CN114040884B

CN114040884B - Step chain elongation detection system of passenger conveyor

Info

Publication number: CN114040884B
Application number: CN201980097501.7A
Authority: CN
Inventors: 熊谷诚一; 志贺谕; 皆木宗; 桥口拓弥
Original assignee: Mitsubishi Electric Building Solutions Corp
Current assignee: Mitsubishi Electric Building Solutions Corp
Priority date: 2019-06-17
Filing date: 2019-06-17
Publication date: 2023-11-24
Anticipated expiration: 2039-06-17
Also published as: TWI795607B; CN117023331A; JP7070800B2; CN114040884A; JP7070800B6; WO2020255221A1; KR20210124448A; JPWO2020255221A1; KR102522242B1; TW202100445A

Abstract

Provided is a step chain elongation detection system for a passenger conveyor, wherein elongation of a step chain can be easily detected. The step chain elongation detection system of the passenger conveyor comprises: a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and an elongation detecting unit that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting unit.

Description

Step chain elongation detection system of passenger conveyor

Technical Field

The present invention relates to a step chain elongation detection system for a passenger conveyor.

Background

Patent document 1 discloses a monitoring device for a passenger conveyor. According to this monitoring device, the elongation of the step chain can be detected.

Prior art literature

Patent literature

Patent document 1: japanese patent application laid-open No. 2004-224560

Disclosure of Invention

Problems to be solved by the invention

However, in the monitoring device described in patent document 1, it is necessary to detect the elongation of the step chain from the differential image. Therefore, the process for detecting the elongation of the step chain becomes complicated.

The present invention has been made to solve the above problems. The invention aims to provide a step chain elongation detection system of a passenger conveyor, which can easily detect the elongation of a step chain.

Means for solving the problems

The step chain elongation detection system of the passenger conveyor of the present invention comprises: a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and an elongation detecting unit that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting unit. The inclination detection unit detects inclination of a step from a difference between left and right sides of a gap between adjacent steps based on an image of an imaging device that images the adjacent step from above the passenger conveyor in the vicinity of a landing.

Another aspect of the present invention provides a step chain elongation detection system for a passenger conveyor, comprising: a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and an elongation detecting unit that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting unit. The inclination detection unit detects inclination of a step from a change in the direction of a cleat of the step based on an image of an imaging device that captures an image of an adjacent step from above the passenger conveyor in the vicinity of a landing.

A step chain elongation detection system of a passenger conveyor according to still another aspect of the present invention includes: a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and an elongation detecting unit that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting unit. The inclination detection unit detects inclination of the step from a change in the direction of the step grip on the basis of a measurement result of a vibration sensor that fixes the shaft to the step in correspondence with the direction of the step grip.

A step chain elongation detection system of a passenger conveyor according to still another aspect of the present invention includes: a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and an elongation detecting unit that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting unit. The inclination detection unit detects the inclination of the step from the difference between the moving direction of the step and the direction of the cleat of the step based on an image of an imaging device that images an adjacent step from above the passenger conveyor in the vicinity of the entrance.

Effects of the invention

According to the present invention, the elongation detection system detects elongation of the step chain according to inclination of the steps. Therefore, the elongation of the step chain can be easily detected.

Drawings

Fig. 1 is a front view of a passenger conveyor to which a step chain elongation detection system of the passenger conveyor of embodiment 1 is applied.

Fig. 2 is an enlarged perspective view of a step chain to which the step chain elongation detection system of the passenger conveyor of embodiment 1 is applied.

Fig. 3 is an enlarged perspective view of a step chain to which the step chain elongation detection system of the passenger conveyor of embodiment 1 is applied.

Fig. 4 is a block diagram of a step chain elongation detection system of the passenger conveyor according to embodiment 1.

Fig. 5 is a flowchart for explaining an outline of the operation of the elongation detection device that is a part of the elongation detection system of the step chain of the passenger conveyor according to embodiment 1.

Fig. 6 is a hardware configuration diagram of an elongation detection device that is a part of the elongation detection system of the step chain of the passenger conveyor according to embodiment 1.

Detailed Description

The manner in which the invention can be practiced is now described with reference to the accompanying drawings. In the drawings, the same or corresponding portions are denoted by the same reference numerals. Repeated description of this portion is appropriately simplified or omitted.

Embodiment 1

As shown in fig. 1, a lower entrance 1 is provided at a lower portion of the passenger conveyor. The upper entrance 2 is provided at the upper part of the passenger conveyor. The steps 3 are provided between the lower landing entrance 1 and the upper landing entrance 2. The left step chain 4 links the left sides of the plurality of steps 3. The right step chain 4 links the right sides of the plurality of steps 3.

The pair of step chains 4 circulate following rotation of a sprocket not shown. The plurality of steps 3 move in a cycle following the cycle of the pair of step chains 4.

