JPH04201966A - Moving cable for elevator - Google Patents

Abstract

PURPOSE:To improve the working performance and safety in laying work and positively prevent damage and peculiarities generated to a flat cable by inserting a laying steel core, used at the cable laying time, fixedly into the center part of the flat cable. CONSTITUTION:After folding a laying steel core 12 into ring shape and fixing it with plural wire clips 6, the rope 5 of a hook hooked to this ring part is moved vertically to wind the hanging steel core 4 in the approximately reverse U-shape onto the groove 10a of a cable hanger 10A and to fix the hanging steel cores 4, 4 with plural wire clips 6. The rope 5 is then lowered by a winch. In this laying work, the laying steel core 12 to be hooked to the hook 7 is positioned at the center part of a hanging steel-cored flat cable 1B, so that the collision and damage of an elevating path against a protruding part can be positively prevented through the prevention of twist and oscillation of the hanging steel-cared flat cable 1B caused by the unbalance of load.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in the structure of a movable flat cable for an elevator suspended between an elevator car and a connection box or control panel.

[Conventional technology]

Between the elevator car that moves up and down the hoistway and the connection box or elevator control panel installed in the hoistway, there should be a mechanism as shown in Japanese Utility Model Publication No. 59-40377 etc., taking into account the function of the elevator. The flat cable (1) for preventing the car from returning is suspended in a roughly U-shape, and the flat cable (1) that supplies power and signals to the car is a flat cable (IA) without a steel core for suspension. Flat cable with steel core for suspension (IB)
are categorized.

As shown in FIG. 7, the above-mentioned suspended steel coreless flat cable (lA) includes a plurality of insulated wire cores (2) arranged in parallel, and a sheath (3) covering the plurality of insulated wire cores (2). ) and is configured in a flat shape. In addition, as shown in Fig. 8, the suspended steel cored flat cable (IB) is arranged between a plurality of insulated wire cores (2) arranged in parallel and an intervening arrangement between the plurality of insulated wire cores (2). A plurality of suspension steel cores (4) located on both sides of the flat cable with a suspension steel core (IB), and these multiple insulated wire cores (2) and suspension steel cores (4) are coated. sheath(
3) It is configured in a flat shape.

However, when installing a flat cable without a steel core for suspension (18), as shown in Figure 9, the lobe (5) tied to the end of the flat cable without a steel core for suspension (IA) is moved up and down. It was being laid down. In addition, a flat cable with a steel core for suspension (I
When installing B), as shown in Figure 1O, the end of one of the two hanging steel cores (4) is folded back into a ring 5 and fixed with a plurality of wire clips (6). The lobes (5) of the hooks (7) hooked to the loops were then raised and lowered using a winch (not shown) or by hand.

(Problems to be Solved by the Invention) Since the conventional flat cable (1) is configured as described above, it has the following problems.

In other words, in the case of a flat cable (IA) without a suspension steel core, it simply pulls out from the tied flat cable (IA) without a suspension steel core or from the lobe (5) and falls, and the suspension steel core There was a risk of damage to the flat cable (IA) or injury to the worker. In particular, this problem cannot be ignored because as buildings become taller, flat suspension cables (IA) without steel cores become longer and their weight increases accordingly.

In addition, in the case of a flat cable with suspension steel core (IB), the suspension steel core (4) to be towed is not located at the center of gravity of the flat cable with suspension steel core (IB). Therefore, there is a risk that the suspension steel-core flat cable (IB) may twist or sway during installation work and collide with the protrusion of the hoistway, causing damage to the suspension steel-core flat cable (IB). there were. In addition, there was a risk that the suspension steel cored flat cable (IB) would become bent and its behavior during upward and downward movement would deteriorate. .

The present invention has been made in view of the above, and an object of the present invention is to provide a moving cable for an elevator that can improve the workability and safety of cable installation work, prevent damage, and prevent the occurrence of curls.

[Means to solve the problem]

In order to achieve the above-mentioned object, in the present invention, a flat cable is suspended between an elevator car that moves up and down a hoistway and a junction box or elevator control panel disposed in the hoistway, and The cable is characterized by a steel core used for cable installation inserted into the center of the cable.

[Function] According to the present invention, a steel core for installation that is towed during cable installation work is placed at the center of the flat cable without a steel core for suspension or with a steel core for suspension, which is the center of gravity of the flat cable that constitutes the flat cable. Since the cable is inserted in one step, the flat cable can be moved up and down safely and reliably during cable installation, and damage to the flat cable can be prevented.

(Embodiment) Hereinafter, the present invention will be described in detail based on an embodiment shown in FIGS. 1 to 6. In the figure, (8) is an elevator hoistway (9).
This is a car that moves up and down.The bottom of this car (8) has a first
As shown in the figure, a cable hanger (1o) is attached. (11) is a connection box installed on the wall of the hoistway (9). Directly below this connection box (11) is a cable hanger attached to the wall of the hoistway (9), as shown in Figure 1. (IOA) is located.

