JP6242959B1 - Elevator safety device - Google Patents

Abstract

A maintenance worker can safely perform work on a car. An inspection mode changeover switch provided on an elevator car for switching an elevator to an inspection operation mode at the time of maintenance and inspection work, and a safety belt to be worn by a maintenance worker on the body. A safety belt hook attached at a predetermined location in the vehicle, a sensor for detecting whether or not the safety belt hook is attached at the predetermined location, and signal reception provided on the car and receiving a signal emitted from the sensor And the reception signal of the signal receiver is input to detect the use state of the safety belt hook, and when the safety belt is used correctly, the operation mode is changed to the inspection operation mode and the manual operation by the maintenance worker is performed. And a controller that disables the elevator to enter the inspection operation mode when it is not possible to confirm that the safety belt is being used correctly. That. [Selection] Figure 1

Description

  Embodiments described herein relate generally to an elevator safety device.

  Maintenance and inspection of the elevator is performed by a maintenance worker riding on the elevator car and switching the operation of the car from the normal operation mode to the inspection operation mode. At that time, for safety, maintenance workers wear a safety belt to perform work.

  Conventionally, in order to prevent forgetting to wear a safety belt, there is a technology for determining whether the operation mode is a normal operation mode or a check operation mode that is operated by a manual operation of a maintenance worker during maintenance work from the amount of safety belt pulled out (Patent Document) 1). In addition, there is a technique in which an IC chip is attached to various protective equipment worn by a maintenance worker, and the operation of the elevator is stopped when the protective equipment is not worn (Patent Document 2).

JP 2014-001066 A Japanese Patent Application Laid-Open No. 2014-076882

  By the way, at the time of the inspection operation of the elevator, there is a switch for switching the elevator from the normal operation mode to the inspection operation mode when a maintenance worker gets on the car. However, it is possible for the maintenance worker to cancel the inspection operation mode while working on the car, and the maintenance worker shifts from the inspection operation mode to the normal operation mode even when the maintenance worker is working. Also occurs.

  In view of the above circumstances, an embodiment of the present invention is intended to provide an elevator safety device that enables a maintenance worker to safely perform work on a car.

  An embodiment for achieving the above object is provided on an elevator car, and in a maintenance inspection work, an inspection mode changeover switch for switching the elevator to an inspection operation mode, and a safety belt that a maintenance worker should attach to the body. A safety belt hook provided at a predetermined place during work on the car, a sensor for detecting whether the safety belt hook is attached at the predetermined place, and provided on the car, from the sensor A signal receiver for receiving a signal to be emitted, and detecting a use state of the safety belt hook by inputting a reception signal of the signal receiver, and when the safety belt is correctly used, shift to an inspection operation mode. When manual operation by the maintenance worker is possible and it is not possible to confirm that the safety belt is being used correctly, the elevator shifts to the inspection operation mode. It is characterized by comprising a control unit that disables the.

Explanatory drawing which shows the structure of the elevator safety device which concerns on embodiment. The block diagram which shows the control apparatus which comprises the elevator safety device which concerns on embodiment. Explanatory drawing which shows the structure of the safety belt which concerns on embodiment. Explanatory drawing which shows the structure of a safety belt hook. Explanatory drawing of the hook switch provided in the safety belt hook. The sequence diagram which shows operation | movement of 1st Embodiment. Explanatory drawing which shows the structure of a hook hanger. The sequence diagram which shows operation | movement of 2nd Embodiment. The sequence diagram which shows operation | movement of 3rd Embodiment. Explanatory drawing which shows the structure of the elevator safety device which concerns on 4th Embodiment.

<Configuration of Embodiment>
FIG. 1 is an overall configuration diagram of an elevator system including an elevator safety device according to an embodiment.

  The elevator system shown in FIG. 1 includes an elevator car 2 that moves up and down in a hoistway, a control device 4 that is installed in a machine room and controls the elevator, and a normal operation mode and an inspection operation mode that are provided in the control device 4. A control device inspection mode switching switch 6 for switching is provided. Further, the car top 2 a includes a car top operating panel 7, a car top inspection mode changeover switch 8 provided on the car top operating panel 7, and a safety belt signal receiver 10. The car inspection mode changeover switch 8 is a switch for switching between the normal operation mode and the inspection operation mode, like the control device inspection mode changeover switch 6. That is, the two inspection mode changeover switches 6 and 8 are switches for switching to the inspection operation mode twice when the maintenance worker 12 gets on the car 2a. The safety belt signal receiver 10 installed on the car top 2a is a device that operates when the control device inspection mode changeover switch 6 of the control device 4 is ON or when the car inspection mode changeover switch 8 is ON.

