KR100932589B1 - Elevator device - Google Patents

Abstract

In an elevator apparatus, a cage | basket | car hangs up and down in a hoistway by suspension means. The suspension means has a suspension including a plurality of steel wires, and a resin coating covering the outer periphery of the suspension. The coating abnormality detection apparatus which detects the damage of a coating body is arrange | positioned near the suspension means.

Description

Elevator device {ELEVATOR DEVICE}

TECHNICAL FIELD The present invention relates to an elevator apparatus using a suspension means having a suspension including a plurality of steel wires and a resin coating body covering the outer circumference of the suspension.

BACKGROUND ART A conventional magnetic flaw detector for an elevator rope has an exciter for magnetizing the rope and a detection coil arranged to surround the rope to detect a flaw detection signal. The flaw detection signal detected by the detection coil is amplified by an amplifier and sent to a recording system (for example, refer patent document 1).

[Patent Document 1]: Japanese Patent Application Laid-Open No. 54-107037

Problems to be Solved by the Invention

However, in the case of using a resin-coated rope whose outer peripheral portion is covered with a resinous coating, damages such as abrasion or peeling of the coating cannot be detected by the conventional magnetic flaw detector. Moreover, also by visual inspection, it is difficult to determine how much the coating body is damaged.

This invention is made | formed in order to solve the above subjects, and an object of this invention is to obtain the elevator apparatus which can detect the damage of a coating body easily.

Means to solve the problem

An elevator apparatus according to the present invention includes a car that is lifted up and down in a hoistway, a suspension including a plurality of steel wires, and a resin covering covering the outer periphery of the suspension, and suspension means for hanging the car; And a coating abnormality detection device arranged in proximity to the suspension means and detecting damage to the coating body.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the principal part of the elevator apparatus by Embodiment 1 of this invention.

2 is a cross-sectional view of the main rope of FIG. 1.

3 is a configuration diagram showing an internal structure of the coating abnormality detecting apparatus of FIG. 1.

It is a block diagram which shows the coating abnormality detection apparatus of the elevator apparatus by Embodiment 2 of this invention.

EMBODIMENT OF THE INVENTION Hereinafter, preferred embodiment of this invention is described with reference to drawings.

Embodiment 1.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the principal part of the elevator apparatus by Embodiment 1 of this invention. In the figure, a machine stand 1 is provided in the machine room above the hoistway. On the machine stand 1, the hoisting machine 2 is provided. The hoist 2 has a hoist main body 3 including a motor and a brake, and a drive sheave 4 rotated by the hoist main body 3. The deflection sheave 5 is provided in the vicinity of the hoisting machine 2 of the machine table 1.

A plurality of main ropes 6 as suspension means are wound around the drive sheave 4 and the deflection sheave 5. A car 7 is suspended from the first end of the main rope 6. A counterweight 8 is suspended at the second end of the main rope 6. That is, the car 7 is suspended by the main rope 6 on one side of the hoist 2, and the counterweight 8 is suspended by the main rope 6 on the other side of the hoist 2. Moreover, the cage | basket | car 7 and the counterweight 8 are lifted up and down inside a hoistway by the drive force of the hoisting machine 2.

As shown in FIG. 2, each main rope 6 includes a core strand 9 and a plurality of outer strands 10 twisted around each other on the outer periphery of the core strands 9 as suspensions. The main rope main body 11 and the resin coating body 12 which coat | covers the outer peripheral part of the main rope main body 11 are provided. The core strand 9 is configured by twisting a plurality of steel wires together. Moreover, each outer periphery strand 10 is also comprised by twisting several steel wire. The coating body 12 is also filled between the core strand 9 and the outer strand 10, and between the outer strand 10. The coating body 12 is made of a high friction resin material having a friction coefficient of 0.2 or more, for example, a polyurethane resin.

On the machine stage 1, the coating abnormality detection apparatus 13 which detects the damage of the coating | cover 12 is provided. The covering abnormality detection apparatus 13 is arrange | positioned near the part between the drive sheave 4 and the deflection sheave 5 of the main rope 6 via the mounting tool 13a. Moreover, the attachment angle of the covering abnormality detection apparatus 13 is adjustable. In addition, the covering abnormality detection apparatus 13 is connected to the elevator control apparatus 14 which controls the running of the cage | basket | car 7.

