JP4903522B2 - Wireless operating device for work equipment - Google Patents

Description

  According to the present invention, a work machine main body is provided with an operated part and machine-side control means for controlling the operation of the operated part, and a plurality of types of operation commands regarding the operation of the operated part are controlled by the machine-side control. Manual operation type radio command means for commanding by means of a radio signal is provided, and the radio command means is configured to command the plurality of types of operation commands, and the command operation means to perform the plurality of types of command commands. It is configured to be switchable between an operating state in which a corresponding wireless signal is output when an operation command is issued, and a pause state in which the corresponding wireless signal is not output even when the plurality of types of operation commands are instructed by the command operation means. The present invention relates to a wireless operating device for a working machine that is configured to include output control means and an operation state switching means for switching the output control means between the operating state and the resting state.

  The wireless operating device for the working machine is located at a position away from the working machine main body, for example, when the operating part of the working machine is operated or when the operating part is stopped. It is used when operating the operation. The wireless command means commands the operation command for the operation of the operated part by radio signal, so that the operator can carry it to a position where it is easy to check the work status, While grasping, the operation of the operated portion of the work machine can be appropriately operated.

  For example, when a movable actuating part is provided as the operated part, the movable part is operated according to the work situation to appropriately perform work using the work implement, or the driving control part as the operated part. If the notification means is provided, the notification means is activated according to the work situation, and the driver on the work machine body can be called to perform joint work smoothly. It can be done.

  Also, when the operator decides not to use the wireless command means for a while and carries it in a pocket, etc., the command operation means of the wireless command means is erroneously operated due to some momentum, and the work machine body is covered. In order to prevent the operation of the operation unit from being operated unexpectedly, even if the command operation means of the wireless command means is erroneously operated by switching the output control means from the operating state to the sleep state by the operation state switching means, The output control means can be configured not to output a radio signal.

  As a conventional example of a wireless operating device for such a working machine, there is one in which the operation state switching means is constituted by a power switch that switches between supplying and not supplying power to the output control means of the wireless command means. (For example, refer to Patent Document 1).

  When the power supply switch is turned off, the output control means is not supplied with power when the power switch is turned off. Therefore, the output control means receives an operation command from the command operation means of the wireless command means. Even if commanded, the corresponding wireless signal is not output, that is, the sleep state is entered. Therefore, when the operator determines that the wireless command means is not used for a while, the command operation means of the wireless command means is erroneously operated by turning off the power switch of the wireless command means. In addition, it is possible to prevent the operated portion of the work machine body from operating unexpectedly.

JP 2003-325032 A

  However, with the above-described conventional configuration, once the output control unit is in a dormant state, even if the operation command is issued by operating the command operation unit of the wireless command unit, as long as the power switch is not turned on, it is possible to respond. No radio signal is output. For this reason, when the operation of the operated part needs to be operated urgently after the output control means has been switched to the sleep state, an operation command is issued without realizing that the operation has been switched to the sleep state. When the command operating means is operated as soon as possible, there is a problem that the operation of the operated part cannot be operated.

  For example, when it is necessary to stop the operation of the operation unit while the movable operation unit as the operated unit is in operation, the operator carrying the wireless command unit is in the dormant state. Without knowing that it has been switched to, when the command operation means is operated to command the stop command, the output control means is in a pause state, so the radio signal corresponding to the stop command is not output and the operation is The operation of the part cannot be stopped.

  Moreover, even if it responds calmly, after the power switch is turned on, a two-step operation such as instructing a stop command by the command operation means is necessary, and the operating unit cannot be stopped quickly. For this reason, if the operation of the operation unit is to automatically move the auger as the operation unit included in the combiner as the work machine to the storage position, foreseeing contact with the obstacle during the movement of the auger. When an operation for urgently stopping the operation of the operating part is performed, such as an emergency stop, it may take time until the stop command is issued, and there may be a problem that the operation part cannot be stopped in time. There was something.

  Further, for example, when it is urgently necessary to call a worker who operates the work implement body, the worker carrying the wireless command means commands a notification start command for starting the notification operation of the notification means. When the command operating means is operated, if the power switch has already been turned off and the output control means has been switched to the hibernation state, the radio signal corresponding to the notification start command is not output, and the notification means is activated. I can't. Therefore, in order to call an operator who operates the work implement main body, the power switch of the wireless command means is turned on to switch the output control means to the operating state, and then a notification start command is commanded by the command operation means. There is a disadvantage that two-step operation is required, and it is impossible to promptly call an operator on the work machine main body side.

  As described above, the conventional wireless operation device for a work machine is inconvenient when the operation command for the operated portion is issued. In other words, in the conventional wireless operating device of the work machine, it is possible to prevent unexpected operation of the operated part due to erroneous operation of the wireless command means, but considering the operability when operating the operated part urgently There was room for improvement in the operability of the wireless command means.

