JP5944079B2 - Emergency stop device - Google Patents

Description

  The present invention relates to an emergency stop device for stopping an industrial device with an operating part such as a crane in an emergency.

  In industrial equipment with an operating part such as a crane, in relation to the danger of the operating part approaching the human body, etc., in order to avoid the danger by stopping the operating part, An emergency stop function for forcibly stopping the equipment (hereinafter referred to as an emergency stop) is provided (hereinafter referred to as an emergency stop device). The emergency stop is performed by an emergency stop switch provided on an operation panel or console of industrial equipment.

  On the other hand, in recent years, functions equivalent to operation panels and consoles of industrial equipment have been realized with portable terminals (hereinafter referred to as operation terminals), and operations on emergency stop devices on the operating side can be performed via wired or wireless communication paths. There is an increase in industrial equipment that can be performed from connected operation terminals. At this time, an emergency stop switch is also provided in such an operation terminal.

  In the industrial equipment having such a configuration, when the emergency stop switch is not pressed, a signal (for example, a carrier wave) is always transmitted from the operation terminal to the emergency stop device, and when the emergency stop switch is pressed, the operation terminal Has been proposed (for example, Patent Document 1).

JP-A-10-29534

In the conventional emergency stop device, if the wireless communication path unintentionally falls into a state where it cannot receive a signal from the operation terminal side due to attenuation due to media disconnection, communication distance, or external interference, the signal is Since the operation is interrupted, the operation unit is stopped even if the emergency stop switch is not pressed.
As described above, when the emergency stop device cannot receive a signal from the operation terminal side, it is a preferable operation for safety to stop the operation unit regardless of the pressing state of the emergency stop switch.

However, in a factory or the like, the emergency stop device as described above frequently falls into a state where it cannot receive a signal from the operation terminal side, for example, because the communication path is exposed to high level noise.
Although it is preferable from the viewpoint of safety that the emergency stop device 6 stops the operation unit every time such a situation occurs, the operation unit is frequently stopped even in a state where it is not actually necessary to stop. , Significantly impair the availability of industrial equipment.

  The present invention has been made to solve the above-described problems. A switch for instructing stop of an operating unit in an industrial device, and a radio signal that is continuously transmitted when the stop is instructed by the switch. Output from the detection unit, a stop time calculation unit that calculates a stop time used to determine whether or not to stop the operation unit, based on the operation status of the operation unit, and the detection unit An emergency stop device comprising: a stop determination unit that stops the operation unit when the state in which the radio signal is not received is continued after the radio signal is not received until the stop time elapses. I will provide a.

  According to the present invention, it is possible to cope with an emergency stop without impairing the availability of industrial equipment.

It is an example which shows the system configuration | structure of the industrial equipment using the emergency stop apparatus in this Embodiment 1. It is an example which shows the structure of the operating terminal in this Embodiment 1. FIG. It is an example which shows the structure of the emergency stop apparatus in this Embodiment 1. FIG. It is a flowchart which shows operation | movement of the emergency stop apparatus in this Embodiment 1. It is an example which shows the structure of the emergency stop apparatus and industrial equipment in this Embodiment 2. FIG. It is a flowchart which shows operation | movement of the emergency stop apparatus in this Embodiment 2.

Embodiment 1 FIG.
FIG. 1 is an explanatory diagram illustrating an example of a system configuration of an industrial device using the emergency stop device according to the present embodiment.
In FIG. 1, reference numeral 1 denotes an industrial device having an operating unit 2.
The operation unit 2 is a device that operates, for example, various cranes, automatic conveyance vehicles, press machines, hoists, and the like. In addition, although FIG. 1 demonstrates the case where there is only one operation part 2, there may be a plurality.

The operation terminal 3 is a terminal for operating the industrial device 1 at a location physically separated.
The communication path 4 is used to connect the industrial device 1 and the operation terminal 3 by wireless communication.
The emergency stop operation unit 5 is provided in the operation terminal 3 and is used when an operator determines that a dangerous state has occurred such as a human body approaching the operation unit 2.
The emergency stop device 6 is connected to the emergency stop operation unit 5 via the communication path 4 and receives an instruction from the emergency stop operation unit 5. When the emergency stop device 6 receives a stop instruction from the emergency stop operation unit 5, the emergency stop device 6 outputs an instruction to the industrial device 1 to stop the operation unit 2.

