JP2019147642A - Repair support device of elevator and repair method of elevator - Google Patents

Abstract

To provide a repair support device and a repair method of an elevator capable of easily setting a temporary elevator operation during repairing the elevator.SOLUTION: A repair support device of an elevator comprises a converter to electrically connect an existing control cable or an existing control board with a new apparatus for the elevator. The existing control cable or the existing control board and the new apparatus are electrically and temporary connected via the converter according to the repair support device. For this reason, the temporary operation of the elevator can easily be set during repairing the elevator.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an elevator repair support apparatus and an elevator repair method.

  Patent document 1 discloses the repair method of an elevator. According to the repair method, the elevator can be temporarily operated during the repair of the elevator.

JP 2006-206196 A

  However, in the repair method described in Patent Document 1, it is necessary to temporarily connect an existing control panel and a new device. For this reason, it may be difficult to connect an existing control panel to a new device.

  The present invention has been made to solve the above-described problems. An object of the present invention is to provide an elevator repair support device and a repair method capable of easily setting temporary operation of an elevator during the repair of the elevator.

  The elevator repair support device according to the present invention includes, in the elevator, a converter that electrically connects an existing control cable or an existing control panel and a new device.

  The elevator repair method according to the present invention includes a new equipment temporary installation step in which the existing control cable or the existing control panel and the new equipment are electrically connected via a converter in the elevator.

  According to these inventions, the existing control cable or the existing control panel and the new equipment are temporarily electrically connected via the converter. For this reason, the temporary operation of the elevator can be easily set during the repair of the elevator.

It is a block diagram of the elevator with which the elevator repair assistance apparatus in Embodiment 1 is applied. It is a block diagram at the time of the repair of the elevator to which the repair support apparatus of the elevator in Embodiment 1 is applied. It is a block diagram at the time of the repair of the elevator to which the repair support apparatus of the elevator in Embodiment 1 is applied. It is a block diagram at the time of the repair of the elevator to which the repair support apparatus of the elevator in Embodiment 1 is applied. 1 is an external view of a converter for ceiling equipment of an elevator repair support apparatus in Embodiment 1. FIG. FIG. 3 is an external view of a governor switch converter of the elevator repair support device in the first embodiment. 3 is an external view of a lock switch converter of the elevator repair support device in Embodiment 1. FIG. FIG. 3 is an external view of an in-car work power supply device of the elevator repair support device in the first embodiment. 2 is an external view of a power supply for pit work of the elevator repair support device in Embodiment 1. FIG. It is an external view of the fan of the elevator with which the elevator repair assistance apparatus in Embodiment 1 is applied. It is an external view of the fan covered with the fan cover of the elevator to which the elevator repair support device in the first embodiment is applied. It is a block diagram of the elevator with which the elevator repair assistance apparatus in Embodiment 2 is applied. FIG. 6 is an external view of a machine room side power supply device of an elevator repair support device in a second embodiment. FIG. 10 is an external view of a car-side power supply device of an elevator repair support device in a second embodiment.

  A mode for carrying out the invention will be described with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the part which is the same or it corresponds in each figure. The overlapping explanation of the part is appropriately simplified or omitted.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram of an elevator to which the elevator repair support device according to the first embodiment is applied.

  In the elevator of FIG. 1, the hoistway 1 penetrates each floor of the building. The machine room 2 is provided immediately above the hoistway 1. Each of the halls 3 is provided on each floor of the building. Each of the plurality of landings 3 faces the hoistway 1. Each of the plurality of landing doors 4 is provided at each of the entrances and exits of the plurality of landings 3.

  The car 5 is provided inside the hoistway 1. The car door 6 is provided at the entrance of the car 5. The ceiling device 7 is provided on the ceiling of the car 5. For example, as the ceiling device 7, an illumination 7a is provided. For example, a fan 7 b is provided as the ceiling device 7. For example, a rescue outlet switch 7 c is provided as the ceiling device 7. The suspension weight 8 is provided inside the hoistway 1.

  The outlet 9 is provided inside the machine room 2. The hoisting machine 10 is provided inside the machine room 2. The hoisting machine 10 includes a sheave 11. The deflecting wheel 12 is provided inside the machine room 2. The main rope 13 is wound around the sheave 11 and the deflector 12. One side of the main rope 13 supports the car 5. The other side of the main rope 13 supports the suspension weight.

