KR20010094686A - Installation structure and installation method for winch of machine-roomless elevator - Google Patents

Abstract

PURPOSE: An elevator hoist mounting structure without any mechanical chamber and a mounting method thereof are provided to simplify the mounting of a hoist of an elevator without forming any mechanical chamber or increasing the whole height of an elevator path. CONSTITUTION: An elevator hoist mounting structure without any mechanical chamber includes a hoist mounting part(110) extended outside an elevator path(100), wherein the hoist mounting part is formed in the shape of approximate hexahedron to be communicated with the elevator path at a surface of the elevator path corresponding to an over head part(s) formed between a top surface of an elevator and an uppermost surface of the elevator path when the elevator is positioned at an uppermost floor, and has a mounting surface(112) at a bottom part for mounting a hoist(120).

Description

INSTALLATION STRUCTURE AND INSTALLATION METHOD FOR WINCH OF MACHINE-ROOMLESS ELEVATOR}

The present invention relates to a hoisting installation structure and an installation method of an elevator without a machine room, and more particularly, by allowing the hoisting machine to be installed without changing the overall height of the hoistway in which the elevator is installed and operated. The present invention relates to a hoisting installation structure of an elevator without a machine room and an installation method thereof.

In general, when building a high-rise apartment or a high-rise building for an object room, an elevator is inevitably installed in the building, and a hoistway is constructed as a path through which an elevator can operate. Such an elevator hoistway is formed in a rectangular parallelepiped shape and each floor of the building. The opening is formed in the communication with the hoistway.

And the hoistway 20, as shown in Figure 1a has a platform 24, a counterweight 26, the rope 34 is wound around the hoist 32 moving the platform 24, and the platform (24) or a guide rail (not shown) for guiding the up and down movement of the counterweight 26, a control cable connecting the platform 24 and the control panel, switches for detecting the position of the platform 24, etc. The door device is provided in each of the openings 22 of the hoistway 20.

The structure of the hoistway in which the elevator is installed is different depending on whether the machine room is provided at the top of the hoistway, which will be described with reference to FIGS. 1A through 3B.

1A to 3B, the same components will be described with the same reference numerals.

FIG. 1A is a schematic perspective view illustrating a hoisting installation structure of an elevator having a machine room, and FIG. 1B is a cross-sectional view taken along line AA of FIG. 1A, and the above-described hoistway structure, that is, the machine room 30, is installed on the hoistway 20. It is a structure that is installed a lot until recently.

However, the structure in which the machine room 30 is separately installed in the upper part of the hoistway and the hoisting machine 32, the control panel, the governor, the control panel, etc. are installed in the machine room 30 has a construction cost increase, the amount of sunshine, and the altitude of the machine room 30. Restriction, effective use of the roof of the building and the construction of the building always have to consider the machine room, there was a problem that comes with spatial limitations.

Therefore, in order to solve this problem, the support beam 36 in which the hoist 32 is installed on the hoistway as shown in FIGS. 2A and 2B does not constitute a separate machine room in which the hoist hoist is installed in the upper part of the hoistway. As a result, the structure of the hoistway, which does not require a separate machine room, is spreading above the hoistway.

In addition, in recent years, instead of the hoist that is normally used to implement the structure of an elevator without a machine room, a special hoist designed to be reduced in size has been proposed and adopted. Such a hoist 40 is shown in FIGS. 3A and 3B. As described above, the elevating operation of the elevating platform 24 is possible by being mounted on the guide rail installed on the elevating path 20 or being mounted on the elevating path to generate driving force.

However, even in the hoistway structure of an elevator without a machine room as shown in FIGS. 2A and 2B, the safety head (Over Head), which is to be formed between the maximum lift height of the platform and the hoist 32, is spaced apart at regular intervals from the top surface of the hoistway. Since the separation distance between the support bar 36 and the installed support bar should be considered, the entire length of the hoistway is increased according to the increase in the height of the upper part of the hoistway, and thus, the hoistway cannot be completely solved. There was a problem that the rise of the sunshine and altitude restrictions and the effective use of the roof of the building occurs.

In addition, when installing a predetermined hoist 40 designed to have a smaller size than the hoist that is commonly used as shown in FIGS. 3A and 3B to reduce the upper margin of the hoistway, an elevator without a machine room may be implemented. ) Is very expensive and at the same time, when applying such a hoist, a rope 34 connecting the platform 24 and the counterweight 26 and a suspension sheave 39 for guiding the rope or winding the rope to transmit power. Etc. to be manufactured separately as a predetermined shape or material to fit the hoist 40, while ropes and sheaves having a smaller diameter can be used in proportion as the hoist size decreases, which can be used within the currently applied elevator inspection standards. Because of the need to develop, the time required to develop the rope and sheave and the cost spent on it are added separately. There was.