Next, a partial extension of the step chain 4 will be described with reference to fig. 2.

As shown in fig. 2, the step chain 4 is coupled by inserting a pin 4a into a sleeve 4 b. For example, a large tension acts at a position corresponding to the adjacent step 3. At this time, the pin 4a and the sleeve 4b wear due to frictional wear. As a result, the distance between adjacent link elements (links) is elongated. Elongation of the distance between the link elements is manifested as elongation of the step chain 4.

Next, a state of the step 3 when the partial elongation of the step chain 4 occurs will be described with reference to fig. 3.

As shown in fig. 3, in a normal state in which the left and right step chains 4 are not extended, the interval between the adjacent steps 3 is uniform in the width direction between the pair of skirt plates 5. In a state where the left step chain 4 is partially extended, the left interval between adjacent steps 3 is enlarged. In a state where the partial elongation of the right step chain 4 occurs, the right-side interval between adjacent steps 3 is enlarged.

Next, a method of detecting the elongation of the step chain 4 will be described with reference to fig. 4.

The elongation detection system includes an imaging device 6 and an elongation detection device 7.

The imaging device 6 is temporarily disposed so as to look down at the steps 3 from above the passenger conveyor in the vicinity of the lower entrance 1.

The elongation detection device 7 includes an inclination detection unit 7a and an elongation detection unit 7b.

For example, the inclination detection unit 7a detects the inclination of the step 3 on the forward side when the plurality of steps 3 are moved in a cycle based on the image from the imaging device 6. At this time, the inclination detection unit 7a extracts an end portion of the clamp plate (clean) of the step 3 as a straight line portion, and then quantifies the shift of the step 3. The elongation detecting unit 7b detects whether or not the step chain 4, which is not shown in fig. 4, is elongated or the degree of elongation based on the inclination of the step 3 detected by the inclination detecting unit.

Next, an outline of the operation of the elongation detecting device 7 will be described with reference to fig. 5.

In step S1, the elongation detection device 7 receives an input of images of the plurality of steps 3 from the imaging device 6 while the passenger conveyor is being lowered. After that, the elongation detection device 7 performs the operation of step S2. In step S2, the elongation detection device 7 extracts, from the image of the imaging device, an image frame obtained by capturing a state before the gap between the adjacent steps 3 enters the step guide, not shown.

After that, the elongation detection device 7 performs the operation of step S3. In step S3, the elongation detecting device 7 extracts a portion of the image frame where the gap of the adjacent steps 3 is captured. Thereafter, the operation of step S4 is performed. In step S4, the elongation detection device 7 detects the length of the gap between adjacent steps 3 from the number of pixels at the portion where the gap between adjacent steps 3 is captured. After that, the elongation detection device 7 performs the operation of step S5. In step S5, the elongation detecting device 7 detects a difference between the left and right sides of the gap between the adjacent steps 3. As a result, the degree of parallelism of adjacent steps 3 is detected.

According to embodiment 1 described above, the elongation detection device 7 detects the elongation of the step chain 4 from the inclination of the steps 3. Therefore, the partial elongation of the step chain 4 can be easily detected without adding a new device to the passenger conveyor.

Specifically, the elongation detection device 7 detects the inclination of the steps 3 from the difference between the left and right sides of the gaps between adjacent steps of the steps 3 based on the image of the imaging device 6. Therefore, information required for detecting the elongation of the step chain 4 can be easily acquired.

In this case, the passenger conveyor can be kept in normal operation. Therefore, the elongation of the step chain 4 can be easily detected without reducing the operation efficiency of the passenger conveyor.

The inclination of the steps 3 may be detected from the difference between the left and right sides of the gaps between the adjacent steps 3 based on the measurement result of the distance measuring sensor that measures the gaps between the adjacent steps 3. In this case, information required for detecting the elongation of the step chain 4 can be easily obtained.

Furthermore, the inclination of the steps 3 may be detected from a change in the direction of the grip of the steps 3 for each step 3 based on the image of the imaging device 6. In this case, information required for detecting the elongation of the step chain 4 can be easily obtained.

The inclination of the step 3 may be detected from a change in the direction of the grip of the step 3, based on the measurement result of the vibration sensor in which the shaft is fixed to the step 3 in correspondence with the direction of the grip of the step 3. In this case, information required for detecting the elongation of the step chain 4 can be easily obtained.

The inclination of the step 3 may be detected based on the image of the imaging device 6 from the difference between the moving direction of the step 3 and the direction of the clamp plate of the step 3. In this case, the inclination of the step 3 with respect to the truss track can be easily obtained as information necessary for detecting the elongation of the step chain 4.