  The present invention has been made in view of the above circumstances, and its purpose is to prevent an erroneous operation of the operated part due to an erroneous operation of the wireless command means, while operating the operated part. It is in the point which provides the wireless operating device of the working machine which can aim at the improvement of property.

A wireless operating device for a working machine according to the present invention includes a work machine main body including an operated part and machine body side control means for controlling the operation of the operated part. Manual operation type wireless command means for commanding various operation commands to the airframe side control means by radio signals is provided, and the wireless command means is command operation means for commanding the plurality of types of operation commands; An operating state in which a corresponding radio signal is output when the command operation means is commanded by the plurality of types of operation commands, and a corresponding radio signal is not output even if the command operation means is commanded by the plurality of types of operation commands. A wireless operating device for a working machine comprising output control means configured to be switchable between a resting state and an operation state switching means for switching the output control means between the operating state and the resting state. The first feature configuration is that the operation state switching means is a specific specific operation command among the plurality of types of operation commands by the command operation means when the output control means is in the pause state. Is commanded, the output control means is configured to switch to the operating state, and as the operated part, a calling notification means provided in a driving control part of the work machine body is provided, The command operation means is configured to command a notification start command for starting the notification operation of the notification means and a notification stop command for stopping the notification operation of the notification means, and the operation state switching means is the output control means. The output control means is configured to be switched to the operating state when the notification start instruction as the specific operation instruction is instructed by the instruction operation means in the pause state. It lies in the fact that is.

  According to the first characteristic configuration of the present invention, when the specific operation command is instructed by the command operation unit when the output control unit is in the pause state, the operation state switching unit switches the output control unit to the operating state. Even if the control means is in a resting state, if a specific operation command is commanded by the command operation means, a radio signal corresponding to the specific operation command is output.

  Therefore, if the output control means is in the pause state and the operation command is issued by the command operation means unless the operation control is switched, the operation is commanded by the specific operation command when the corresponding radio signal is not output. When it becomes necessary to operate the operated part urgently, the operation of the operated part is operated only by the operation of instructing the specific operation command without performing a separate operation for switching the output control means to the operating state. be able to.

  That is, even if the output control means is switched to the pause state so that the operated part is not operated unexpectedly due to an erroneous operation of the command operation means, the worker is the same as when the operation command is issued in the operating state. Since the operation of the operated part operated by the specific operation command can be operated by the operation, it is necessary to perform a different operation depending on the operation state of the output control means when operating the operated part. In other words, it is only necessary to perform an operation for instructing the specific operation command without being aware of the operation state of the output control means.

As described above, according to the first characteristic configuration of the present invention, it is possible to prevent an erroneous operation of the operated portion due to an erroneous operation of the wireless command means, and to improve operability when operating the operated portion. It came to obtain the wireless operating device of the work machine which can be done.
Further, according to the first characteristic configuration of the present invention, when the notification operation command is instructed by the command operation means when the output control means is in the pause state, the operation state switching means switches the output control means to the operating state. Even if the output control means is in a pause state, if a command start command is commanded by the command operation unit, a radio signal corresponding to the report start command is output.
Therefore, in the state where the output control means is in a dormant state and the operation command is instructed by the command operation means unless it is switched to the operating state, the notification operation of the notification means is urgently started. When the necessity arises, the notifying operation of the notifying means can be started only by the operation of instructing the notifying start command without performing a separate operation for switching the output control means to the operating state.
In other words, even if the output control means is switched to the pause state in order to prevent the notification means from being inadvertently activated due to an erroneous operation of the command operation means, the operator may issue a notification start instruction in the operating state. Since the notification operation of the notification means can be started by a similar operation, when the notification operation of the notification means is started, there is no need to perform a different operation depending on the operation state of the output control means. What is necessary is just to perform operation only to instruct | indicate an alerting | reporting start command, without being conscious of an operation state.
As described above, according to the first characteristic configuration of the present invention, it is possible to prevent malfunction of the notifying means due to erroneous operation of the wireless command means, but to improve operability when starting the notifying operation of the notifying means. It came to obtain the wireless operation device of the work machine which can be.

  According to a second characteristic configuration of the present invention, in the first characteristic configuration of the present invention, the operation state switching means switches between the operation state and the hibernation state by intermittently supplying power to the output control means. There is in point.

  According to the second characteristic configuration of the present invention, when the output control unit is switched to the hibernation state by the operation state switching unit, power is not supplied to the output control unit, so when the output control unit is in the hibernation state, The power consumption of the wireless command means is reduced. Therefore, when the wireless command means is not used, switching the output control means to the hibernation state can reduce wasteful power consumption, and the power source for operating the wireless command means (for example, a dry battery or a rechargeable battery). Battery, etc.) can last longer.