  The governor 14 includes an upper pulley 15, a lower pulley 16, a speed control rope 17, and a stop device 18.

  The upper pulley 15 is provided inside the machine room 2. The lower pulley 16 is provided at the bottom of the hoistway 1. The speed control rope 17 is wound around the upper pulley 15 and the lower pulley 16 in an endless manner. The stop device 18 is provided inside the machine room 2. The stop device 18 is adjacent to the upper pulley 15.

  Each of the plurality of lock switches 19 is provided at each of the entrances and exits of the plurality of halls 3.

  The pit lamp 20 is provided at the bottom of the hoistway 1.

  The control panel 21 is provided in the machine room 2.

  The harness cable 22 electrically connects each of the plurality of lock switches 19 and the control panel 21. The harness cable 22 electrically connects the pit lamp 20 and the control panel 21.

  The control cable 23 electrically connects the ceiling device 7 and the control panel 21.

Next, an outline of an elevator repair method will be described with reference to FIGS.
2 to 4 are configuration diagrams at the time of repairing an elevator to which the elevator repair support device according to the first embodiment is applied.

  As shown in FIG. 2, on the first day of elevator renovation, an operator temporarily suspends a new interphone cable (not shown) in the hoistway 1. The worker temporarily suspends the newly installed harness cable 24. The operator temporarily suspends the newly installed control cable 25.

  In the car 5, the worker installs a new ceiling device 26. For example, a new illumination 26 a is provided as the new ceiling device 26. For example, a new fan 26 b is provided as the new ceiling device 26. For example, a new rescue port switch 26 c is provided as the new ceiling device 26. The worker electrically connects the existing control cable 23 and the newly installed ceiling device 26 via the converter 27 for the ceiling device.

  In the machine room 2, an operator electrically connects an existing control panel 21 and a newly installed governor switch 28 via a governor switch converter 29.

  After the completion of the work on the first day, the existing control panel 21 operates the elevator using the existing hoisting machine 10, the new ceiling device 26, and the new governor switch 28.

  As shown in FIG. 3, on the second day of the elevator renovation, in the hoistway 1, the worker electrically connects the newly installed harness cable 24 to the plurality of lock switches 19 and the pit lights 20.

  In the machine room 2, the operator electrically connects the existing control panel 21 and a new customer intercom (not shown) via a customer interphone converter (not shown). The operator electrically connects the existing control panel 21 and the newly installed harness cable 24 via the lock switch converter 30.

  After the completion of the work on the second day, the existing control panel 21 operates the elevator using the existing hoisting machine 10, the new ceiling equipment 26, the new governor switch 28, and the new customer intercom. To do. At this time, the existing control panel 21 grasps the opening / closing state of the landing door 4 based on signals received from the plurality of lock switches 19 via the newly installed harness cable 24 and the lock switch converter 30.

  As shown in FIG. 4, on the third day of the elevator repair, the operator removes the existing harness cable 22 and the existing control cable 23 in the hoistway 1.

  In the car 5, the worker covers the new fan 26 b with the fan cover 31. The operator installs the drum 32. The worker electrically connects the cable of the drum 32 and the newly installed ceiling device 26 via the car work power supply 33.

  In the machine room 2, the operator electrically connects the outlet 9 of the machine room 2 and the cable of the drum 32. The worker electrically connects the outlet 9 of the machine room 2 and the newly installed harness cable 24 via the pit work power supply 34. The operator removes the existing hoisting machine 10 that is not shown in FIG. The operator removes the existing control panel 21 not shown in FIG. The operator installs a new hoisting machine 35. The operator installs a new control panel 36.

  In this state, the newly installed ceiling device 26 is supplied with power via the cable of the drum 32. In the car 5, the worker works with the lighting 7 a turned on. The worker performs work while the fan 7b is in operation.

  The pit lamp 20 is supplied with power via a newly installed harness cable 24. At the bottom of the hoistway 1, the worker works with the pit lamp 20 turned on.