The inclination of the step 3 may be detected based on a measurement result of a vibration sensor having an axis aligned with the direction of the grip of the step 3 and fixed to the step 3, and based on a difference between the moving direction of the step 3 and the direction of the grip of the step 3. In this case, the inclination of the step 3 with respect to the truss track can be easily obtained as information necessary for detecting the elongation of the step chain 4.

In the case of performing the ascending operation of the passenger conveyor, the inclination of the steps 3 may be detected from the gap between the adjacent steps 3 after the steps 3 exit from the step guide. In this case, the elongation of the step chain 4 can be easily detected.

Further, the inclination of the steps 3 may be detected on the upper entrance 2 side. In this case, the elongation of the step chain 4 can be easily detected.

The elongation detection system according to embodiment 1 may be applied to a travelator. In this case, the elongation of the step chain 4 can be easily detected.

Next, an example of the elongation detecting device 7 will be described with reference to fig. 6.

The functions of the elongation detection device 7 can be realized by a processing circuit. For example, the processing circuit is provided with at least one processor 100a and at least one memory 100b. For example, the processing circuit is provided with at least one dedicated hardware 200.

In the case where the processing circuit includes at least one processor 100a and at least one memory 100b, each function of the elongation detection device 7 is realized by software, firmware, or a combination of software and firmware. At least one of the software and the firmware is described as a program. At least one of the software and firmware is stored in at least one memory 100b. The at least one processor 100a implements the functions of the elongation detection device 7 by reading out and executing a program stored in the at least one memory 100b. The at least one processor 100a is also referred to as a central processing unit, a processing unit, an arithmetic unit, a microprocessor, a microcomputer, a DSP. For example, the at least one Memory 100b is a nonvolatile or volatile semiconductor Memory such as a RAM (Random Access Memory: random access Memory), a ROM (Read Only Memory), a flash Memory, an EPROM (Erasable Programmable Read Only Memory: erasable programmable Read Only Memory), an EEPROM (Electrically Erasable Programmable Read Only Memory: electrically erasable programmable Read Only Memory), a magnetic disk, a floppy disk, an optical disk, a CD (compact disc), a mini disc (mini disc), a DVD (Digital Versatile Disk: digital versatile disc), or the like.

In the case of processing circuitry having at least one dedicated hardware 200, the processing circuitry is implemented, for example, by a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC (Application Specific Integrated Circuit: application specific integrated circuit), an FPGA (Field Programmable Gate Array: field programmable gate array), or a combination thereof. For example, each function of the elongation detecting device 7 is realized by a processing circuit. For example, the functions of the elongation detecting device 7 are realized collectively by a processing circuit.

Regarding each function of the elongation detecting device 7, a part may be realized by dedicated hardware 200, and the other part may be realized by software or firmware. For example, the functions of the tilt detection unit 7a may be realized by a processing circuit that is a dedicated hardware 200, and the functions other than the functions of the tilt detection unit 7a may be realized by at least one processor 100a reading out and executing a program stored in at least one memory 100b.

Thus, the processing circuitry implements the functions of the elongation detection device 7 by means of hardware 200, software, firmware or a combination thereof.

Industrial applicability

As described above, the elongation detection system of the step chain of the passenger conveyor of the present invention can be used for a passenger conveyor system.

Description of the reference numerals

1: a lower riding and descending port; 2: an upper landing port; 3: a step; 4: a step chain; 4a: a pin; 4b: a sleeve; 5: skirtboard; 6: an image pickup device; 7: an elongation detection device; 7a: a tilt detection unit; 7b: an elongation detection unit; 100a: a processor; 100b: a memory; 200: hardware.

Claims

1. A step chain elongation detection system of a passenger conveyor, wherein the step chain elongation detection system of the passenger conveyor comprises:

a tilt detection unit that detects a tilt of a step when a plurality of steps of the passenger conveyor are moved in a cycle; and

an elongation detecting section that detects elongation of a step chain connecting the plurality of steps based on the inclination of the steps detected by the inclination detecting section,

the inclination detection unit detects inclination of a step from a difference between left and right sides of a gap between adjacent steps based on an image of an imaging device that images the adjacent step from above the passenger conveyor in the vicinity of a landing.

2. A step chain elongation detection system of a passenger conveyor, wherein the step chain elongation detection system of the passenger conveyor comprises:

the inclination detection unit detects inclination of a step from a change in the direction of a cleat of the step based on an image of an imaging device that captures an image of an adjacent step from above the passenger conveyor in the vicinity of a landing.

3. A step chain elongation detection system of a passenger conveyor, wherein the step chain elongation detection system of the passenger conveyor comprises:

the inclination detection unit detects the inclination of the step from the difference between the moving direction of the step and the direction of the cleat of the step based on an image of an imaging device that images an adjacent step from above the passenger conveyor in the vicinity of the entrance.