  Thus, according to the second characteristic configuration of the present invention, it is possible to prevent an erroneous operation of the operated part due to an erroneous operation of the wireless command means, and to improve operability when operating the operated part. In addition, it has resulted in a wireless operating device for a work machine having good maintainability in that it is possible to perform work such as battery replacement and rechargeable battery charging as much as possible.

According to a third characteristic configuration of the present invention, in the second characteristic configuration of the present invention, the wireless command means is a manual operation for commanding an operation command for setting the output control means to the operating state and a pause command for setting the hibernation state. The operation state switching means is configured to provide the output control means with the operating state and the operation command based on the operation command and the pause command instructed by the on / off command device. When the output control means is switched to the resting state and none of the plurality of operation commands by the command operating means are continuously commanded for a set time in the operating state of the output control means, the output control means is automatically set to the resting state. It is in the point which is comprised so that it may switch to.

According to the third characteristic configuration of the present invention, the operator can put the output control means in a paused state by operating the on / off command means to give a pause command. In addition, when the operator does not command any of the plurality of types of operation commands by the command operation unit for a set time, the output control unit is automatically switched to the resting state by the operation state switching unit. Therefore, not only when the operator consciously operates the on / off command means, but also when the operator does not operate the on / off command means, the erroneous operation of the operated part due to the erroneous operation of the command operation means is prevented or wasted. Power consumption can be reduced.

  Then, when the output control means is in a resting state, when the operator commands a specific operation command, the output control means returns to the operating state, and a radio signal corresponding to the specific operation command is output from the wireless command means. Therefore, even if the output control means is automatically switched to the hibernation state by the operation state switching means and the operator does not recognize that the output control means is in the hibernation state, the operation of the operated portion is performed. When it becomes necessary to operate the operation unit, the operation of the operated part can be operated by operating the command operation means to command a specific operation command.

  As described above, according to the third characteristic configuration of the present invention, it is possible to prevent an erroneous operation of the operated portion due to an erroneous operation of the wireless command means, and to improve the operability when operating the operated portion. In addition, even when the output control means is automatically switched to the hibernation state in order to prevent erroneous operation of the wireless command means and to save power, the specific operation command is not conscious of the operating state of the output control means. As a result, a wireless operating device for work machines that can accurately and quickly be commanded has been obtained.

The fourth characteristic configuration of the present invention, in any one of the first to third feature structure present invention, as the operated portion, provided with a hydraulic unit movable, the previous SL directive operation means, the actuating portion is configured to control command and operation of the actuating portion of the operation of such commands the stop command to stop, before kidou operation state switching means, when the output control means is in the dormant state, the instruction operation The output control unit is configured to be switched to the operating state both when the stop command as the specific operation command is commanded by the unit and when the notification start command is commanded . In the point.

According to a fourth aspect of the present invention, even if the notification start command be commanded stop command at the command operation means is commanded when the output control means is dormant, the operation state switching means is an output control means Since the operation is switched to the operating state, even if the output control means is in a pause state, if a stop command or a notification start command is commanded by the command operation means, a radio signal corresponding to the stop command or the notification start command is output. .

Therefore, it is necessary to urgently stop the operation of the operating unit in a state where the output control means is in a pause state and the corresponding radio signal is not output even if the command operation means is commanded unless the operation is switched to the operation state. If there is a need to start the notification operation of the notification means urgently, an operation for instructing a stop command or a notification start command without performing a separate operation for switching the output control means to the operating state. only be possible to stop the operation of the operating unit, it is also possible to initiate the notification operation of the notification means.

  In other words, even if the output control means is switched to the pause state in order to prevent the operating section and the notification means from being unexpectedly operated due to an erroneous operation of the command operation means, the operator can stop the command or start the notification in the operation state. The operation of the operating unit can be stopped or the notification operation of the notification unit can be started by the same operation as in the case of instructing the operation, so that the operation of the operation unit is stopped or the notification unit starts the notification operation. In this case, it is not necessary to perform a different operation depending on the operation state of the output control means, and it is sufficient to perform an operation only for instructing a stop command or a notification start command without being aware of the operation state of the output control means.

As described above, according to the fourth characteristic configuration of the present invention, the operability and notification when the operation of the operation unit is stopped can be prevented while malfunctioning of the operation unit and the notification unit due to erroneous operation of the wireless command unit can be prevented. It came to obtain the wireless operating device of the working machine which can aim at the improvement of operativity in the case of starting the alerting | reporting operation | movement of a means.