  After the work on the car 5 and the work on the bottom of the hoistway 1 are finished, in the car 5, the worker electrically connects the new control cable 23 and the new ceiling device 26. In the machine room 2, the worker electrically connects the newly installed harness cable 24 and the newly installed control panel 36.

  Although not shown, on the fourth day, the operator completes the work by installing a monitoring panel, performing high-speed adjustment, inspection, and the like.

  After the completion of the work on the fourth day, the new control panel 36 operates the elevator using the new hoisting machine 35, the new ceiling equipment 26, the new governor switch 28, and the new customer intercom. .

Next, the ceiling equipment converter 27 will be described with reference to FIG.
FIG. 5 is an external view of a converter for ceiling equipment of the elevator repair support device in the first embodiment.

  As shown in FIG. 5, the ceiling equipment converter 27 includes an existing side connection portion 27 a, a new side connection portion 27 b, and a connection relay portion 27 c.

  The existing side connection portion 27 a is provided so as to be electrically connected to the existing control cable 23. For example, the existing connection part 27a is a plurality of terminal terminals. Each of the plurality of terminal terminals is provided so as to be electrically connected to the existing control cable 23 via the existing terminal.

  The newly installed side connecting portion 27b is provided so as to be electrically connected to the newly installed ceiling device 26. For example, the new connection part 27b is a plurality of connectors. Each of the plurality of connectors is provided so as to be electrically connected to a connector of a corresponding device.

  The connection relay portion 27c is provided so as to be able to electrically connect the existing side connection portion 27a and the new side connection portion 27b. For example, the connection relay unit 27c is a cable.

Next, the governor switch converter 29 will be described with reference to FIG.
FIG. 6 is an external view of a governor switch converter of the elevator repair support apparatus according to the first embodiment.

  As shown in FIG. 6, the governor switch converter 29 includes an existing side connection portion 29a, a new side connection portion 29b, and a connection relay portion 29c.

  The existing side connection portion 29 a is provided so as to be electrically connected to the existing control panel 21. For example, the existing side connection part 29a is a plurality of terminal terminals. Each of the plurality of terminal terminals is provided so as to be electrically connected to the existing control panel 21.

  The new side connection portion 29b is provided so as to be electrically connected to the new governor switch 28. For example, the new connection part 29b is a connector. The connector is provided so that it can be electrically connected to the connector of the newly established governor switch 28.

  The connection relay part 29c is provided so as to be able to electrically connect the existing side connection part 29a and the new side connection part 29b. For example, the connection relay unit 29c is a cable.

Next, the lock switch converter 30 will be described with reference to FIG.
FIG. 7 is an external view of a lock switch converter of the elevator repair support apparatus according to the first embodiment.

  As shown in FIG. 7, the lock switch converter 30 includes an existing connection part 30a, a new connection part 30b, and a connection relay part 30c.

  The existing side connection portion 30a is provided so as to be electrically connected to the existing control panel 21. For example, the existing connection part 30a is a plurality of terminal terminals. Each of the plurality of terminal terminals is provided so as to be electrically connected to the existing control panel 21.

  The new connection part 30b is provided so as to be electrically connected to the new harness cable 24. For example, the new connection part 30b is a connector. The connector is provided so that it can be connected to the connector of the newly installed harness cable 24.

  The connection relay part 30c is provided so as to be able to electrically connect the existing side connection part 30a and the new side connection part 30b. For example, the connection relay unit 30c is a cable.

Next, the in-car work power supply 33 will be described with reference to FIG.
FIG. 8 is an external view of a power supply for working in a car of the elevator repair support device in the first embodiment.

  As shown in FIG. 8, the in-car work power supply 33 includes a power supply side connection portion 33a, a device side connection portion 33b, and a connection relay portion 33c.

  The power supply side connecting portion 33a is provided so as to be electrically connected to the cable of the drum 32. For example, the power supply side connecting portion 33a is a power plug. The power plug is provided so that it can be electrically connected to the cable outlet of the drum 32.

  The apparatus side connection part 33b is provided so that it can electrically connect with the newly installed ceiling apparatus 26. FIG. For example, the device side connection part 33b is a plurality of connectors. Each of the plurality of connectors is provided so as to be connected to a corresponding device.

  The connection relay part 33c is provided so that the power supply side connection part 33a and the apparatus side connection part 33b can be electrically connected. For example, the connection relay unit 33c is a cable.