Accordingly, an object of the present invention is to provide a hoisting installation structure of a machine roomless elevator and a method of installing the same, so that an elevator installation structure without a machine room is implemented without increasing the overall height of the hoistway.

Elevator hoist installation structure of the elevator according to the present invention for achieving the above object, in the hoist installation structure of the elevator is installed on top of the hoistway, the lifting machine for generating a driving force to move the platform up and down, the platform is the top floor The hoist installation part installed on the upper one side of the hoistway corresponding to the safety distance formed between the upper surface of the hoistway and the top of the hoistway in a state in which the hoist installation part is formed extending outward of the hoistway.

Preferably, the hoisting unit is formed of a substantially hexahedral-shaped space having an installation surface on which the hoist is installed.

On the other hand, the hoist installation method of the elevator according to the present invention is a hoist provided with a sheave, a rope connected to the platform and the counterweight, and a drive means for generating a driving force by applying a driving force to the sheave and the counterweight are elevated. In the method of installing in the upper part of the hoistway, in the state where the platform is located on the uppermost floor, the hoisting installation part is formed on the one side of the hoistway corresponding to the upper side to the outside, and the hoist is installed on the hoisting installation part. It is characterized in that the sheave of the protruding onto the hoistway so as not to interfere with the lift of the hoist.

Preferably, the hoist is installed so that the sheave is diagonal to the plane by a predetermined angle, the one side of the rope wound on the sheave is connected to the suspension sheave side coupled to the platform, the other side of the rope is coupled to the counterweight It is to be easily connected to the suspension sheave side.

According to the hoisting installation structure of the elevator of the present invention and the installation method thereof, by changing the hoisting structure so as to install the hoist which moves the hoisting platform on the changed extension part of the hoistway, the elevator without machine room without changing the height of the hoistway. The installation structure can be implemented.

Figure 1a is a schematic perspective view showing a hoisting installation structure of an elevator equipped with a machine room in general,

Figure 1b is a cross-sectional view A-A of Figure 1a,

Figure 2a is a schematic perspective view showing the installation structure of the hoist of an elevator without a conventional machine room,

FIG. 2B is a cross-sectional view taken along line B-B in FIG. 2A;

3A is a schematic perspective view showing another example of a hoist installation structure of an elevator without a conventional machine room;

3B is a cross-sectional view taken along the line C-C of FIG. 3A,

Figure 4a is a schematic perspective view showing the installation structure of the hoist of an elevator without a machine room according to an embodiment of the present invention,

4B is a cross-sectional view taken along the line D-D of FIG. 4A;

4C is a schematic plan view of FIG. 4A;

5 is a view for explaining the operation and effect of the present invention.

* Description of the symbols for the main parts of the drawings *

100: hoistway, 110: hoisting unit,

120: hoist, 130: rope,

140: platform, 150: hatch door installation unit,

160: counterweight, 170: suspension sheave.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4a is a schematic perspective view showing the installation structure of the hoist of an elevator without a machine room according to a preferred embodiment of the present invention, Figure 4b is a sectional view DD of Figure 4a, Figure 4c is a schematic plan view of Figure 4a, Figure 5 is As a view for explaining the operation and effect of the present invention, as shown in the lifting platform 140 and the counterweight 130 in the state connected by the guide rail (not shown) by a predetermined control operation in the state connected by the lifting platform 130 ) Is formed to extend in the outward direction of the hoistway 100 on one side of the hoistway 100 provided to move up and down, and the hoist 120 moving the lifter 140 at the extended position, that is, the hoist installation part 110. Is installed.

Preferably, the hoist installation unit 110 is one of the hoistway corresponding to the safety distance (s) formed between the upper surface of the platform 140 and the upper surface of the hoistway in the state in which the platform 140 is located on the top floor. It is formed on the side.

In addition, the hoisting unit 110 has an approximately hexahedral shape and is formed in communication with a hoistway, and an installation surface 112 on which the hoisting machine 120 can be installed is formed and at least the height of the hoisting machine 120. It is composed of a space part having a larger height.

Here, the hoist installation unit 110 formed on the upper part of the hoistway 100 may be designed and modified in an appropriate direction according to the structure of the building, rather than being defined in one direction.

In addition, the control panel installed in the conventional machine room is mounted on the left / right side of the uppermost opening (hatch door installation unit), and the governor for detecting the abnormal speed of the platform 140 is guided by the platform 140 to move up and down. The upper side of the predetermined guide rail is mounted by a separate bracket.