[Reference form]
Hereinafter, a reference embodiment of a wireless operating device for a working machine according to the present invention will be described with reference to the drawings, taking an example applied to a combine as a working machine.

  As shown in FIGS. 1 and 2, the combine is attached to the front part of the machine body V provided at the upper part of the pair of left and right crawler travel devices 1 in a state in which the cutting part 3 can swing around the horizontal axis. In the machine body V, the control unit 2, the threshing unit 4 for threshing and sorting the harvested cereal, the grain tank 5 for storing the grains sorted and recovered by the threshing unit 4, and the grain tank 5 are stored. A grain discharge auger 9 for discharging the grain out of the machine is equipped.

  A bottom screw conveyor 7 is provided at the bottom of the grain tank 5 along the front-rear direction, and a vertical feed screw conveyor 8 is extended from the conveying terminal end of the bottom screw conveyor 7 in a state where the bevel gear is linked upward. In the upper part of the vertical feed screw conveyor 8, the grain discharging auger 9 is swingable around the horizontal axis P1 and swiveled around the vertical axis P2 while being linked to the bevel gear. Equipped with. FIG. 2 shows a state in which the grain discharging auger 9 is swung to the storing turning position HP, and the grain discharging auger 9 is lowered and stored in the state swung to the storing turning position HP. The grain discharge auger 9 is stored by being received by the receiving tool 30 as a holding tool.

  An output pulley 13 </ b> A of a belt tension type discharge clutch 13 that intermittently transmits power to the bottom screw conveyor 7 from the engine E provided at the right front part of the machine body is attached to the conveyance start end of the bottom screw conveyor 7. Further, the vertical feed screw conveyor 8 includes a vertical conveyor screw 8A linked to the bottom screw conveyor 7 via a bevel gear, and a cylindrical case 8B that covers and is connected to the grain tank 5 in communication.

  The grain discharging auger 9 (hereinafter simply referred to as an auger) includes an auger screw 9A and an outer case 9B covering the auger screw 9A. The outer case 9B is connected in communication with the cylindrical case 8B of the vertical conveyor screw 8A via the rotary case 6. The rotary case 6 is relative to the cylindrical case 8B of the vertical feed screw conveyor 8 around the vertical axis P2. While being connected so that rotation is possible, it is connected to the exterior case 9B of the grain discharge auger 9 so that relative rotation is possible around the horizontal axis P1.

  An electric motor M1 for clutch operation (see FIG. 5) for switching the discharge clutch 13 between the on state and the off state is provided, and this electric motor M1 for clutch operation (hereinafter abbreviated as a clutch motor). Is driven in the forward direction so that the discharge clutch 13 is switched to the engaged state, and the clutch motor M1 is driven in the reverse direction to switch the discharge clutch 13 to the disconnected state.

  When the discharge clutch 13 is switched to the on state, the bottom screw conveyor 7, the vertical screw conveyor 8 and the auger 9 are driven by the power of the engine E transmitted via the discharge clutch 13 and stored in the grain tank 5. When the discharged grain is discharged from the grain discharge port 10 at the tip of the auger 9 and the discharge clutch 13 is switched to the disconnected state, the bottom screw conveyor 7, the vertical screw conveyor 8 and the auger 9 are driven. It is configured to be in a stopped state where the grain is stopped and the grain is not discharged from the grain outlet 10 at the tip of the auger 9.

  The drive structure for the turning operation of the auger 9 will be described. As shown in FIG. 3, as shown in FIG. An electric motor M2 for turning which rotates 12 is fixed to the vertical feed screw conveyor 8, and as the electric motor M2 for turning (hereinafter abbreviated as a turning motor) is driven forward and backward, the auger 9 is moved along the vertical axis. A turning operation is performed around P2, and the turning is stopped when the turning motor M2 is stopped. In the figure, Ry is a turning position detection sensor using a multi-rotation type potentiometer for detecting the turning position of the auger 9 and rotates simultaneously with the large-diameter gear 11 for turning driving by a gear 12 driven by a turning motor M2. It is designed to be operated dynamically.

  As shown in FIG. 2, the turnable range is set in advance, and the auger 9 has reached the left limit position LE and the right limit position RE of the turnable range based on the detection information of the turn position detection sensor Ry. In some cases, the turning motor M2 is controlled so that the turning of the auger 9 is automatically stopped.

  Next, the drive configuration of the raising / lowering operation of the auger 9 will be described. As shown in FIG. 3, a raising / lowering hydraulic cylinder 15 is provided between the base end portion of the auger 9 and the rotating case 6. As the hydraulic cylinder 15 is extended, the auger 9 is lifted around the horizontal axis P1, and as the lifting hydraulic cylinder 15 is shortened, the auger 9 is lowered around the horizontal axis P1. It is configured. An upper limit switch 14 that is turned on when the auger 9 is at the upper limit position of the lifting operation range is provided.