Next, the pit work power supply 34 will be described with reference to FIG.
FIG. 9 is an external view of a power supply for pit work of the elevator repair support apparatus according to the first embodiment.

  As shown in FIG. 9, the pit work power supply 34 includes a power supply side connection portion 34a, a device side connection portion 34b, and a connection relay portion 34c.

  The power supply side connection part 34 a is provided so as to be electrically connected to the power supply of the machine room 2. For example, the power supply side connection part 34a is a power plug. The power plug is provided so as to be electrically connected to the outlet 9 of the machine room 2.

  The apparatus side connection part 34b is provided so that it can electrically connect with the newly installed harness cable 24. FIG. For example, the device side connection part 34b is a connector. The connector is provided so that it can be connected to the connector of the newly installed harness cable 24.

  The connection relay part 34c is provided so that the power supply side connection part 34a and the apparatus side connection part 34b can be electrically connected. For example, the connection relay unit is a cable.

Next, the fan 7b and the fan cover 31 will be described with reference to FIGS.
FIG. 10 is an external view of an elevator fan to which the elevator repair support device according to the first embodiment is applied. FIG. 11 is an external view of a fan covered with a fan cover of an elevator to which the elevator repair support device according to the first embodiment is applied.

  As shown in FIG. 10, the new fan 726 b includes a rotating unit A. The rotating part A is exposed to the outside. As shown in FIG. 11, for example, the fan cover 31 is formed in a net shape. The fan cover 31 shields the rotating part A of the new fan 726b.

  According to the first embodiment described above, the existing control cable 23 or the existing control panel 21 and the newly installed device are temporarily electrically connected via the converter. For this reason, during the repair of the elevator, the temporary operation of the elevator can be easily set using the existing control cable 23 and the existing control panel 21.

  Specifically, the existing control cable 23 and the newly installed ceiling device 26 are temporarily electrically connected via a converter 27 for the ceiling device. For this reason, the elevator can be temporarily operated using the newly installed ceiling device 26.

  Further, the existing control panel 21 and the new governor switch 28 are temporarily electrically connected via a governor switch converter 29. For this reason, the elevator can be operated temporarily using the newly established governor switch 28.

  Further, the existing control panel 21 and the newly installed harness cable 24 are temporarily electrically connected via a lock switch converter 30. For this reason, the elevator can be temporarily operated using the newly installed harness cable 24.

  Furthermore, the power source of the machine room 2 and the newly installed device are temporarily electrically connected via a power supply unit. For this reason, even after the existing control panel 21 is removed, power can be supplied to the newly installed equipment. As a result, the newly installed equipment can be temporarily used at the time of repair work of the elevator.

  Specifically, the drum 32 and the newly installed ceiling device 26 are temporarily electrically connected via the car work power supply 33. For this reason, the new lighting 7a and the fan 7b can be temporarily used when the car 5 is repaired. As a result, the working environment in the car 5 can be improved.

  Further, the power source of the machine room 2 and the newly installed harness cable 24 are temporarily electrically connected via a pit work power supply 34. For this reason, the pit lamp 20 can be temporarily used at the time of repair work of the bottom of the hoistway 1. As a result, the working environment at the bottom of the hoistway 1 can be improved.

  Further, the new fan 26 b is shielded by the fan cover 31. For this reason, it is possible to ensure the safety of the worker when the car 5 is repaired.

Embodiment 2. FIG.
FIG. 12 is a configuration diagram of an elevator to which the elevator repair support device according to the second embodiment is applied. In addition, the same code | symbol is attached | subjected to the same part as Embodiment 1, or an equivalent part. The description of this part is omitted.

  In the second embodiment, before the newly installed control panel 36 is installed, the newly installed ceiling equipment 26 is supplied with power via the newly installed control cable 25.

  Specifically, in the machine room 2, the worker electrically connects the outlet 9 and one side of the newly installed control cable 25 via the machine room side power supply unit 37.

  In the car 5, the worker electrically connects the other side of the newly installed control cable 25 and the newly installed ceiling device 26 via the car-side power supply unit 38.