There are several methods for the emergency stop operation unit 5 to output a signal indicating the state of the emergency stop operation to the communication path 4. In the present invention, any method can be used as long as the emergency stop device 6 can determine the state of the emergency stop operation unit 5 by observing a radio wave signal (hereinafter referred to as a signal) on the communication path 4. Also good.
For example, the emergency stop operation unit 5 may output a signal indicating whether or not an emergency stop operation is performed at regular time intervals (periodically), or may always output the signal to the communication path 4. Anyway.

FIG. 2 is an example showing a configuration of the emergency stop operation unit 5 in the present embodiment.
In FIG. 2, the emergency stop operation unit 5 includes a switch 51 and a detection unit 52.
The switch 51 is pressed when the operator determines that a dangerous state such as a human body approaching the operating unit 2 has occurred. The switch 51 outputs a state indicating whether or not the switch is pressed to the detection unit 52. It should be noted that the switch 51 may output a signal indicating that the switch 51 is pressed when it is pressed, or outputs a normal signal when the switch 51 is not pressed and blocks the signal when pressed. Also good.
The detection unit 52 outputs the state of whether or not the switch is pressed, which is output from the switch 51, to the communication path 4. When the switch 51 is not pressed, the detection unit 52 continuously transmits a signal indicating that the emergency stop operation is not performed (always or periodically). When the switch 51 is pressed, the detection unit 52 52 interrupts transmission of a signal indicating that an emergency stop operation is not performed.

FIG. 3 is an example showing the configuration of the emergency stop device in the present embodiment.
In FIG. 3, the emergency stop device 6 includes a stop determination unit 61, a measurement unit 62, and a stop time calculation unit 63.
The stop determination unit 61 receives the information of the switch 51 output from the detection unit 52 via the communication path 4.
The stop determination unit 61 checks whether or not the signal indicating that the switch 51 is not pressed is received during the elapse of the stop time t after the signal indicating that the switch 51 is not pressed is not received.
If the signal indicating that the switch 51 has not been pressed is not received while the stop time t has elapsed, the stop determination unit 61 stops the operation unit 2.
When a signal indicating that the switch 51 is not pressed is received during the stop time t, the stop determination unit 61 does not press the switch 51 but temporarily disconnects the communication path 4. Then, it is determined that the signal has not been received, and the operation of the operating unit 2 is continued.

The measuring unit 62 measures the speed of the operating unit 2 using a speedometer and outputs it to the stop time calculating unit.
In the present embodiment, the measurement unit 62 has been described as a part of the emergency stop device 6, but the measurement unit 62 may be a part of the industrial device 1, or the industrial device 1 and the emergency stop device 6. It may be independent from
Moreover, the information of the speed which the measurement part 62 outputs to the stop time calculation part 63 may be performed every fixed time (periodic), and may be always performed.

  The stop time calculation unit 63 calculates the stop time t from the speed output from the measurement unit 62 and outputs the stop time t to the stop determination unit 61.

  As a method of calculating the stop time t, there is a method of determining the stop time so that the idle running distance of the operating unit 2 is constant. For example, when the idling distance is set to 3 m and the speed of the operating unit is 1.5 m / s, the stop time t is 3 ÷ 1.5 = 2 seconds.

  The stop time calculation unit 63 may calculate the stop time t regardless of the measurement value (here, speed), or may be a method in which the measurement value reaches a predetermined value. Alternatively, a method may be used in which a change in measurement value (for example, a difference from the previous measurement value) reaches a predetermined value.

  Further, the timing at which the stop time calculation unit 63 outputs the stop time t to the stop determination unit 61 may be a fixed time (periodic), always, or even when there is an inquiry from the stop determination unit 61. good.

