JP2513072B2 - Wiring method in new construction of elevator - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a wiring method in new construction of an elevator, and more particularly, to a top of a hoistway constructed from the lower side to the upper side as the building construction progresses. The present invention relates to a wiring method applied to a new installation work of an elevator by a so-called climbing method, in which a machine room is temporarily installed and the machine room is sequentially moved upward depending on a building height of a hoistway to install an elevator.

[Prior Art] In recent years, the climbing method has been widely adopted in the construction of high-rise buildings. According to this construction method, a machine room is temporarily installed at the top of the hoistway at an intermediate height, and the elevator car can be operated by the hoisting machine in this temporary machine room.Therefore, you can get on the elevator car and guide rails, hoistway equipment, Various installation work such as hall equipment and wiring can be performed efficiently.

By the way, when a new elevator is installed by the climbing method, it is necessary to sequentially extend and wire the hoistway cables as the machine room moves upward. According to the conventional wiring method, the hoistway cable is connected to the control panel in the machine room by a terminal, and the disconnection and connection work is very troublesome, so all or most of the old hoistway cable used until then is It was discarded and rerouted to a new, longer hoistway cable.

Incidentally, JP-A-63-242883 and JP-A-2-106571.
The publication discloses a technique of connecting a control panel and a hoistway cable via a connector when the control panel is replaced during the elevator repair work.

[Problems to be Solved by the Invention] However, as described above, in the conventional wiring method in the new construction of the elevator by the climbing method, it is wasteful to discard the old hoistway cable every time the machine room is moved. Not only that, but a new hoistway cable has to be re-wired over the entire length of the hoistway, which is disadvantageous in that it takes a long time for wiring.

Therefore, an object of the present invention is to provide a new wiring method that can economically and swiftly wire a hoistway cable when newly installing an elevator by a climbing method.

[Means for Solving the Problems] In order to solve the above problems, according to the wiring method in the new construction of the elevator of the present invention, when the hoistway is constructed up to the first height as the building construction progresses. First
A wiring step is performed, in which a machine room is installed at the top of the hoistway, a first relay box is provided in the hoistway near the machine room, and a first relay box is provided below the first relay box. A hoistway cable is wired, and a lead wire extending from a control panel installed in the machine room is connected to an upper end of the first hoistway cable in the first relay box via a connector. When the hoistway is built up to the second height above the first height as the building construction work further progresses, the second wiring process is carried out, in which the machine room is moved to the top of the hoistway. The second relay box is installed in the hoistway near the machine room, and the second hoistway cable is wired in the hoistway between the second relay box and the first relay box. The lower end of the cable is connected to the upper end of the first hoistway cable in the first relay box via a connector, and the lead wire of the control panel is connected to the upper end of the second hoistway cable in the second relay box via a connector. Connected.

[Operation] According to the wiring method in the new construction of the elevator of the present invention, the lead wire of the control panel, the first hoistway cable and the second
Since the hoistway cables are connected to each other via the connector, the connecting and disconnecting work of them can be easily performed. Further, even when the machine room moves upward, the first hoistway cable can be effectively used without being wasted by leaving the first hoistway cable in the hoistway as it is as the main installation cable. The extension work can be completed in a short time by a simple method of connecting the hoistway cable with a connector.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 and FIG. 2 show a wiring method in new construction of an elevator according to an embodiment of the present invention.
The figure is a schematic elevation view of the hoistway showing the first wiring step, and FIG. 2 is a schematic elevation view of the hoistway showing the second wiring step.

In the figure, (1) to (11) are 1 of buildings under construction.
Shows floors 11 to 11. (12) is a hoistway, which is constructed up to the first height corresponding to the 7th floor (7) in FIG. 1 as the building construction progresses, and corresponds to the 11th floor (11) in FIG. It is built up to 2 heights.

(13) is a machine room installed on the 7th floor (7) or the 11th floor (11), and inside it, a hoisting machine (14) and a control panel (15) are provided. (16) is a rope wound around the hoisting machine (14), an elevator car (17) is hung at one end of the rope, and a counterweight (18) is hung at the other end. (19) is a hall device including a hall button and a display provided on each floor (1) to (11), and (20) is a hoistway to prevent the elevator car (17) from going too downward ( It is a row-passage prevention switch provided in the pit part of 12). Reference numeral (21) is a lead wire extending from the control panel (15), and a male connector (22) is provided at the tip thereof.