Next, the machine room side power supply 37 will be described with reference to FIG.
FIG. 13 is an external view of a machine room side power supply unit of the elevator repair support device according to the second embodiment.

  As shown in FIG. 13, the machine room side power supply unit 37 includes a power supply side connection portion 37a, a control cable side connection portion 37b, and a connection relay portion 37c.

  The power supply side connection portion 37 a is provided so as to be electrically connected to the power supply of the machine room 2. For example, the power supply side connection part 37a is a power plug. The power plug is provided so as to be electrically connected to the outlet 9 of the machine room 2.

  The control cable side connection portion 37b is provided so as to be electrically connected to one side of the newly installed control cable 25. For example, the control cable side connection portion 37b is a connection terminal. The connection terminal is provided so as to be connected to an empty line of the newly installed control cable 25.

  The connection relay part 37c is provided so as to be able to electrically connect the power supply side connection part 37a and the control cable side connection part 37b. For example, the connection relay unit 37c is a cable.

Next, the car-side power supply unit 38 will be described with reference to FIG.
FIG. 14 is an external view of a car-side power supply unit of the elevator repair support device according to the second embodiment.

  As shown in FIG. 14, the car-side power supply unit 38 includes a control cable-side connection part 38a, a device-side connection part 38b, and a connection relay part 38c.

  The control cable side connection portion 38 a is provided so as to be electrically connected to the other side of the control cable 23. For example, the control cable side connection part 38a is a power plug. The power plug is provided so as to be electrically connected to an outlet connected to the other side of the newly installed control cable 25.

  The apparatus side connection part 38b is provided so that it can electrically connect with the newly installed ceiling apparatus 26. FIG. For example, the device side connection part 38b is a plurality of connectors. Each of the plurality of connectors is provided so as to be connected to a connector of a corresponding device.

  The connection relay part 38c is provided so that the control cable side connection part 38a and the apparatus side connection part 38b can be electrically connected. For example, the connection relay unit 38c is a cable.

  According to the second embodiment described above, the power source of the machine room 2 and one side of the newly installed control cable 25 are temporarily electrically connected via the machine room side power supply unit 37. Further, the other side of the newly installed control cable 25 and the newly installed ceiling equipment 26 are temporarily electrically connected via a car-side power supply unit 38. For this reason, the new illumination 7a and the fan 7b can be temporarily used without using the drum 32 when the car 5 is repaired. As a result, the working environment in the car 5 can be improved.

  In addition, the converter and power supply device of Embodiment 1 and the power supply device of Embodiment 2 can be used for other elevators after repair of the elevator. For this reason, the cost for repair of an elevator can be held down.

  1 hoistway, 2 machine room, 3 landing, 4 landing door, 5 car, 6 car door, 7 ceiling equipment, 7a lighting, 7b fan, 7c rescue outlet switch, 8 lifting weight, 9 outlet, 10 hoisting machine, DESCRIPTION OF SYMBOLS 11 Sheave, 12 Barrow, 13 Main rope, 14 Governor, 15 Upper pulley, 16 Lower pulley, 17 Control rope, 18 Stop device, 19 Lock switch, 20 Pit light, 21 Control panel, 22 Harness cable, 23 Control cable, 24 harness cable, 25 control cable, 26 ceiling equipment, 26a lighting, 26b fan, 26c rescue outlet switch, 27 converter for ceiling equipment, 27a existing connection section, 27b new connection section, 27c connection relay section, 28 governor switch, 29 governor switch Converter for H, 29a existing side connection part, 29b new side connection part, 29c connection relay part, 30 lock switch converter, 30a existing side connection part, 30b new side connection part, 30c connection relay part, 31 fan cover, 32 drums, 33 car work power supply, 33a power supply side connection part, 33b equipment side connection part, 33c connection relay part, 34 pit work power supply, 34a power supply side connection part, 34b equipment side connection part, 34c Connection relay part, 35 hoisting machine, 36 control panel, 37 machine room side power supply, 37a power supply side connection part, 37b control cable side connection part, 37c connection relay part, 38 car side power supply, 38a control cable side Connection part, 38b Device side connection part, 38c Connection relay part

The elevator repair support device according to the present invention includes an elevator that electrically connects an existing control cable or an existing control panel and a new device, a power source for the machine room of the elevator, and a new device. A power supply that electrically connects the power supply, and the power supply is provided on the ceiling of the elevator car and is electrically connected to the power supply of the machine room. And a new ceiling device provided on the ceiling of the elevator car is electrically connected .