  A maintenance worker 12 working on the car 2a wears a safety belt 13. As shown in FIG. 3, the safety belt 13 includes a safety belt 14 that is wound around the body portion of the maintenance worker 12, a safety belt hook 16 that is attached to the safety belt 14 and has a mechanism that detects the open / closed state of the hook, A safety belt signal transmitter 18 that is attached to the safety belt 14 and transmits signal information of the safety belt hook 16 and a hook hanger 20 that hangs the safety belt hook 16 on the safety belt 14 when the safety belt hook 16 is not used. And.

≪Control device 4≫
FIG. 2 shows a schematic configuration of the control device 4. As shown in FIG. 2, the control device 4 includes an input unit 4a, a signal processing unit 4b, and an output unit 4c. In the input unit 4a, 9 bits of input unit terminals Bi0 to Bi8 are assigned as input unit terminals Bit terminals (hereinafter referred to as input unit terminals). The output unit 4c is assigned 11 bits of output unit terminals Bo0 to Bo10 as an output unit terminal Bit terminal (hereinafter, output unit terminal). Of the output unit terminals Bo0 to Bo10, 9 bits of the output unit terminals Bo0 to Bo8 output a signal to the drive control unit (not shown), and the remaining 2 bits of the output unit terminals Bo9 to Bo10 will be described later. Outputs the display signal to the display unit.

  The signal processing unit 4b generates an output signal corresponding to the input signal of the input unit 4a and supplies the output signal to the output unit 4c. Specifically, when the input signal of the input terminal Bi0 is “1”, the operation mode is the normal operation mode, and the normal operation mode signal “1” is supplied as an output signal to the output terminal Bo0. As a result, the elevator car 2 is in a mode of being driven in normal operation. When the input signal at the input terminal Bi1 is "1", the operation mode is the inspection operation mode, and the inspection operation mode signal "1" is supplied to the output terminal Bo1 as an output signal. Thereby, the elevator car 2 becomes an inspection operation mode in which the maintenance worker 12 manually moves up and down. When the input signal of the input unit terminal Bi2 is “1”, the operation mode is the operation stop mode, and the operation stop mode signal “1” is supplied to the output unit terminal Bo2 as an output signal. Thereby, it becomes an operation stop mode which makes manual operation of an elevator invalid. Here, when there are multiple input signals in the normal operation mode, the inspection operation mode, and the operation stop mode, the output signal of the output unit terminal having the highest value among the output unit terminals Bo0 to Bo2 is the output having the highest priority. And one operation mode. That is, the output unit terminals Bo0 to Bo2 are set to have the highest priority since the output unit terminal Bo2 in the operation stop mode has the highest numerical value. The next highest priority is the inspection operation mode signal of the output terminal Bo1, and the normal operation mode of the output terminal Bo1 is set in the order of the lowest priority.

  When the input signal (safety band closing signal) of the input unit terminal Bi3 is “1”, the safety band closing signal “1” is supplied to the output unit terminal Bo3 as an output signal. When the input signal (safety opening signal) at the input terminal Bi4 is “1”, the safety opening signal “1” is supplied as an output signal to the output terminal Bo4. When the input signal (hook hanger signal) of the input terminal Bi5 is “1”, the hook hanger signal “1” as an output signal is supplied to the output terminal Bo5. When the input signal (signal reception mode signal) of the input terminal Bi6 is “1”, the signal reception mode signal “1” as an output signal is supplied to the output terminal Bo6. When the input signal (up operation signal) of the input terminal Bi7 is “1”, the up operation signal is supplied as an output signal to the output terminal Bo7. When the input signal (down operation signal) of the input unit terminal Bi8 is “1”, the down operation signal “1” is supplied to the output unit terminal Bo8 as an output signal.

  The output terminal Bo9 indicates that it is in “operation stop mode” when an up operation signal is input from the input section terminal Bi7 or a down operation signal is input from the input section terminal Bi8 under the condition of “operation stop mode”. This is a display signal output unit terminal to output. The output unit terminal Bo10 is an indicator signal output unit that outputs “inspection operation mode” when an up operation signal is input from the input unit terminal Bi7 or a down operation signal is input from the input unit terminal Bi8. Terminal.