In FIG. 1, (24) is the machine room (1
3) It is the first junction box attached to the wall of the hoistway (12) in the vicinity. (25) is a first hoistway cable wired in the hoistway (12) below the first relay box (24), and is a hall device (19) on the first floor (1) to the sixth floor (6) and It is connected to the row-passage prevention switch (20). (26) is a female connector provided at the upper end of the first hoistway cable (25), and is coupled to the male connector (22) of the lead wire (21) inside the first relay box (24). Has been done.

In FIG. 2, (28) is a machine room (1) of the second height.
3) It is a second relay box attached to the wall of the hoistway (12) in the vicinity. (29) is a second hoistway cable wired in the hoistway (12) between the second relay box (28) and the first relay box (24), and is on the 7th floor (7) to 10th floor ( It is connected to the hall equipment (19) of 10). (30) is a male connector provided at the lower end of the second hoistway cable (29),
It is connected to the female connector (26) of the first hoistway cable (25) inside the first relay box (24). Reference numeral (31) is a female connector provided on the upper end of the second hoistway cable (29), and is connected to the male connector (22) of the lead wire (21) inside the second relay box (28). ing.

In the above structure, the wiring method in the new construction of the elevator of this embodiment will be described next.

According to the wiring method in the new construction of the elevator of the present embodiment, the hoistway (12) becomes
For example, the first wiring process is performed when the structure is built up to the first height corresponding to the seventh floor (7) shown in FIG. In this first wiring step, first, a machine room (13) is installed at the top of the hoistway (12) using a lifting equipment (not shown) such as a tower crane. Next, the first relay box (24) is attached to the wall of the hoistway (12) near the machine room (13).

Next, the hoistway (12) below the first relay box (24)
The first hoistway cable (25) is laid on the wall of the building, and the first hoistway cable (25) is used to prevent passage of the hall equipment (19) and pits on the first floor (1) to the sixth floor (6). Connect to switch (20). Further, the female connector (26) at the upper end of the first hoistway cable (25) is connected to the male connector (22) of the lead wire (21) extending from the control panel (15) inside the first relay box (24).
Bind to.

As a result, the first wiring step is completed, and the elevator car (17) can be operated by the hoisting machine (14). In this state, the worker rides on the elevator car (17), guide rails, hoistway equipment Perform various elevator installation work such as installation.

When the hoistway (12) is built up to a second height corresponding to the 11th floor (11) shown in FIG. 2, for example, as the building work progresses further, the second wiring process is subsequently carried out. . In the second wiring step, first, in the first relay box (24) shown in FIG. 1, the male connector (2) of the lead wire (21) is formed.
2) to the female connector (26) of the first hoistway cable (25)
Then, the machine room (13) is lifted from the 7th floor (7) to the 11th floor (11) by the lifting equipment and installed on the top of the hoistway (12).

Then, the hoistway (12) near the machine room (13) at this position.
The second relay box (28) is attached to the wall of the, and the second hoistway cable (29) is attached to the wall of the hoistway (12) between the second relay box (28) and the first relay box (24). Wire. Then, attach the male connector (30) at the lower end of the second hoistway cable (29) to the first
The female connector (26) of the first hoistway cable (25) is coupled inside the relay box (24), and the female connector (31) at the upper end of the second hoistway cable (29) is second relayed. Box (28)
Inside of the lead wire (21) is connected to the male connector (22) and the middle part of the second hoistway cable (29) is
Connect to each hall equipment (19) on floors (7) to 10 (10).

As a result, the second wiring process is completed, and as described above,
The elevator car (17) is moved up and down to perform various elevator installation work. In this case, the first hoistway cable (25) already wired in the first wiring step is effectively used, and the hall equipment (19) and the control panel (15) from the first floor (1) to the sixth floor (6) are effectively used. ) Can be communicated with without any trouble.

Then, if the second wiring step described above is repeated according to the construction height of the hoistway (12), the wiring over the entire height of the hoistway (12) can be completed.

Thus, the elevator installation method of the present embodiment performs the first wiring step when the hoistway (12) is constructed to the first height as the building construction progresses, and here, the hoistway A machine room (13) is installed on the top of (12), a first relay box (24) is provided in the hoistway (12) near the machine room (13), and the first relay box (24) is located below the first relay box (24). First hoistway cable (25) is wired to hoistway (12), and male connector (22) of lead wire (21) extending from control panel (15) is first hoisted in first relay box (24). The second wiring when it is connected to the female connector (26) at the upper end of the road cable (25) and the hoistway (12) is constructed up to the second height above the first height as the building construction further progresses. Perform the process, in which the machine room (13) is moved to the top of the hoistway (12) and installed, and the hoistway near the machine room (13) The second relay box (28) is provided in 12), and the second hoistway cable (29) is wired in the hoistway (12) between the second relay box (28) and the first relay box (24). Male connector (3 at the bottom of the second hoistway cable (29)
0) the first hoistway cable (25) in the first relay box (24)
The male connector (22) of the lead wire (21) of the control panel (15) is connected to the female connector (26) at the upper end, and the upper end of the second hoistway cable (29) in the second relay box (28). It is connected to the female connector (31).

