JP2023072334A - Passenger conveyor and maintenance lighting device thereof - Google Patents

Abstract

To provide a passenger conveyor capable of lighting maintenance lighting equipment by utilizing an existing power supply circuit when power supply to the power supply circuit is interrupted.SOLUTION: A passenger conveyor includes a conveyance body 70, a driving device 8, a power supply circuit 10, and a maintenance lighting device 50. The conveyance body 70 conveys a passenger. The driving device 8 drives the conveyance body 70. The power supply circuit 10 has a converter 12, an inverter 17, and a smoothing capacitor 13 provided between the converter 12 and the inverter 17. The power supply circuit 10 supplies power to the driving device 8. The maintenance lighting device 50 has a device main body 16 connected to the power supply circuit 10. The device main body 16 has maintenance lighting equipment 16b lightened by charge stored in the smoothing capacitor 13 and a maintenance lighting switch 16a opening/closing an electric path between the smoothing capacitor 13 and the maintenance lighting equipment 16b.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to passenger conveyors and their maintenance lighting.

Maintenance work on the escalator is performed with the power supply from the commercial power supply cut off. At this time, a maintenance lighting lamp in a conventional escalator lights up by being supplied with power from a battery (for example, Patent Document 1).

JP 2013-220942 A

During maintenance work on a conventional escalator, it is necessary to add a battery in order to turn on the maintenance light.

The present disclosure has been made to solve the problems described above. It aims at obtaining the maintenance lighting device.

A passenger conveyor according to the present disclosure includes a carrier that carries passengers, a drive device that drives the carrier, a converter, an inverter, and a smoothing capacitor provided between the converter and the inverter. A maintenance lighting device having a power supply circuit for supplying power to the device and a device main body connected to the power circuit is provided. A maintenance light switch for opening and closing the electrical path between the capacitor and the maintenance lighting fixture.

According to the passenger conveyor and its maintenance lighting device of the present disclosure, the maintenance lighting fixture can be turned on using the existing power supply circuit when the power supply is interrupted.

1 is a side view showing a schematic configuration of an escalator according to Embodiment 1; FIG. 2 is a diagram showing a circuit configuration of the escalator of FIG. 1; FIG.

Hereinafter, embodiments will be described with reference to the drawings.

Embodiment 1.
FIG. 1 is a side view showing a schematic configuration of escalator 100 according to Embodiment 1. FIG.

In FIG. 1, a truss 1 is installed between a lower floor and an upper floor. A carrier 70 is supported within the truss 1 . The conveying body 70 is configured by connecting a plurality of steps 7 in an endless manner. The carrier 70 carries passengers by circulating.

A pair of balustrades 5 and a pair of handrails 6 are provided on the truss 1 . In FIG. 1, only one of the pair of handrails 5 and one of the pair of handrails 6 are shown. Each moving handrail 6 is provided on the corresponding balustrade 5 . Further, each moving handrail 6 circulates in synchronization with the carrier 70 .

Each balustrade 5 is provided with a plurality of balustrade lights 30 arranged side by side. Each balustrade light 30 is provided along the moving handrail 6. - 特許庁

A control panel 9 , a drive device 8 , and a maintenance lighting device 50 are provided in the truss 1 .

The control panel 9 controls the operation of the escalator 100 , that is, the operation of various devices within the escalator 100 . The control board 9 has a power supply circuit 10 . The power supply circuit 10 supplies power to the driving device 8 and the maintenance lighting device 50 .

The drive device 8 rotates a drive sprocket (not shown). Rotation of the drive sprocket causes the carrier 70 and each handrail 6 to circulate.

The maintenance lighting device 50 is connected to the power supply circuit 10 via the cable 15 .

FIG. 2 is a diagram showing a circuit configuration of the escalator 100 of FIG. 1. As shown in FIG.

In FIG. 2 , the main switch 11 opens and closes the electric circuit between the main power supply 20 a and the power supply circuit 10 . The main power supply 20a is a commercial AC power supply of AC200V or AC400V.

The power supply circuit 10 converts AC power supplied from the main power supply 20a into AC power of any frequency and any voltage. The power supply circuit 10 has a converter 12 , a smoothing capacitor 13 , an inverter 17 and a discharge circuit 14 .

The converter 12 is connected via the main switch 11 to the main power supply 20a. The converter 12 converts the three-phase AC power applied by the main power supply 20a into DC power.