FIG. 4 is a flowchart showing the operation of the emergency stop device in the present embodiment.
In step S <b> 401, the stop determination unit 61 receives the switch information output from the emergency stop operation unit 5.

In step S402, the stop determination unit 61 determines whether or not the switch 51 is pressed. Note that the state where the switch 51 is pressed may be a state where a signal cannot be received.
When a signal indicating that the switch 51 has not been pressed is received (step S402: NO), the process ends.
When the signal indicating that the switch 51 is not pressed is not received (step S402: YES), in step S403, the stop time calculation unit 63 outputs information output by the measurement unit 62 (for example, the speed of the operating unit 2). Based on the above, the stop time t is calculated and output to the stop determination unit 61.

In step 404, the stop determination unit 61 determines whether or not a signal indicating that the switch 51 is not pressed is received while the stop time t elapses.
If the stop determination unit 61 receives a signal indicating that the switch 51 is not pressed during the stop time t (step S404: YES), the stop determination unit 61 ends.

If the stop determination unit 61 does not receive a signal indicating that the switch 51 has not been pressed during the stop time t (step S404: NO), in step S405, the stop determination unit 61 2 stop instruction is output to the industrial device 1.
The industrial device 1 stops the operation unit 2 when receiving the stop instruction output from the stop determination unit 61.

  In the present embodiment, the stop time calculation unit 63 uses the speed of the operating unit 2 output from the measurement unit 62 to calculate the stop time t. Similarly, the acceleration of the operating unit 2 is calculated. Can be used. Also, a combination of acceleration and speed can be used.

  As described above, when the emergency stop device 6 does not receive a signal indicating that the switch 51 has not been pressed because the signal from the operation terminal 3 cannot be received or the like, continues for a certain period of time. Regardless of the state of the switch 51, safety can be ensured by stopping the operation unit 2.

  In addition, the time from when the signal indicating that the switch 51 is not pressed is not received until the operating unit 2 is stopped is determined according to the state (for example, speed) of the operating unit 2, and the switch 51 is pressed. By determining how long it will not receive a signal indicating that it has not been done, the time to stop can be varied according to the degree of actual danger, which may actually lead to danger. Although the operating unit 2 is low (for example, the operating unit 2 is very low speed), it is possible to avoid stopping the operating unit 2, extend the operating time of the operating unit 2, and improve availability.

Embodiment 2. FIG.
In the first embodiment, the stop time calculation unit uses the speed or acceleration of the operating unit 2 or the speed and acceleration output from the measurement unit 62 to calculate the stop time t. In the present embodiment, A case where the distance between the operating unit 2 and an object existing in the vicinity is used will be described.
FIG. 5 is an example showing configurations of the emergency stop device 6 and the industrial equipment 1 in the present embodiment.

In FIG. 5, a sensor 64 is a distance sensor that operates together with the operation unit 2, uses infrared rays, ultrasonic waves, visible light, etc., evaluates or calculates reflections, and converts them into distances and outputs them.
In the present embodiment, it has been described that the sensor 64 is operated together with the operating unit 2. However, if the sensor 64 can specify the positions of both the operating unit 2 and an object existing in the vicinity, the sensor 64 other than the operating unit 2 is used. It may be a part of the industrial device 1, may be a part of the emergency stop device 6, or may be independent from the industrial device 1, the operating unit 2, and the emergency stop device 6.

In FIG. 5, the same reference numerals as those in FIG. 3 represent the same or corresponding parts, and components other than the stop time calculation unit 63 and the memory 64 are the same as those described in FIG. 3 used in the first embodiment. Do the same.
In the first embodiment, the stop time calculation unit 63 calculates the stop time t from the speed information output from the measurement unit 62. However, in the present embodiment, the stop time calculation unit 63 and the operating unit 2 output from the sensor 64 Use the distance to an object in the vicinity.