Therefore, according to the wiring method in the new construction of the elevator of the above-mentioned embodiment, the lead wire (2
1), the first hoistway cable (25) and the second hoistway cable (29) are mutually connected to the connectors (22), (26), (30),
Since they are connected via (31), the work of connecting and disconnecting them can be performed very easily. In addition, even when the machine room (13) moves upward, the first hoistway cable (25) can be left in the hoistway (12) as it is as a main installation cable and can be effectively used without waste. The first hoistway cable (25) is connected to the second hoistway cable (2
The extension work can be completed in a short time by a simple method of connecting 9) via the female connector (26) and the male connector (30).

The lead wire (21), the first hoistway cable (25), and the second hoistway cable (29) may be connected by reversing the male and female of each connector of the above embodiment.

Further, in the above embodiment, the wiring method of the hoistway cables (25) and (29) from the control panel (15) to the hall equipment (19) and the like has been described, but the method of this embodiment is changed from the control panel to the elevator. It can also be implemented by applying it to the wiring of a car cable across a car.

[Effects of the Invention] As described above, in the elevator installation method of the present invention, when the hoistway is constructed up to the first height, the machine room is installed at the top of the hoistway, and the machine room is installed near the machine room. A first wiring step in which one relay box is provided, the first hoistway cable is wired below the first relay box, and the lead wire extending from the control panel is connected to the upper end of the first hoistway cable by a connector in the first relay box. When the hoistway is built up to the second height, the machine room is moved and installed at the top of the hoistway, the second relay box is provided near the machine room, and the second relay box and the first relay box are installed. Second between the box
Route the hoistway cable, connect the lower end of the second hoistway cable to the upper end of the first hoistway cable in the first relay box, and connect the lead wire of the control board to the second hoistway in the second relay box. A connector is connected to the upper end of the cable. Therefore, the lead wire of the control panel, the first hoistway cable, and the second hoistway cable can be connected to each other through the connector, and the connecting and disconnecting work of them can be performed very easily, and the machine room can be moved upward. Even if it moves to, the first hoistway cable can be used effectively without waste by leaving it in the hoistway as it is as the main installation cable, and the second hoistway cable can be connected to the connector with the first hoistway cable. There is an effect that the wiring work can be completed in a short time by a simple method of simply performing.

[Brief description of drawings]

FIG. 1 is a schematic elevation view of a hoistway showing a first wiring step of a wiring method in a new elevator construction work according to an embodiment of the present invention, and FIG. 2 is a wiring in a new elevator construction work according to an embodiment of the present invention. FIG. 7 is a schematic elevational view of a hoistway showing a second wiring step of the method. In the figure, 12: hoistway, 13: machine room 15: control panel, 21: lead wire 24: first relay box, 28: second relay box 25: first hoistway cable 29: second hoistway cable 22, 30: Male connector 26, 31: Female connector. In the drawings, the same reference numerals and symbols indicate the same or corresponding parts.

Claims (1)

(57) [Claims] [Claim 1] The hoistway is the first with the progress of building construction work.
When constructed up to the height, a machine room is installed at the top of the hoistway, a first relay box is provided in the hoistway near the machine room, and a first hoistway is provided in the hoistway below the first relay box. The first wiring step of wiring the cables and connecting the lead wires extending from the control panel installed in the machine room to the upper end of the first hoistway cable through the connector in the first relay box, and the progress of the building construction work. Accordingly, when the hoistway is constructed to a second height above the first height, the machine room is moved and installed at the top of the hoistway, and the second relay box is installed in the hoistway near the machine room. And providing a second hoistway cable in a hoistway between the second relay box and the first relay box,
The lower end of the hoistway cable is connected to the upper end of the first hoistway cable in the first relay box via a connector, and the lead wire of the control panel is connected to the upper end of the second hoistway cable in the second relay box. And a second wiring step for connecting via a wiring method in a new elevator construction work.