  As described above, this combine is provided with the auger 9 as an operating part that can be swung and raised and lowered and can be switched between a grain discharging state and a discharging stopped state, and a swivel raising and lowering drive that turns and turns the auger 9 A turning motor M2 and a lifting hydraulic cylinder 15 as means, and a clutch motor M1 as a discharge driving means for switching between a grain discharging state and a discharging stop state are provided.

  The control unit 2 is provided with a lever-type operation unit 20 for instructing operation commands for turning and raising / lowering the auger 9. The operation unit 20 on the combine body side will be described. As shown in FIG. 4, an operation lever 20A that is urged so as to return to the center position and can be swung in the front-rear direction and the left-right direction is provided. In the state where the operation lever 20A is tilted forward, the ascent command switch S1 is turned on to command the ascent command, and in the state where the operation lever 20A is tilted toward the near side, the descend command switch S2 is actuated and the descend command is issued. When the operation lever 20A is tilted to the left, the right turn command switch S3 is turned on and a right turn command is commanded. When the operation lever 20A is tilted to the right, the left turn command switch S4 is turned on. In operation, a left turn command is issued (see FIG. 5). Further, in the state where the operation lever 20A is returned to the center position, commands for turning operation and raising / lowering operation of the auger 9 are not instructed. It is possible to return to the center position by releasing the finger from the position and stop the ascending command, descending command, left turn command, and right turn command.

  As shown in FIGS. 2 and 5, an automatic switch 21 for instructing a movement command for automatically moving the auger 9 to the storage position or the target discharge position is provided near the operation unit 20, and the movement A stop switch 22 for instructing a movement stop command for stopping the auger 9 therein, a discharge position setting volume 23 for setting the target discharge position, and a grain for instructing the start of the grain discharge operation of the auger 9 A clutch on / off switch 24 composed of a two-position switching toggle switch for instructing a discharge command or a discharge stop command for commanding stop of the grain discharge operation of the auger 9 is provided.

  When the clutch on / off switch 24 is located at the off position, the discharge clutch 13 is turned off, and when the clutch on / off switch 24 is located at the on position, the discharge clutch 13 can be turned on. Therefore, a grain discharge command is commanded by switching the clutch on / off switch 24 from the off position to the on position, and a discharge stop command is commanded by switching the clutch on / off switch 24 from the on position to the off position.

  The combine main body is provided with a microcomputer-based control device H as a machine-side control means, and the control device H includes the turning position detection sensor Ry, the upper limit switch 14, and the command switches S1, S2 of the operation unit 20. , S3, S4, the automatic switch 21, the stop switch 22, the discharge position setting volume 23, and the clutch on / off switch 24 are input through wires, and control corresponding to the operation of the command switches is executed. Is configured to do.

  That is, the control device H raises the lifting hydraulic cylinder 15 to raise the auger 9 when the raising command switch S1 is turned on and the raising command is instructed when the operation lever 20A is tilted forward. When the lowering command switch S2 is turned on and the lowering command is commanded when the operation lever 20A is tilted rearward, the lifting hydraulic cylinder 15 is lowered to lower the auger 9. When the operation lever 20A is tilted to the left side and the right turn command switch S3 is turned on to issue a right turn command, the turning motor M2 is turned to the right in order to turn the auger 9 to the right. When the operation lever 20A is tilted to the right side and the left turn command switch S4 is turned on to issue a left turn command, the auger 9 is turned to turn left. Actuating the over data M2 to the left turning side.

  Further, when the movement command is instructed, the control device H determines whether or not the auger 9 is located at the storage position based on detection information from the turning position detection sensor Ry and the like, and according to the position of the auger 9. Thus, in order to automatically move the auger 9 to the retracted position or the target discharge position, the operations of the lifting hydraulic cylinder 15 and the swing motor M2 are controlled.

  That is, when the automatic switch 21 is pushed and a movement command is issued, the control device H, when the auger 9 is located at the retracted position, moves the lifting hydraulic cylinder to move the auger 9 to the target discharge position. 15 and the swing motor M2 are operated, and when the auger 9 is located at the discharge position, the lifting hydraulic cylinder 15 and the swing motor M2 are operated to move the auger 9 to the retracted position.

  Further, the control device H is configured to turn the auger 9 into a grain discharge state when a grain discharge command is commanded, and to set the auger 9 into a discharge stop state when a discharge stop command is commanded. It is configured to control the operation of the motor M1.

  That is, when the clutch on / off switch 24 is switched from the off position to the on position and a grain discharge command is issued, the control device H rotates the clutch motor M1 in a forward direction so that the auger 9 is in a grain discharge state. When the clutch on / off switch 24 is switched from the on position to the off position and a discharge stop command is instructed, the clutch motor M1 is driven in the reverse direction so that the auger 9 is in the discharge stop state.