In the elevator repair method according to the present invention, in the elevator, an existing control cable or an existing control panel and a newly installed device are electrically connected via a converter, and a temporary installation process for the machine room of the elevator is provided. A new equipment power supply step for electrically connecting a power source and the new equipment via a power supply, wherein the new equipment power supply step is a ceiling of the elevator car. A drum that is electrically connected to a power source of the machine room and a power supply, and a new ceiling device provided on a ceiling of the elevator car, and the power supply Including a ceiling device power supply step for electrically connecting the two .

Claims (18)

In an elevator, a converter that electrically connects an existing control cable or an existing control panel to a new device,
Elevator repair support device with   2. The elevator repair support device according to claim 1, wherein the converter electrically connects the existing control cable and a new ceiling device in the elevator car.   2. The elevator repair support device according to claim 1, wherein the converter electrically connects the existing control panel and a new governor switch in a machine room of the elevator.   2. The elevator repair support device according to claim 1, wherein the converter electrically connects the existing control panel and a new harness cable connected to a lock switch in the machine room of the elevator. A power supply for electrically connecting the power supply of the machine room of the elevator and the newly installed device;
The elevator repair support device according to any one of claims 1 to 4, further comprising:   6. The elevator repair support apparatus according to claim 5, wherein the power supply unit electrically connects a drum electrically connected to a power source of the machine room and a newly installed ceiling device in the elevator car.   6. The elevator repair support device according to claim 5, wherein the power supply unit electrically connects a power source and a newly installed harness cable connected to a pit lamp in the machine room. A machine room side power supply for electrically connecting a power source and one side of a newly installed control cable in the machine room of the elevator;
A car-side power supply for electrically connecting the other side of the newly installed control cable and the newly installed ceiling equipment in the elevator car;
The elevator repair support device according to any one of claims 1 to 4, further comprising: A fan cover that shields a new fan provided on the ceiling of the elevator car at the time of repair of the elevator;
The elevator repair support device according to any one of claims 1 to 8, further comprising: In an elevator, a new equipment temporary installation process for electrically connecting an existing control cable or an existing control panel and a new equipment through a converter,
Renovation method for elevators equipped with The new equipment temporary installation process includes:
Ceiling equipment temporary installation step for electrically connecting the existing control cable and the newly installed ceiling equipment via a converter in the elevator car,
The elevator repair method according to claim 10, comprising: The new equipment temporary installation process includes:
A governor switch temporary installation step for electrically connecting the existing control panel and a newly established governor switch via a converter in the machine room of the elevator,
The method of repairing an elevator according to claim 10 or claim 11 including: The new equipment temporary installation process includes:
A lock switch temporary installation step for electrically connecting the existing control panel and a new harness cable connected to the lock switch in the machine room of the elevator via a converter,
The method of repairing an elevator according to any one of claims 10 to 12, comprising: A new equipment power supply step for electrically connecting a power source of the elevator machine room and a new equipment via a power supply;
The elevator repair method according to any one of claims 10 to 13, further comprising: The new equipment power supply process includes:
A ceiling equipment power supply step of electrically connecting a drum electrically connected to the power source of the machine room and a newly installed ceiling equipment via a power supply in the elevator car;
The elevator repair method according to claim 14, comprising: The new equipment power supply process includes:
A pit lamp power supply step for electrically connecting a power supply and a newly installed harness cable connected to the pit lamp in the machine room via a power supply;
The elevator refurbishing method according to claim 14 or 15, comprising: A machine room side power supply step for electrically connecting a power source and one side of the newly installed control cable via a machine room side power supply in the machine room of the elevator;
A car-side power supply step for electrically connecting the other side of the newly installed control cable and the newly installed ceiling equipment via a car-side power supply in the elevator car;
The elevator repair method according to any one of claims 10 to 13, comprising: At the time of repairing the elevator, a fan shielding step of shielding a new fan provided on the ceiling of the elevator car with a fan cover;
The elevator repair method according to any one of claims 10 to 17, further comprising:

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