As a calculation method of the stop time, when the operating speed of the operating unit 2 is constant, for example, when the operating unit 2 is operating at a speed of 2 m per second and the allowable distance for safely stopping is 1 m, the operating unit If the distance between 2 and the object is 4 m, the stop time t is (4-1) ÷ 2 = 1.5 seconds.
Further, when the maximum operating speed of the operating unit 2 is 3 m / s, for example, the operating unit 2 is operating at a distance of 10 m from an object in the vicinity, and the allowable distance for safely stopping is 1 m. Even when the actual speed of the operating unit 2 is unknown, the stop time t is (10-1) ÷ 3 = 3 seconds.

FIG. 6 is a flowchart showing the operation of the emergency stop device in the present embodiment.
The operation in the second embodiment is the same as the procedure described in the first embodiment, and only the difference from the operation described in the first embodiment will be described below.

  In step 603, the stop time calculation unit 63 calculates the stop time t based on the information output from the sensor 64 (the distance between the operation unit 2 and an object existing in the vicinity of the operation unit 2), and sends the stop time t to the stop determination unit 61. Output.

  In the above example, the distance between the operating unit 2 and an object existing in the vicinity is used. Similarly, the distance between the area where the object can exist can be used. For example, a region where a worker may exist is set in advance, and the above determination is performed based on the distance to the region.

  Note that the stop time calculation unit 63 receives the information output from the measurement unit 62 described in the first embodiment and the information from the sensor 64 described in the present embodiment, and calculates the stop time. good.

  Moreover, in this Embodiment, although the sensor 64 is measuring the distance between the operation part 2 and the object which adjoins, for example, when there are two or more operation parts 2, the operation part which adjoins It may be a distance between.

  If the measuring unit 62 or the sensor 64 can detect the traveling direction of the operating unit 2, the stop time can be calculated from the relative speed between the plurality of operating units. For example, when both operating parts operate at a speed of 2 m / s, the maximum relative speed is 4 m / s, and if the distance between the two operating parts is 11 m, the stop time t Becomes (11-1) ÷ 4 = 2.5 seconds.

  As described above, when the emergency stop device 6 does not receive a signal indicating that the switch 51 has not been pressed because the signal from the operation terminal 3 cannot be received or the like, continues for a certain period of time. Regardless of the state of the switch 51, safety can be ensured by stopping the operation unit 2.

  Further, the time from when the signal indicating that the switch 51 is not pressed is not received until the operating unit 2 is stopped is determined according to the state (for example, distance) of the operating unit 2, and the switch 51 is pressed. By determining how long it will not receive a signal indicating that it has not been performed, the time to stop can be changed according to the degree of actual danger, and in reality there is a possibility that danger may arise. Even if the operating unit 2 is low (for example, the operating unit 2 is very far away from an object existing in the vicinity), it is possible to avoid stopping the operating unit 2, extending the operating time of the operating unit 2 and improving availability. be able to.

  DESCRIPTION OF SYMBOLS 1 Industrial equipment, 2 operation part, 3 operation terminal, 4 communication path, 5 emergency stop operation part, 6 emergency stop device, 51 switch, 52 detection part, 61 stop determination part, 62 measurement part, 63 stop time calculation part, 64 sensors.

Claims (5)

A switch for instructing the stop of an operating part in an industrial device;
When a stop is instructed by the switch, a detection unit that blocks transmission of radio signals that are continuously transmitted;
Based on the operating status of the operating unit, a stop time calculating unit that calculates a stop time used to determine whether or not to stop the operating unit;
A stop determination unit that stops the operating unit when the state in which the radio signal is not received is continued after the radio signal output from the detection unit is not received until the stop time elapses. Emergency stop device.   The emergency stop device according to claim 1, wherein the stop calculation unit calculates the stop time from the speed of the operating unit.   The emergency stop device according to claim 1, wherein the stop calculation unit calculates the stop time from the acceleration of the operating unit.   The emergency stop device according to claim 1, wherein the stop calculation unit calculates the stop time from a distance between the operation unit and an object existing in the vicinity of the operation unit.   The emergency stop device according to claim 4, wherein there are a plurality of operating units, and the stop time determination unit calculates the stop time based on a distance between the plurality of operating units.

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