  Thus, the main body of this combine is a stop command such as an auger 9 lift command, a descend command, a left turn command, a right turn command, a move command and a grain discharge command, and a stop command and a discharge stop command. As a command means on the airframe side for instructing a command, an operation lever 20A, an automatic switch 21, a stop switch 22, and a clutch on / off switch 24 are provided. It is comprised so that the command which switches to a grain discharge | emission state may be commanded.

  And in this combine, the radio | wireless of the manual operation type which instruct | commands the stop command which stops the control instruction | command about the turning raising / lowering operation | movement and grain discharge | emission operation | movement of the auger 9, and the turning | lifting raising / lowering operation | movement and grain discharge | emission operation | A wireless remote controller 42 is provided as a formula command means. The wireless remote controller 42 is mainly used when an operator in the vicinity of the grain transporting vehicle N operates when performing a grain discharging operation to the grain transporting vehicle N.

  More specifically, as shown in FIG. 6 and FIG. 7, the wireless remote controller 42 is configured as a small and lightweight device so that the operator can easily carry it. It is configured to transmit as a radio signal corresponding to each of a control command and a stop command as a plurality of operation commands commanded by a switch.

  The wireless remote controller 42 includes an ascending command switch 43 that commands an ascending command to raise the auger 9, a descending command switch 44 that commands a descending command that lowers the auger 9, and a left turn that activates the auger 9 to turn left. A left turn command switch 45 for instructing a command, a right turn command switch 46 for instructing a right turn command for causing the auger 9 to turn right, and a movement command for automatically moving the auger 9 to the storage position or the target discharge position. An automatic switch 47 for commanding, a call switch 48 for commanding a call command for ringing the call alarm 16 provided in the control unit 2 of the combine body, and a discharge switch for commanding a grain discharge command for starting the grain discharging operation of the auger 9 49, Stop for instructing a remote stop command for stopping the turning up and down operation of the auger 9 and stopping the grain discharging operation of the auger 9 Switch 50, a power switch 51 for switching the on-off of power supply are provided respectively.

  Each of these switches is configured to be urged to return to an off state so that it is turned on when a finger is pressed and turned off when the finger is released. The power switch 51 is provided with a pilot lamp 52 that lights up when the power is on.

  The wireless remote controller 42 oscillates a signal having a specific frequency that is set differently for each switch when the switch is turned on in response to the operation of each switch for command. A signal transmitter 53 is provided as output control means for transmitting a signal as a radio wave having a constant output via the transmission antenna 54, and a battery 55 for supplying power to them.

  That is, when the lift command switch 43 is pressed and turned on, a lift command is issued by transmitting a radio signal having a frequency corresponding to the lift command, and when the finger is released from the lift command switch 43, the lift command switch 43 is lifted. The transmission of the radio signal having the frequency corresponding to the command is completed, and the ascending command is stopped.

  When the lowering command switch 44 is pressed and turned on, a lowering command is issued by transmitting a radio signal having a frequency corresponding to the lowering command, and when the finger is released from the lowering command switch 44, the lowering command switch 44 is turned off. The transmission of the radio signal of the corresponding frequency is finished, and the descending command is stopped.

  When the left turn command switch 45 is turned on by pushing it with a finger, a left turn command is instructed by transmitting a radio signal having a frequency corresponding to the left turn command, and when the left turn command switch 45 is released and turned off. Then, the transmission of the radio signal having the frequency corresponding to the left turn command is finished, and the left turn command is stopped.

  When the right turn command switch 46 is pressed and turned on with a finger, a right turn command is commanded by transmitting a radio signal having a frequency corresponding to the right turn command, and the right turn command switch 45 When it is turned off, the transmission of the radio signal having the frequency corresponding to the right turn command is finished, and the right turn command is stopped.

  The left turn command switch 45 is provided on the right side facing the front of the wireless remote controller 42, and the right turn command switch 46 is provided on the left side facing the front of the wireless remote control 42 and is displayed on both command switches. The contents of each are opposite to the installation position of each command switch. This is because the turning direction in the right turning operation and the left turning operation is defined based on a reference in which the forward direction of the combine is the 12 o'clock direction, and the turning direction that is turned by each command switch is based on the definition of the turning direction. On the other hand, when the operator who uses the wireless remote controller 42 commands the turning operation of the auger 9 from the front end side of the auger 9 at a position away from the combine main body, the switch is arranged at a position that is easily grasped intuitively. This is because each command switch is arranged so that a turning operation can be commanded by operating.