  The safety belt signal receiver 10 installed on the elevator car 2 in FIG. 1 operates when the control device inspection mode change switch 6 of the control device 4 is ON or when the on-car inspection mode change switch 8 is ON. Device.

  When the control device inspection mode change switch 6 or the on-car inspection mode change switch 8 is ON, the elevator operation mode is input to the input terminal Bi1 of the control device 4, and the output signal from the output terminal Bo1 Switch to inspection operation mode. At the same time, the output signal from the output unit terminal Bo1 of the control device 4 is input to the input unit terminal Bi6. When the input terminal Bi6 is received, the mode of the safety band signal receiver 10 is switched to the signal reception mode by a signal output from the output terminal Bo6. When in this signal reception mode, the safety band signal receiver 10 permits signal reception from the safety band signal transmitter 18.

≪Safety belt hook 16≫
As shown in FIG. 4, the safety belt hook 16 is pivotally supported by a hooking portion 16a attached to a hook attaching portion (not shown) installed on the car top 2a and a rotary shaft 16c, and is normally hooked. It comes into contact with the tip of the portion 16a, and comprises a detachment preventing portion 16b that is separated from the hooking portion 16a when a maintenance worker holds it. In addition, a hook switch 19 is built in the distal end portion of the locking portion 16b.

  The hook switch 19 is a spring-type ON / OFF switch, and an open / closed state can be determined by an ON / OFF signal. Specifically, as shown in FIG. 5, a push button 19a, a contact point 19b, and a spring 19c are provided, and the tip of the hooking portion 16a of the safety belt hook 16 always presses the push button 19a. The contact 19b is closed. In this state, a “safe band closing signal” is transmitted from the safety band signal transmitter 18 to the safety band signal receiver 10. On the other hand, when the maintenance worker 12 grasps the safety belt hook 16 and the detachment preventing portion 16b is separated from the tip of the hooking portion 16a, the push button 19a is released and the contact 19b is opened. In this state, a “safe band open signal” is transmitted from the safety band signal transmitter 18 to the safety band signal receiver 10.

≪Hook hanger 20≫
As shown in FIG. 6, the hook hanger 20 includes a hook body portion 20 a attached to the safety belt 14, a hook hook portion 20 b whose longitudinal section is configured in a J shape, and the safety belt hook 16 is hooked when not in use. , And a hook button 20c pivotally supported on the rotating shaft 20d. The hook hooking portion 20b also functions as a leaf spring that amplifies the pushing force when the safety belt hook 16 is hooked on the safety belt hook hanger 20.

  A hook hanger switch 21 is attached to the hook body 20a. The hook hanger switch 21 can be constituted by, for example, a spring-type switch having the same configuration as the hook switch 19 described above. Specifically, a push button 21a, a contact 21b, and a spring 21c are provided, and when the safety belt hook 16 is not used when the safety belt hook 16 is hooked, the safety belt hook 16 presses the push button 21a. 21b is in a closed state. In this state, a “hook hanger signal” is transmitted from the safety band signal transmitter 18 toward the safety band signal receiver 10. On the other hand, when the maintenance worker 12 removes from the hook hanging portion 20b, the push button 21a is released and the contact 21b is opened. In this state, transmission of the “hook hanger signal” from the safety band signal transmitter 18 is stopped. The “hook hanger signal” sent when the safety belt hook 16 is hooked on the safety belt hook hanger 20 is received by the safety belt signal receiver 10 from the safety belt signal transmitter 18. When the “safe hook signal receiver 10” is receiving the “hook hanger signal”, the input “1” is input to the input terminal Bi5 of the control device 4, and the “hook hanger signal” can be detected.

<Operation of Embodiment>
<< First Embodiment >>
FIG. 7 shows the operation of the first embodiment, in which the control for switching from the inspection operation mode to the operation stop mode is expressed by a relay sequence.

  When the control device inspection mode change switch 6 or the on-car inspection mode change switch 8 is ON, the elevator operation mode is input to the input terminal Bi1 of the control device 4, and the output signal from the output terminal Bo1 is Switch to inspection operation mode. At the same time, the output signal from the output unit terminal Bo1 of the control device 4 is input to the input unit terminal Bi6. When the input terminal Bi6 is received, the mode of the safety band signal receiver 10 is switched to the signal reception mode by a signal output from the output terminal Bo6. When in this mode, the safety band signal receiver 10 permits signal reception from the safety band signal transmitter 18.