Smoothing capacitor 13 is provided between converter 12 and inverter 17 . Smoothing capacitor 13 smoothes the DC power converted by converter 12 .

The inverter 17 is connected to the drive device 8 as a load. The inverter 17 converts the DC power smoothed by the smoothing capacitor 13 into AC power of any frequency and voltage. AC power converted by the inverter 17 is supplied to the driving device 8 .

Discharge circuit 14 is provided between smoothing capacitor 13 and inverter 17 . Also, the discharge circuit 14 is connected in parallel with the smoothing capacitor 13 . Also, the discharge circuit 14 discharges the charge accumulated in the smoothing capacitor 13 .

The discharge circuit 14 has a manual discharge switch 14a, a discharge resistor 14b, and a switching element 14c. Manual discharge switch 14a, discharge resistor 14b, and switching element 14c are connected in series.

The manual discharge switch 14a is an open/close switch operated by a maintenance worker. The discharge resistor 14b consumes the charges accumulated in the smoothing capacitor 13 . The switching element 14c is, for example, a transistor. The switching element 14c turns off when power is supplied to the power supply circuit 10, and turns on when the power supply to the power supply circuit 10 is cut off. The control panel 9 controls on and off of the switching element 14c.

The maintenance lighting device 50 has a device main body 16 . The apparatus main body 16 is connected to the power supply circuit 10 in parallel with the smoothing capacitor 13 via the cable 15 .

The apparatus body 16 has a maintenance lighting switch 16a, a maintenance lighting fixture 16b, a positive connection terminal 16c, and a negative connection terminal 16d.

The maintenance lighting switch 16a opens and closes the electric circuit between the power supply circuit 10 and the maintenance lighting fixture 16b. The maintenance lighting switch 16a opens and closes the electric circuit by being operated by a maintenance worker.

The maintenance lighting fixture 16b has a current limiting resistor and a plurality of LEDs. A current limiting resistor and a plurality of LEDs are connected in series. The maintenance lighting fixture 16b is lit by the charge stored in the smoothing capacitor 13, for example, for about 30 minutes.

The positive electrode side connection terminal 16 c is a terminal that connects the positive electrode side of the power supply circuit 10 and the positive electrode side of the device body 16 by being connected to the cable 15 .

The negative connection terminal 16 d is a terminal that connects the negative side of the power supply circuit 10 and the negative side of the device body 16 by being connected to the cable 15 .

The device main body 16 is detachably connected to the power supply circuit 10 at the positive connection terminal 16c and the negative connection terminal 16d.

The escalator 100 has a balustrade lighting circuit 40 in addition to the power supply circuit 10 . The balustrade lighting circuit 40 has a lighting switch 18 and an outlet 19 . A plurality of balustrade lights 30 are connected to a balustrade lighting circuit 40 .

The lighting switch 18 opens and closes electric circuits between the lighting power source 20 b and the plurality of balustrade lights 30 . Also, the lighting switch 18 opens and closes the electric circuit between the lighting power supply 20 b and the outlet 19 . The lighting power supply 20b is a commercial alternating current power supply of AC100V.

The outlet 19 is a plug insertion port for supplying power from the lighting power source 20b to other external devices. The plurality of balustrade lights 30 are lit by receiving power from the lighting power supply 20b.

When performing maintenance work on the escalator 100 as described above, the maintenance worker turns off the main switch 11 . As a result, the power supply from the main power supply 20a to the power supply circuit 10 is cut off.

Moreover, maintenance work is often performed at night when the operation of the escalator 100 is suspended. When maintenance work is performed at night, a maintenance worker plugs a lighting device (not shown) into the outlet 19 . As a result, the maintenance worker can obtain illumination light for maintenance work from the power from the illumination power source 20b.

However, when performing maintenance work on the balustrade lighting circuit 40 or the plurality of balustrade lights 30, the lighting switch 18 is also turned off.

In this case, the maintenance worker confirms that the power from the main power supply 20a is shut off and turns on the maintenance lighting switch 16a. By this operation, the maintenance lighting fixture 16b uses the charge accumulated in the smoothing capacitor 13 as a power source and lights up.

Thereby, the maintenance worker can perform maintenance work on the balustrade lighting circuit 40 and the plurality of balustrade lights 30 using the illumination light from the maintenance lighting fixture 16b. In addition to performing maintenance work on the balustrade lighting circuit 40 and the plurality of balustrade lights 30, maintenance workers can temporarily use the maintenance lighting device 50 to illuminate areas where the amount of light is insufficient.

