraulic jack cylinder and a plunger are provided in a hoistway, and a car compartment is fastened to one end of a main rope wound on a return sheave fixed to the top of the plunger, and the other end of the main rope is fastened to the hydraulic jack cylinder side. A method of renewing an indirect hydraulic elevator that lifts the cage together with the lifting and lowering of the hydraulic jack plunger to a rope elevator, A hoist is installed at the upper part of the hoistway or at the upper end of the car guide rail, the hydraulic oil of the hydraulic jack is extracted, the packing at the top of the hydraulic jack cylinder is removed, and an extension cylinder is additionally mounted at the upper part of the cylinder. A counterweight suspending pulley is provided on the upper part of the launcher, a counterweight which is lifted up and down integrally with the hydraulic jack plunger is installed. Renewing method of the hydraulic elevator, characterized in that the balance weight and the plunger is suspended through the counterweight suspension pulley at the other end. The method according to claim 1 or 2, The hydraulic elevator renewal method of hydraulic elevator, characterized in that the balancing lifting and lowering integrally with the hydraulic jack plunger is provided by dividing on both sides with the hydraulic jack cylinder in between. The method according to claim 1 or 2, A balancing method for lifting and lowering integrally with the hydraulic jack plunger is guided and lifted by the hydraulic jack cylinder. A hydraulic jack cylinder and plunger in the hoistway, one end of the main rope wound on the return sheave fixed to the top of the plunger, suspends the car compartment through the car suspending pulley and stops the rope at the top of the hoistway. A method of renewing an indirect hydraulic elevator which is fastened to a girder and the other end of the main rope is fastened to the hydraulic jack cylinder side and raises and lowers the cage together with the lifting and lowering of the hydraulic jack plunger, Install the hoist and the upper return sheave on the upper part of the hoistway or the jack guide rail, draw out the hydraulic oil of the hydraulic jack, remove the packing on the hydraulic jack cylinder, and pair the balance on the upper part of the hydraulic jack plunger. A suspension pulley is provided, and a counterweight to integrally move up and down with the hydraulic jack plunger is installed, and one end of the main rope wound on the sheave of the hoist is suspended through the cage suspending pulley and suspended at the top of the hoistway. And the other end of the main rope suspends the counterweight and the plunger through the pair of counterweight suspending pulleys and the upper return sheave. The method according to claim 5, The hydraulic elevator renewal method of hydraulic elevator, characterized in that the balancing lifting and lowering integrally with the hydraulic jack plunger is provided by dividing on both sides with the hydraulic jack cylinder in between. The method according to claim 5 or 6, The balancing method of lifting and lowering integrally with the hydraulic jack plunger is guided and lifted by the cylinder of the hydraulic jack. A hydraulic jack cylinder and a plunger are provided in a hoistway, and a car compartment is fastened to one end of a main rope wound on a return sheave fixed to the top of the plunger, and the other end of the main rope is fastened to the hydraulic jack cylinder side. As the hydraulic jack plunger has been renewed to a rope-type elevator from an indirect hydraulic elevator that lifts the cage together with the lifting of the hydraulic jack plunger, A hoist provided at an upper end of the hoistway or car guide rail; The existing hydraulic jack is pulled out and the packing on the upper part of the cylinder is removed, Counterweight suspending pulley installed on the plunger upper portion of the hydraulic jack, A balancing weight installed so as to lift and lower integrally with the plunger of the hydraulic jack, The main rope is wound on the sheave of the hoisting machine, and the main rope is fastened to one end thereof and the main rope suspending the counterweight and the plunger through the counterweight suspending pulley at the other end thereof. Type elevator. A hydraulic jack cylinder and a plunger are provided in a hoistway, and a car compartment is fastened to one end of a main rope wound on a return sheave fixed to the top of the plunger, and the other end of the main rope is fastened to the hydraulic jack cylinder side. As the hydraulic jack plunger has been renewed to a rope type elevator from an indirect hydraulic elevator that raises and lowers the compartment, A hoist provided at an upper end of the hoistway or car guide rail; The existing hydraulic jack is pulled out and the packing on the upper part of the cylinder is removed, An extension cylinder additionally mounted on the existing hydraulic jack; A counterweight suspending pulley installed on an upper portion of the plunger of the hydraulic jack; A balancing weight installed so as to lift and lower integrally with the plunger of the hydraulic jack, The main rope is wound on the sheave of the hoisting machine, and the elevator rope is fastened to one end thereof, and the other end is provided with a main rope for suspending the counterweight and the plunger through the counterweight suspending pulley. Type elevator. One end of the main rope, which has a hydraulic jack cylinder and plunger in the hoist, and is wound on the return sheave fixed to the top of the plunger, is suspended from the car through the car suspending pulley and the rope stop girders installed at the top of the hoistway The other end of the main rope is fastened to the hydraulic jack cylinder side and renewed from an indirect hydraulic elevator that lifts the cage together with the lifting and lowering of the hydraulic jack plunger. A hoist and an upper return sheave respectively installed at an upper end of the hoistway or jack guide rail, The existing hydraulic jack is pulled out and the packing on the upper cylinder is removed, A pair of counterweight suspending pulleys installed on the plunger upper portion of the hydraulic jack, A balancing weight installed so as to lift and lower integrally with the plunger of the hydraulic jack, It is wound on the sheave of the hoist, one end of which is suspended through the cage suspending pulley and fastened to the rope stop girder at the top of the hoistway, and the other end of the pair of counterweight suspending pulleys and the upper return. A rope elevator renewed from a hydraulic system, comprising a main rope for suspending the counterweight and the plunger through a sheave. The method according to any one of claims 8 to 10, A hydraulically renewed rope type elevator, characterized in that the counterweight, which is integrated with the hydraulic jack plunger, is divided into two sides with the cylinder of the hydraulic jack interposed therebetween. The method according to any one of claims 8 to 10, A hydraulically renewed rope type elevator, characterized in that the balancing weight which moves up and down with the plunger of the hydraulic jack is guided up and down by the cylinder of the hydraulic jack.

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