  When the control device inspection mode changeover switch 6 is OFF, “1” is input to the input terminal Bi0 of the control device 4, and the normal operation mode signal is output from the output terminal Bo0, so that the elevator is in the normal operation mode. . When the control device inspection mode changeover switch 6 is switched to the inspection operation mode, “1” is input to the input terminal Bi1 of the control device 4 to enter the inspection continuous mode.

  The car inspection mode switching switch 8 provided on the car 2a of the elevator car 2 is a switch for switching to the inspection operation mode twice when getting on the car. When the inspection mode changeover switch 8 is switched to the inspection operation mode, “1” is input to the input terminal Bi1 of the control device 4 to enter the inspection operation mode.

  When the safety band signal receiver 10 receives the “safe band closing signal” via the safety band signal transmitter 18, the safety band signal receiver 10 outputs “1” to the input terminal Bi 3 of the control device 4. A signal is output from the output terminal Bo3 of the control device 4 to the “safe band closing signal” input contact 22, and the “safe band closing signal” input contact 22 is turned ON. By sending the inspection mode signal 23 to the input terminal Bi1 of the control device 4, the inspection operation mode can be maintained.

  When the maintenance worker 12 grasps the safety belt hook 16, as shown in FIG. 4B, the detachment preventing portion 16 b that is the moving portion is separated from the hook portion 16 a that is the fixed portion. Since the tip of the hooking portion 16a of the safety belt hook 16 is opened, as shown in FIG. 5, the push button 19a of the hook switch 19 is pushed by the spring 19c, and the contact 19b is opened, so that the conductive state is changed to the non-conductive state. Migrate to The state at this time is set as a “safety band opening signal” and transmitted from the safety band signal transmitter 18 to the safety band signal receiver 10. The safety band signal receiver 10 that has received the “safe band opening signal” outputs a signal indicating that the “safe band opening signal” has been detected to the input terminal Bi 4 of the control device 4. By detecting this “safety band opening signal”, an output signal for switching the operation mode of the elevator to the operation stop mode that prevents the elevator from moving even in the inspection operation mode is output from the output terminal Bo4.

  When working on the car 2a, the maintenance worker 12 performs the work by hooking the safety belt hook 16 to a predetermined place provided on the car 2a. However, when the maintenance worker 12 has to move the car top 2a, the safety belt hook 16 is once removed from the place where the safety belt hook 16 is hooked and moved to another location. When the safety belt hook 16 is moved, it is very defenseless. Even in the inspection operation mode, in the prior art, the car can be manually moved up and down, so another maintenance worker 12 moves the car, and the maintenance worker 12 moving on the car 2a loses balance. There was a possibility. Therefore, in the first embodiment, when the safety belt hook 16 is removed from a predetermined place provided on the car, the maintenance worker 12 detects this operation because the safety belt hook 16 is gripped, and stops the operation of the elevator. The above-mentioned danger can be avoided by using the operation stop mode.

  2 and 7, the inspection operation mode is selected by the inspection mode changeover switches 6 and 8, and the inspection operation mode is executed when the safety belt hook 16 is attached to a predetermined attachment location. It is assumed that the maintenance worker 12 removes the safety belt hook 16 to move to another place during the inspection operation mode. When the maintenance worker 12 grips the safety belt hook 16 and the detachment preventing portion 16b is separated from the tip of the hooking portion 16a, the push button 19a is released and the contact 19b is opened. In this state, a “safe band open signal” is transmitted from the safety band signal transmitter 18 to the safety band signal receiver 10. When the safety belt signal receiver 10 is receiving the “safe belt opening signal” signal, the safety belt opening signal “1” is supplied to the input terminal Bi 4 of the control device 4. At this time, the safety zone opening signal “1” is output from the output terminal Bo4, the contact 24 shown in FIG. 7 is closed (ON state), and the operation stop mode signal 25 is supplied to the input terminal Bi2 of the control device 4, The operation of the elevator car 2 is stopped by shifting to the operation stop mode.

  As described above, according to the first embodiment, when the maintenance worker 12 holds the safety belt hook 16, the elevator operation can be shifted from the inspection operation mode to the operation stop mode. Occurrence of a situation in which the maintenance worker 12 moving in 2a loses balance can be avoided in advance.