Also, the maintenance worker turns on the manual discharge switch 14a of the discharge circuit 14 when the maintenance work using the maintenance lighting device 50 is finished or before the maintenance work for the inside of the control panel 9 is performed. Thereby, the maintenance worker can manually discharge the residual charge accumulated in the smoothing capacitor 13 .

As described above, the switching element 14c of the discharge circuit 14 is on when the power supply to the power supply circuit 10 is cut off. Therefore, when the manual discharge switch 14a is turned on, the charge accumulated in the smoothing capacitor 13 is discharged by the discharge resistor 14b.

On the other hand, if the manual discharge switch 14a is erroneously turned on and power supply to the power supply circuit 10 is started, the discharge resistor 14b is overloaded. To prevent this, the switching element 14c is turned off when power is supplied to the power supply circuit 10 as described above.

The escalator 100 and the maintenance lighting device 50 according to the first embodiment as described above include the maintenance lighting fixture 16b that is lit by the electric charge stored in the smoothing capacitor 13. As shown in FIG.

Therefore, when the power supply to the power supply circuit 10 is interrupted, the existing power supply circuit 10 can be used to light the maintenance lighting fixture 16b. Therefore, illumination light for maintenance can be secured even without a battery.

Also, the discharge circuit 14 discharges the charge accumulated in the smoothing capacitor 13 by opening the manual discharge switch 14a. Therefore, the maintenance worker can determine the discharge timing of the smoothing capacitor 13 .

The switching element 14c of the discharge circuit 14 is turned off when power is supplied to the power supply circuit 10, and turned on when the power supply to the power supply circuit 10 is cut off. Therefore, it is possible to prevent the discharge resistor 14b from being overloaded.

The escalator 100 also includes a cable 15 that connects the power supply circuit 10 and the device body 16 . Therefore, the maintenance worker can bring the maintenance lighting device 50 to a place where the amount of light is insufficient and illuminate the place with illumination light. Also, the length of the cable 15 may be a length from the power supply circuit 10 to a length that can illuminate the farthest balustrade lighting 30 . Thereby, all the balustrade lights 30 can be targeted for maintenance work.

The passenger conveyor is not limited to the escalator 100 and may be a moving walkway. In this case, the moving walkway may be of the horizontal type or of the inclined type. Also, the carrier 70 may be of the belt conveyor type.

8 drive device, 10 power supply circuit, 12 converter, 13 smoothing capacitor, 14 discharge circuit, 14a manual discharge switch, 14c switching element, 15 cable, 16 device body, 16a maintenance lighting switch, 16b maintenance lighting fixture, 17 inverter, 50 maintenance Lighting device, 70 carrier, 100 escalator (passenger conveyor).

Claims (5)

a carrier that carries passengers,
a driving device for driving the conveying body;
A power supply circuit having a converter, an inverter, and a smoothing capacitor provided between the converter and the inverter, the power supply circuit supplying power to the drive device, and a device body connected to the power supply circuit. a maintenance lighting device having
The device main body is
a maintenance lighting fixture that is lit by the electric charge stored in the smoothing capacitor;
a maintenance light switch that opens and closes an electrical circuit between the smoothing capacitor and the maintenance lighting fixture. The power supply circuit further has a discharge circuit,
the discharge circuit has a manual discharge switch;
2. The passenger conveyor according to claim 1, wherein the charge stored in said smoothing capacitor is discharged by opening said manual discharge switch. the discharge circuit further comprises a switching element connected in series with the manual discharge switch;
3. The passenger conveyor according to claim 2, wherein said switching element is turned off when power is supplied to said power supply circuit and turned on when power supply to said power supply circuit is interrupted. The passenger conveyor according to any one of claims 1 to 3, further comprising a cable connecting said power supply circuit and said device main body. a device main body connected to a power supply circuit having a converter, an inverter, and a smoothing capacitor provided between the converter and the inverter;
The device main body is
a maintenance lighting fixture that is lit by the electric charge stored in the smoothing capacitor;
A maintenance lighting device for a passenger conveyor, comprising: a maintenance lighting switch for opening and closing an electric circuit between the smoothing capacitor and the maintenance lighting fixture.

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