FIG. 3 is a configuration diagram showing the internal structure of the coating abnormality detecting apparatus 13 of FIG. 1. In the figure, a pair of guide pulleys (or rollers) 16a and 16b abutting on the main rope 6 are provided in the housing 15. The guide pulleys 16a and 16b are arrange | positioned at intervals mutually in the longitudinal direction of the main rope 6. Between the guide pulleys 16a and 16b in the housing 15, the detection part 17 which detects the damage of the main rope 6 non-contact is provided. A predetermined gap is secured between the main rope 6 and the detection unit 17 by the guide pulleys 16a and 16b.

The detection unit 17 includes a casing 18, a pair of springs 19a and 19b installed in the casing 18, a magnet 20 mounted between the springs 19a and 19b, and a movable side mounted to the magnet 20. It has a pair of fixed side contacts 22a and 22b fixed to the contact 21 and the casing 18. The fixed side contacts 22a and 22b oppose each other with the movable side contact 21 interposed therebetween. The displacement detection part which detects the displacement of the magnet 20 has the movable side contact 21 and the fixed side contact 22a, 22b.

The detection unit 17 is connected to an indicator light 23 as display means. The indicator light 23 lights up when the movable side contact 21 contacts either of the fixed side contacts 22a and 22b.

Next, the operation | movement of the covering abnormality detection apparatus 13 is demonstrated. When the main rope 6 is in a normal state, the movable side contact 21 is opened from the fixed side contacts 22a and 22b, and the indicator light 23 is turned off. As wear of the coating body 12 progresses, the suction force between the main rope main body 11 and the magnet 20 becomes large, and the magnet 20 is attracted to the main rope 6 side and the main rope 6 Following the movement of), the magnet 20 is also pulled in the moving direction of the main rope 6. Then, when the covering 12 wears down to a predetermined thickness and decreases, the movable side contact 21 comes into contact with either of the fixed side contacts 22a and 22b.

As a result, the indicator 23 lights up, and the abnormality detection signal is sent to the elevator controller 14. When the elevator controller 14 receives an abnormality detection signal from the covering abnormality detection device 13, the elevator 7 is stopped or stopped at the nearest floor by stopping the operation of the car 7. At the same time, the elevator management office is notified of the abnormality.

In such an elevator apparatus, by using the main rope 6 having the cover 12, the frictional force between the drive sheave 4 and the main rope 6 is increased, thereby reducing the weight of the car 7. The winding machine 2 can be miniaturized.

In addition, although the coating 12 may be worn or peeled off by the very small slip of the main rope 6 with respect to the drive sheave 4, the covering abnormality detection device 13 is attached to the main rope 6; Since it arrange | positioned adjacently, the damage of the coating | cover 12 can be detected easily, and the effort of maintenance inspection can be reduced.

In addition, when the steel wire is disconnected and protrudes out of the coating body 12, the magnet 20 is mechanically displaced regardless of the magnetic force, so that the coating abnormality detecting device 13 not only wears the coating body 12 but also wears out. The disconnection of steel wire can also be detected.

Moreover, since the covering abnormality detection apparatus 13 is arrange | positioned near the part between the drive sheave 4 and the deflection sheave 5 of the main rope 6, the influence by the vibration of the main rope 6 is affected. Since it is hard to receive, damage to the coating body 12 can be detected stably.

In the above example, the combination of the movable side contact 21 and the fixed side contacts 22a and 22b is shown as the displacement detector, but the displacement detector is not limited thereto. For example, the displacement of the magnet may be monitored by a proximity sensor or an optical sensor.

Further, for example, a slide switch may be used, or a plurality of micro switches may be arranged side by side to detect displacement of the magnet in stages. Thereby, the damage level of a covering can be detected and operation of a car can be controlled according to the damage level of a covering. For example, when a high damage level is suddenly detected, it is possible to emergency stop the car and to stop the car on the nearest floor when the damage level is low.

Embodiment 2.

Next, FIG. 4 is a block diagram which shows the coating abnormality detection apparatus of the elevator apparatus by Embodiment 2 of this invention. The covering abnormality detection apparatus 13 in Embodiment 2 has the housing 15, the guide pulleys 16a and 16b, the detection part 24, and the indicator light 23. As shown in FIG. The detection unit 24 is interposed between the casing 25, the eddy current coating thickness sensor 26 mounted on the casing 25 and facing the main rope 6, and between the casing 25 and the eddy current coating thickness sensor 26. It has a spring (27).