  For example, when a certain maintenance worker 12 removes the safety belt hook 16 for movement in a situation where a plurality of maintenance workers 12 are on the car 2a, the inspection operation is performed by grasping the safety belt hook 16. The mode can be surely shifted to the operation stop mode. For this reason, even when a situation occurs in which the maintenance worker 12 on the car 2a removes the safety belt hook from the predetermined mounting location on the car 2a for movement, the operation by another maintenance worker The situation where the elevator car 2 starts to move unexpectedly can be prevented.

<< Second Embodiment >>
FIG. 8 shows the operation of the second embodiment, in which the control for continuing the inspection operation mode when there is no “hook hanger signal” from the safety belt hook hanger 20 is expressed by a relay sequence.

  As described above, when the safety band hook 16 is hooked on the hook hanger 20, the hook button 20c is pressed, the push button 19a of the hook switch 19 is pressed, and the contact 19b is closed to be in a conductive state. The conduction signal is sent to the safety band signal transmitter 18 as a “hook hanger signal”. The “hook hanger signal” sent when the safety belt hook 16 is hooked on the safety belt hook hanger 20 is received from the safety belt signal transmitter 18 by the safety belt signal receiver 10. When the “hook hanger signal” is received, an input is input to the input terminal Bi5 of the control device 4, and the “hook hanger signal” can be detected.

  When the inspection operation mode is selected by the inspection mode changeover switches 6 and 8, the A relay 26 is activated and the A relay contact 28 is turned ON. When the safety belt hook 16 is detached from the hook hanger 20 and attached to a predetermined position on the car 2a, the contact 22 that operates with the safety belt closing signal “1” is in the ON state and the hook hanger signal is “0”. 34 becomes ON state.

  When the A relay contact 28 is turned ON, the B relay contact 32 is turned ON. In this state, even if the inspection mode change-over switches 6 and 8 are switched from the inspection operation mode to the normal operation mode, the inspection operation mode is maintained. That is, when the B relay contact 32 is turned ON by the operation of the B relay 30 as a holding circuit, the inspection mode change-over switches 6 and 8 are turned OFF (the inspection operation mode is stopped), and the inspection is performed even if the A relay 26 is inactivated. The input of the mode signal 23 to the input terminal Bi1 of the control device 4 is held, and the inspection operation mode is continued.

  When the safety band signal receiver 10 receives the signal “1” of the “hook hanger signal”, the “hook hanger signal” is output from the output terminal Bo5 of the control device 4 to the input contact 34, and the input contact 34 is in the 0FF state. Thus, the B relay 30 is deactivated and the B relay contact 32 is turned OFF. Thereby, the self-holding is canceled and the output of the inspection mode signal 23 is stopped. After switching the control device inspection mode change switch 6 and the on-car inspection mode change switch 8 to the normal operation mode, the input contact 34 of the “hook hanger signal” is set to 0FF to stop the signal of the inspection mode signal 23, When the input terminal Bi1 of the control device 4 becomes “0”, it is possible to shift to the normal operation mode. Thereby, it can transfer to normal operation mode on the conditions which the switch switched from inspection operation mode to normal operation mode. When there is no “hook hanger signal” from the safety belt hook hanger 20, the inspection operation mode is continued even when the normal operation mode is selected from the inspection operation mode state.

  In addition, when it transfers to driving | running | working stop mode with a safety belt open signal, the inspection mode signal is also output, but since driving | operation stop mode has a higher priority, driving | operation is stopped.

  As described above, according to the second embodiment, the maintenance mode switch 8 erroneously switches from the inspection operation mode to the normal operation mode while the maintenance worker 12 holds the safety belt hook 16 on the predetermined mounting location on the car 2a. Even in such a case, it is possible to prevent the shift to the normal operation mode until the safety belt hook 16 is housed in the safety belt hook hanger 20.

  If the inspection mode change-over switches 6 and 8 are accidentally released, the maintenance operation mode is maintained depending on the state of the safety belt hook 16 of the maintenance worker 12, so that the maintenance of the car top 2a is maintained. It is possible to prevent the shift to the normal operation mode with the worker 12 on board.

«Third embodiment»
FIG. 9 shows the operation of the third embodiment, and the control of the elevator according to the third embodiment is expressed by a relay sequence.