On the other hand, a description will be given of a hoist installation method of an elevator without a machine room according to the present invention.

The hoist installation method according to the present invention includes a sheave 122 in which a rope 130 connected to a lift table 140 and a counterweight 160 is applied, and a driving force is applied to the sheave 122 to raise the lift table 140 and In the method of installing the hoisting machine 120 provided with the driving means 124 for generating the driving force so that the counterweight 160 is raised and lowered, the lifting table 140 is located on the top floor thereof. On one side of the hoistway 100 corresponding to the upper side is formed to extend the hoisting installation unit 110 toward the outside, the hoisting machine 120 is installed on the hoisting installation unit 110, but the sheave 122 of the hoisting machine is It is installed to protrude onto the hoistway so as not to obstruct the lift of the hoist 140 (not to cross each other).

In addition, the hoist 120 is installed so that the sheave 122 is diagonally formed by a predetermined angle in plan view as shown in FIG. 4C, and one side of the rope 130 wound on the sheave 122 is It is connected to the suspension sheave (170) side coupled to the lifting table 140, the other side of the rope is to be easily connected to the suspension sheave side coupled to the counterweight (160).

On the other hand, the hoisting machine 120 installed in the hoisting installation unit 110 is generally adopted as a hoisting machine employed in an elevator without a machine room, for example, a gearless synchronous motor type is employed, but is not limited thereto. Applicable

And, according to the hoisting machine installation structure and the installation method of an elevator without a machine room as described above, instead of designing a control room for controlling a platform, a governor, a hoisting machine, etc., the control panel, the governor, etc. The hoist that is installed on both sides of the opening of the hatch door installation unit 150 and the guide rail, and drives the platform, is installed in the hoist installation unit 110 formed in the hoistway, so that it is raised in the installation structure of the elevator without the existing machine room. This can solve the problem.

In addition, according to the accompanying drawings Figure 5 and the overall height (h1, h2, h3) of the hoistway and the building in the installation structure (a) of a conventional machine room elevator and the installation structure (b) (c) of an elevator without a conventional machine room As compared with the hoisting installation structure (d) and the installation method of the elevator according to the present invention it is possible to implement the installation structure of the elevator without a machine room without increasing the overall height (h4) of the hoistway.

According to the hoisting installation structure and the installation method of the machine roomless elevator of the present invention as described above, since the hoisting installation part extending outward is formed on the upper side of the hoistway, and thus the hoisting machine is easily installed, the machineless elevator installation structure is realized. That is, it is possible to configure an elevator without a machine room without increasing the overall height of the hoistway, and to drive the platform without installing expensive small hoist and special rope and sheave applied to the hoist, Accordingly, there is an effect that can reduce the time and cost required to design, manufacture the rope and sheave.

And, as described above, by installing the platform according to the structure change of the hoistway, the effect that can improve the stability to the elevator drive by using the hoist, rope and sheave used in general as it is applied to the hoistway structure of the elevator according to the present invention. There is.

Claims (4)

In the hoisting machine installation structure of an elevator in which the hoisting machine which generates the driving force to move the lifting table up and down is installed on the upper part of the hoistway, In the state where the platform is located on the top floor, the hoist installation unit 110 is formed on the upper side of the hoistway corresponding to the safety distance formed between the top surface of the hoistway and the top of the hoistway extending outward of the hoistway. Hoist installation structure of an elevator without a machine room, characterized in that. The method of claim 1, The hoisting installation unit 110 is a hoisting installation structure of an elevator without a machine room, characterized in that consisting of a substantially hexahedral-shaped space formed with an installation surface 112 is installed. In the method of installing a hoist with a sheave on which a rope connected to a platform and counterweight, and a drive means for applying a driving force to the sheave to generate a driving force to lift the platform and the counterweight, the upper part of the hoistway, In the state where the platform is located on the top floor, the hoist installation part is formed outward on one side of the hoistway corresponding to the upper side, and the hoist is installed on the hoist installation part, but the sieve of the hoist does not obstruct the hoist of the hoist. Hoist installation method of an elevator without a machine room, characterized in that installed to protrude upward. The method of claim 3, wherein The hoist is installed so that the sheave is diagonal to the plane by a predetermined angle so that one side of the rope wound on the sheave is connected to the suspension sheave side coupled to the lifting platform, and the other side of the rope is the suspension sheave side coupled to the counterweight. Hoist installation method of an elevator without a machine room, characterized in that it is to be easily connected to.