(1) There is approximately a U between the bottom of the basket (8) and the junction box (11).
This flat cable (1
) is a flat cable without a suspension steel core (
IA) or a flat cable with a suspension steel core (IB), which is suspended from the cable hanger (10) (IOA) either directly at both ends or via the suspension steel core (4). As shown in FIG. 2, the suspension steel coreless flat cable (IA) is interposed between a plurality of insulated wire cores (2) arranged in parallel and the plurality of insulated wire cores (2). The insulated wire core (2
) with a smaller diameter steel core for installation (12), and a sheath (
3) It is constructed into a flat shape. In addition, as shown in Fig. 3, a flat cable with a steel core for suspension (IB) consists of a plurality of insulated wire cores (2) arranged in parallel, and a plurality of insulated wire cores (2) arranged in parallel.
2), a flat cable with a steel core for suspension (I
A plurality of suspension steel cores (4) having a smaller diameter than the insulated wire cores (2) located on both sides of B) and a suspension steel core interposed between the plurality of insulated wire cores (2). The installation steel core (
12), these insulated wire cores (2), suspension steel cores (4),
and a sheath (3) that covers a steel core for installation (12).

Therefore, the suspension steel cored flat cable (IB) is connected to the connection box (
11), as shown in FIGS. 5 and 6, the steel core for installation (12) is folded back into a ring shape and fixed with a plurality of wire clips (6), and then a hook ( 7
) of the cable hanger (IOA).
The suspension steel core (4) is wound around the groove (10a) in a substantially inverted U shape, and the suspension steel cores (4) are fixed with a plurality of wire clips (6). Then, by lowering the lobe (5) with a winch (not shown), the suspension steel core (
4) The weight of the flat cable with suspension steel core (IB) is added to (4), and the installation steel core (12) can be removed from the hook (7), allowing the suspension steel core to be safely and reliably removed. A flat cable (IB) can be installed.

During this installation work, the installation steel core (12) hooked to the hook (7) is positioned at the center of the suspension steel cored flat cable (IB), in other words at the center of gravity, so that the load is reduced. Flat cable with steel core (IB) for suspension due to imbalance
By preventing twisting and shaking of the hoistway (9), collision with and damage to the protrusion of the hoistway (9) can be reliably prevented. Furthermore, it is possible to eliminate curls and permanent deformation of the suspension steel cored flat cable (IB).

In addition, when laying a flat cable (lA) without a suspension steel core, as shown in Fig. 4, after folding the laying steel core (12) into a ring shape and fixing it with a plurality of wire clips (6), Raise and lower the robe (5) of the hook (7) hooked to the
By pressing the cable hanging hands (10) and (IOA) with fixing fittings, etc., the flat cable (IA) without a suspension steel core can be laid safely and reliably.

During this installation work, the installation steel core (1
2) is engaged with the hook-shaped hook (7), thereby preventing the flat cable (IA) without a steel core for suspension from falling, thereby preventing damage to the flat cable (18) without a suspension steel core or injury to the operator. can be reliably prevented.

In the above embodiment, the bottom of the car (8) and the connection box (11)
Although the flat cable (1) is suspended between the car (8) in an abbreviated shape, the same result as in the above embodiment can be obtained even if the flat cable (1) is suspended between the bottom of the car (8) and the elevator control panel (not shown). It has an effect.

(Effects of the Invention) As described above, according to the present invention, the installation steel core used during cable installation is inserted into the center of the flat cable, thereby improving the workability and safety of the installation work. It is possible to provide an elevator moving cable that can reliably prevent the flat cable from being damaged or bent. In addition, unlike steel cores for suspension, cable installation steel cores bear the load only during cable installation, so the safety factor of cable installation steel cores can be lower than that of suspension steel cores, and the size of the steel cores can be reduced. The effect is that it can be made smaller and cheaper. Furthermore, the installation steel core can be used as a backup without a suspension steel core, and
It has the advantage that it can also be used as a steel core for removing flat cables when replacing flat cables in the future.

[Brief explanation of the drawing]

FIG. 1 is an overall view showing the installation state of an elevator moving cable according to the present invention, FIG. 2 is a perspective view showing a flat cable without a suspension steel core according to the present invention, and FIG. 3 is a suspension view according to the present invention. FIG. 4 is a perspective view showing a flat cable with a suspension steel core, FIG. 4 is a diagram showing the state of the installation steel core of the flat cable without a suspension steel core according to the present invention, and FIG. A diagram showing the state of the flat cable of the steel core for installation of the flat cable with a steel core for suspension according to the invention, and FIG. Fig. 7 is a perspective view showing a conventional flat cable without a steel core for suspension, Fig. 8 is a perspective view showing a conventional flat cable with a steel core for suspension, and Fig. 9 is a perspective view of a conventional flat cable with a steel core for suspension. A diagram showing the state of a flat cable without a suspension steel core during installation work,
FIG. 10 is a diagram showing the state of a conventional flat cable with a steel core for suspension during the flat cable installation work. In the figure, (1) is a flat cable, (, I A ) is a flat cable without a suspension steel core, (IB) is a flat cable with a suspension steel core, (4) is a suspension steel core, (8 ) is an elevator car, (9) is a hoistway, (10) and (108) are cable hangers, (11) is a connection box, and (12) is a steel core for installation. Note that the same reference numerals in the figures indicate the same or corresponding parts.

Claims (1)

[Claims] In an elevator moving cable in which a flat cable is suspended between an elevator car that moves up and down a hoistway and a connection box or elevator control panel installed in the hoistway,
A moving cable for an elevator, characterized in that a steel core for laying the cable is inserted into the center of the flat cable.