As described above, when the control device inspection mode switch 6 or the on-car inspection mode switch 8 is ON, the elevator operation mode is input to the input terminal Bi1 of the control device 4 and from the output terminal Bo1. Switch to the inspection operation mode by the output signal. At the same time, the output signal from the output unit terminal Bo1 of the control device 4 is input to the input unit terminal Bi6. When the input terminal Bi6 receives a signal , the mode of the safety band signal receiver 10 is switched to the signal reception mode by a signal output from the output terminal Bo6. When in this mode, the safety band signal receiver 10 permits signal reception from the safety band signal transmitter 18.

  As shown in FIG. 9, an inspection operation mode output signal is output as a control signal by the A relay 26 equivalent to the input of the input terminal Bi1. The A relay contact 28a representing the output terminal Bo1 is activated, and the signal reception mode signal 29 is input to the input terminal Bi6 of the control device 4. Thereby, the safety band signal receiver 10 can be switched to the signal reception mode in which the signal reception from the safety band signal transmitter 18 is permitted.

  The “safety band closing signal” input contact 22a, the “safety band opening signal” input contact 24a, and the “hook hanger signal” input contact 34a perform the safety band signal transmission described in the first and second embodiments in the input reception mode. The signal transmitted from the machine 18 to the safety band signal receiver 10 is input to the input unit terminal Bi3, the input unit terminal Bi4, and the input unit terminal Bi5 of the control device 4, and the output unit terminal Bo3, the output unit terminal Bo4, and the output unit. Operates with output from terminal Bo5.

As described above, according to the third embodiment, when a plurality of elevators having the above functions are adjacent to each other, the safety band signal receiver 10 receives the signal from the safety band signal transmitter 18 only in the signal reception mode. Since signal reception is permitted, it is possible to prevent an unintended operation stop mode or the like from being switched by a signal from an adjacent elevator .

<< Fourth Embodiment >>
FIG. 10 is an overall configuration diagram of an elevator according to the fourth embodiment. The difference from FIG. 1 is that the indicator 40, the control unit 70 for manually raising and lowering the elevator car 2 in the inspection operation mode, and the ascending operation in the inspection operation mode can be manually operated. It is provided with a button 71 and a down button 72 that enables a descending operation by manual operation. While the up button 71 is being input, an input is input to the input terminal Bi7 of the control device 4 and the elevator car 2 is raised at a low speed by a signal from the output terminal Bo7 under the condition that the inspection operation mode is set. Transition to low-speed ascending operation mode. When a signal from the down button 72 is input, a down operation signal “1” is input to the input unit terminal Bi8 of the control device 4, and under the condition that the inspection operation mode is set, the signal from the output unit terminal Bo8 Transition to a low-speed descent operation mode in which the elevator car 2 is lowered at a low speed.

  When the operation mode is the stop operation mode, the up button 71 and the down button 72 are input, and a signal is input to the input unit terminal Bi7 or Bi8 of the control device 4, but the signal output from the output unit terminals Bo7 and Bo8 is output. Impossible. As a result, the ascending / descending operation is disabled. When the up button 71 or the down button 72 is pressed under the condition that a signal is input to the input terminal Bi2 that is set to the stop operation mode, a display device signal is output from the output terminal Bo9. The output signal illuminates the display 40 and, for example, turns on the red lamp to inform the user that the current operation is in the “operation stop mode”.

  When the operation mode is “inspection operation mode”, when the up button 71 or the down button 72 is input, a display device signal is output from the output terminal Bo10. The output signal lights up the display 40, and, for example, lights up a green lamp to inform the user that the current “inspection operation mode” is set.

  That is, while the operation stop mode signal is output from the output terminal Bo2, even if the up operation signal is input from the input terminal Bi7 or the down operation signal is input from the input terminal Bi8, the output terminal Bo9 An indicator signal indicating that the operation is stopped is output. On the other hand, while the inspection operation mode signal is output from the output unit terminal Bo1, even if the up operation signal is input from the input unit terminal Bi7 or the down operation signal is output from the input unit terminal Bi8, An indicator signal indicating “inspection operation mode” is output.

  As described above, according to the fourth embodiment, it is possible to display whether the current operation mode is at least one of the normal operation mode, the inspection operation mode, and the operation stop mode. As a result, the maintenance worker 12 working on the car 2a can correctly recognize the current operation mode, and can prevent the occurrence of erroneous work.