  When the automatic switch 47 is pressed and turned on, a movement command is issued by transmitting a radio signal having a frequency corresponding to the movement command. When the automatic switch 47 is released and turned off, the movement command is handled. The transmission of the frequency radio signal ends and the movement command stops.

  When the call switch 48 is pressed and turned on, a call command is issued by transmitting a radio signal having a frequency corresponding to the call command. When the call switch 48 is released and turned off, the call command is supported. The transmission of the radio signal with the frequency ends and the calling command is stopped.

  When the discharge switch 49 is pressed and turned on, a radio signal having a frequency corresponding to the grain discharge command is transmitted to instruct the grain discharge command. When the finger is released from the discharge switch 49 and turned off, Transmission of a radio signal having a frequency corresponding to the grain discharge command is terminated, and the grain discharge command is stopped.

  When the stop switch 50 is pressed and turned on, a radio signal having a frequency corresponding to the remote stop command is transmitted to instruct a remote stop command. When the stop switch 50 is released and turned off, the remote stop command is issued. The transmission of the radio signal having the frequency corresponding to the above is terminated and the remote stop command is stopped.

  Thus, the wireless remote controller 42 commands the ascending command, the descending command, the left turn command, the right turn command, the movement command and the grain discharge command as a control command, and the remote stop command as a stop command. As operating means, an ascending command switch 43, a descending command switch 44, a left turn command switch 45, a right turn command switch 46, an automatic switch 47, a discharge switch 49, and a stop switch 50 are provided. A command for turning and raising / lowering 9 and a command for switching from at least the discharge stop state to the grain discharge state are instructed.

The above commands as the control command and the stop command correspond to a plurality of operation commands of the present invention. Moreover, although mentioned later in detail, in this form , a remote stop command is equivalent to the specific operation command of this invention among these several operation commands.

  The battery 55 and the signal transmitter 53 are connected via a power supply control circuit 56. When the power supply control circuit 56 is in a power supply state, power is supplied from the battery 55 to the signal transmitter 53, and the signal transmitter. 53 is in an operating state and can output a radio signal. However, if the power control circuit 56 is in a power cutoff state, power is not supplied from the battery 55 to the signal transmitter 53, and the signal transmitter 53 is suspended. It will be in a state which cannot output a radio signal. That is, the power supply control circuit 56 functions as an operation state switching unit that switches between an operating state and a hibernation state by intermittently supplying power to the signal transmitter 53.

  As described above, the wireless remote controller 42 includes the signal transmitter 53 as output control means and the power supply control circuit 56 as operation state switching means.

  The power supply control circuit 56 is switched between the power supply state and the power cut-off state by operating the power switch 51 to turn on and off, and issuing an operation command and a pause command. Specifically, when the power control circuit 56 is in the power cut-off state, if the power switch 51 is pressed and held for 0.5 [seconds] or longer, the power control circuit 56 switches to the power supply state, and the power control When the circuit 56 is in the power supply state, if the power switch 51 is pressed and held for 0.5 [seconds] or longer, the power control circuit 56 switches to the power cut-off state. The pilot lamp 52 provided with the power switch 51 is controlled to be turned on and off by the power supply control circuit 56 so that it is turned on when the power is supplied.

  As described above, an operation command and a pause command are commanded by turning on / off the power switch 51, and the power control circuit 56 is configured to switch the signal transmitter 53 between the running state and the sleep mode based on these commands. Has been. Therefore, the power switch 51 functions as an on / off command means.

  Further, the power supply control circuit 56 operates in the operating state of the signal transmitter 53, the ascending command switch 43, the descending command switch 44, the left turn command switch 45, the right turn command switch 46, the automatic switch 47, the call switch 48, and the discharge switch 49. Any of the ascending command, the descending command, the left turn command, the right turn command, the movement command, the grain discharge command, and the remote stop command by entering the no-operation state where none of the stop switches 50 are operated. When the state where no command is issued continues for a set time, the signal transmitter 53 is automatically switched to a sleep state.

In other words, the signal transmitter 53 executes the no-operation time monitoring process in the operating state, and the above-described no-operation state continues based on the above-described control command and stop command, that is, the presence / absence of the operation command. If the non-operation state continues for the set time (3 minutes in this embodiment ), it is determined that the wireless remote controller 42 is not being used, and the power control circuit 56 is in the power cut-off state. By instructing the power supply control circuit 56 to switch to the power supply control circuit 56, the power supply control circuit 56 can switch to the hibernation state based on the command issued by itself.

  According to the configuration as described above, the signal transmitter is automatically generated even when the operator consciously turns off the power switch 51 and also when no operation state is operated for 3 minutes without any operation switch being operated. 53 can be switched to a dormant state, and when the wireless remote controller 42 is not operated, the auger 9 can be prevented from operating unexpectedly due to an erroneous operation, and power saving of the wireless remote controller 42 can be achieved. it can.