The eddy current type coating thickness sensor 26 generates a high frequency magnetic field by flowing a high frequency current through the sensor coil in the sensor head. On the surface of the steel element wire existing in the high frequency magnetic field, an eddy current flows in the vertical direction with respect to the passage of the magnetic flux due to the electromagnetic induction action, thereby changing the impedance of the sensor coil. The eddy current type coating thickness sensor 26 detects the distance to the steel wire, and detects wear of the coating body 12 by the change of the oscillation state by the change of impedance. The spring 27 is compressed when the main rope 6 contacts the eddy current coating thickness sensor 26, and the contact pressure of the main rope 6 with respect to the eddy current coating thickness sensor 26 is set to a predetermined value or less. Suppress The other configuration is the same as that of the first embodiment.

In such an elevator apparatus, since the coating abnormality detection apparatus 13 which has the eddy current type coating thickness sensor 26 was used, the thickness change of the coating body 12 can be detected continuously. Thereby, depending on the thickness of the covering 12, the indicator 23 may be turned on in a different color, or the stopping method of the car 7 may be converted to the floor stop closest to the emergency stop.

In addition, the installation place of a covering abnormality detection apparatus is not limited to said example, As long as it is a position which does not interfere with a car and a balance weight on the path | route of a suspension means, it may be another place.

In addition, even if a covering abnormality detection apparatus is always installed, you may make it install only as needed (at the time of maintenance inspection etc.).

In addition, the display means is not limited to an indicator light, and may be, for example, an indicator capable of displaying the damage level of the coating body, a display which informs the damage of the coating body by letters, or the like.

In addition, the installation place of the display means may be a place spaced apart from the covering abnormality detection device. The number of display means may be two or more, and display means may be provided in different places.

In addition, the cross-sectional structure of the suspension means is not limited to FIG. 2, and various types of suspension means can be used. In addition, the cross-sectional shape of the suspension means is not limited to Fig. 2, but a belt-shaped main rope may be used, for example.

In addition, although the elevator apparatus of the 1: 1 roping system which showed the cage | basket | car 7 and the counterweight 8 suspended by the both ends of the main rope 6 in the said example was shown, a roping system is not specifically limited, For example, the 2: 1 roping method may be used. In this case, the covering abnormality detection device may be mounted in the car so as to be close to the suspension means between, for example, a pair of car suspension pulleys.

Moreover, in the above example, although the hoisting machine 2 is provided in the machine room, this invention is applicable also to the elevator which does not have a machine room.

Claims (7)

Elevator car that is lifted in the hoistway, A suspension means comprising a plurality of steel wires, a suspension made of a resin covering the outer periphery of the suspension, and suspending means for hanging the car; It is provided in close proximity to the suspension means, and provided with a coating abnormality detection device for detecting damage to the coating body, The covering abnormality detecting device has a magnet facing the suspending means, and a displacement detecting portion detecting a displacement of the magnet with respect to the longitudinal direction of the suspending means, The abrasion force between the suspension and the magnet is increased by wear of the covering, and the magnet is attracted and displaced in the moving direction of the suspension means. delete Elevator car that is lifted in the hoistway, A suspension means comprising a plurality of steel wires, a suspension made of a resin covering the outer periphery of the suspension, and suspending means for hanging the car; It is provided in close proximity to the suspension means, and provided with a coating abnormality detection device for detecting damage to the coating body, The covering abnormality detection device has an eddy current type coating thickness sensor which generates an eddy current in the steel wire by a high frequency magnetic field and detects the distance to the steel wire by a change in impedance. The method according to claim 1 or 3, The covering abnormality detecting device has a pair of guide pulleys in contact with the suspending means, and a detection part disposed between the guide pulleys so as to face the covering, and detecting a damage of the covering non-contacted to the suspending means. Elevator device The method according to claim 1 or 3, The covering apparatus for detecting abnormality is provided with display means for displaying that the damage of the covering is detected. The method according to claim 1 or 3, Further provided with an elevator control device for controlling the operation of the car, The elevator control device stops the car on the nearest floor when damage to the covering is detected by the covering abnormality detecting device. The method according to claim 1, When the covering body wears down to a predetermined thickness, the elevator side contact with the fixed side contact due to the displacement of the magnet and the abnormality detection signal is generated.

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