<Other embodiments>
In the embodiment described above, a spring-type switch as shown in FIG. 5 is used as the hook switch 19, but is not limited thereto. Although illustration is omitted, for example, whether a safety belt hook 16 is hung at a predetermined position on the car by providing a surface pressure sensor inside the safety belt hook 16 and using a detection signal by this surface pressure sensor. You may make it judge. That is, when the safety belt hook 16 is hooked at a predetermined position on the car 2a, pressure is applied to the surface pressure portion by its own weight. When the resistance value of the surface pressure sensor decreases and the applied voltage value exceeds the threshold value, it can be determined that the safety belt hook 16 is hooked at a predetermined position on the car 2a. When the signal of the surface pressure sensor exceeds the set threshold value, it is determined that the safety band hook 16 is engaged, and the above-described “safety band closing signal” is transmitted from the safety band signal transmitter 18 to the safety band signal receiver. 10 and the received signal is input to the input terminal Bi3 of the control device 4 and is set to the “inspection operation mode” by the output terminal Bo1. When the signal of the surface pressure sensor does not exceed the threshold value, it is determined that the safety band hook has been removed, and the safety band signal transmitter 18 transmits the “safe band opening signal” to the safety band signal receiver 10. The received signal is input to the input terminal Bi4 of the control device 4 and is set to the “operation stop mode” by the output terminal Bo2. In addition, as a technique for preventing inadvertent switching to the operation stop mode due to a pressure change of the surface pressure sensor due to vibration or the like, it can be avoided by providing a delay circuit of several seconds.

  As mentioned above, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 2 ... Elevator car, 2a ... Car top, 4 ... Control apparatus, 4a ... Input part, 4b ... Signal processing part, 4c ... Output part, 6 ... Control apparatus inspection mode changeover switch, 7 ... Car top operation panel, 8 ... Car Upper inspection mode changeover switch, 10 ... Safety belt signal receiver, 12 ... Maintenance worker, 13 ... Safety belt, 14 ... Safety belt, 16 ... Safety belt hook, 16a ... Hook, 16b ... Retaining stopper, 16c ... Rotating shaft, 18 ... Safety belt signal transmitter, 19 ... Hook switch, 19a ... Push button, 19b ... Contact, 19c ... Spring, 20 ... Hook hanger, 20a ... Hook body, 20b ... Hook hook, 20d ... Rotating shaft 21 ... Hook hanger switch, 21a ... Push button, 21b ... Contact, 21c ... Spring, 22, 22a ... Input contact, 23 ... Inspection mode signal, 24, 24a ... Input contact, 25 ... Stop mode 26 ... A relay, 28 ... A relay contact, 28a ... relay contact, 29 ... signal reception mode signal, 30 ... B relay, 32 ... B relay contact, 34 ... input contact, 34a ... input contact, 40 ... display 70 ... Control unit 71 ... Up button 72 ... Down button

Claims (3)

An inspection mode selector switch for switching the elevator to the inspection operation mode during maintenance and inspection work;
A hook switch provided on a safety belt hook of a safety belt to be worn by a maintenance worker, and detecting whether or not the safety belt hook is mounted at a predetermined mounting position during work on the car;
A safety band signal transmitter for wirelessly transmitting a signal from at least the hook switch;
A safety band signal receiver which is provided on the car and receives a signal wirelessly transmitted from the safety band signal transmitter ;
The received signal from the safety belt signal receiver is input to detect the use state of the safety belt hook, and when the safety belt is correctly used, the elevator operation mode is shifted to the inspection operation mode, and the safety is correctly performed. When it is not possible to confirm that the belt is being used , the control unit that disables the transition to the inspection operation mode and sets the operation stop mode ,
With
The safety band signal receiver shifts to a signal reception mode that permits signal reception from the safety band signal transmitter only when the inspection mode changeover switch is operated to switch to the inspection operation mode. Elevator safety device. A hook hanger switch that is provided in the safety belt and detects whether the safety belt hook is housed in a hook hanger for housing the safety belt hook ;
The control unit inputs an output signal of the hook hanger switch via the safety belt signal receiver, and when the safety belt hook is not housed in the hook hanger, the control unit normally starts from the inspection operation mode. The elevator safety device according to claim 1, which has a function of making it impossible to shift to an operation mode. The elevator according to claim 1 or 2 , wherein an indicator for displaying whether the current operation mode is at least one of a normal operation mode, an inspection operation mode, and an operation stop mode is provided on the car. Safety device.

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