  In addition, when the stop switch 50 is pressed, the wireless remote controller 42 is configured to output a control signal for switching to the power supply state to the power supply control circuit 56 in addition to the control signal for the signal transmitter 53. Yes. As a result, the power supply control circuit 56 switches to the power supply state when the stop switch 50 is pushed and operated without turning on the power switch 51 in the power cut-off state.

  In other words, when the power transmitter circuit 56 is in the power cut-off state and the signal transmitter 53 is in the inactive state, when the remote stop command is commanded by the stop switch 50, the power source control circuit 56 is switched to the power supply state. Instead, the signal transmitter 53 is switched to the operating state. In this way, the power supply control circuit 56 of the wireless remote controller 42 switches the signal transmitter 53 to the operating state when a remote stop command is commanded by the stop switch 50 when the signal transmitter 53 is in the inactive state. It is configured. Therefore, the remote stop command corresponds to the specific operation command of the present invention.

  With this configuration, it is necessary to urgently stop the operation of the auger 9 after the power switch 51 is turned off or there is no operation time of 3 minutes and the power control circuit 56 is in a power cut-off state. In this case, the radio signal corresponding to the remote stop command is operated by suddenly operating the stop switch 50 without performing a troublesome operation such as instructing the remote stop command with the stop switch 50 after the power switch 51 is turned on. Can be output.

  As shown in FIG. 1 and FIG. 2, a receiving antenna 57 and a receiver 58 for receiving a radio signal by radio waves transmitted from the radio remote controller 42 are provided in the vicinity of the operation unit 20 of the combine main body. A signal processing device 59 (see FIG. 5) is provided for discriminating which command information the received signal is according to the reception frequency and converting it into a control signal corresponding to the command information.

  And the command information transmitted from the wireless remote controller 42 is input to the control device H of the combine main body via the signal processing device 59, and the control device H is supplied from the operation unit 20 of the combine main body. In addition to the command, based on the command from the wireless remote controller 42, the operation of the lifting hydraulic cylinder 15, the swing motor M2, the clutch motor M1, and the calling alarm 16 is controlled.

  That is, when an ascending command is commanded by the ascending command switch 43, the control device H operates the ascending / descending hydraulic cylinder 15 to the ascending side and operates the descending command switch 44 for the descending command. When commanded, the raising / lowering hydraulic cylinder 15 is actuated downward in order to lower the auger 9, and when the left turning command is commanded by the left turning command switch 45, the auger 9 is turned left. When the turning motor M2 is operated to the left turning side and the right turning command is commanded by the right turning command switch 46, the turning motor M2 is operated to the right turning side in order to operate the auger 9 to turn right. .

  Further, when the movement command is instructed by the automatic switch 47, the control device H determines whether or not the auger 9 is located at the storage position based on detection information such as the turning position detection sensor Ry. When the remote stop command is instructed by the stop switch 50 in order to automatically move the auger 9 to the storage position or the target discharge position according to the position of 9, the turning operation and the various operations of the auger 9 are stopped. Accordingly, the operation of the lifting hydraulic cylinder 15 and the swing motor M2 is controlled.

  That is, when the automatic switch 47 is pushed and a movement command is issued, the control device H, when the auger 9 is in the storage position, moves the lifting hydraulic cylinder to move the auger 9 to the target discharge position. 15 and the swing motor M2 are operated, and when the auger 9 is located at the discharge position, the lifting hydraulic cylinder 15 and the swing motor M2 are operated and the stop switch 50 is pushed to move the auger 9 to the retracted position. When the remote stop command is issued, the lifting hydraulic cylinder 15 and the swing motor M2 are stopped to stop the swing operation and the lift operation of the auger 9.

  Further, the control device H is configured to turn the auger 9 into a grain discharge state when a grain discharge command is commanded, and to set the auger 9 into a discharge stop state when a remote stop command is commanded. It is configured to control the operation of the motor M1.

  That is, when the discharge switch 49 is pushed and a grain discharge command is instructed, the control device H drives the clutch motor M1 in the forward rotation direction to bring the auger 9 into the grain discharge state, and the stop switch 50. Is pressed and a discharge stop command is issued, the clutch motor M1 is driven in the reverse direction in order to place the auger 9 in the discharge stop state.

  Furthermore, the control device H is configured to control the operation of the call alarm 16 so as to sound the call alarm 16 when a call command is issued. That is, the control device H sounds the call alarm 16 when a call command is instructed by the call switch 48.

  As described above, the wireless operation device includes the wireless remote controller 42 and the command means on the combine body side including the operation lever 20A, the automatic switch 21, the stop switch 22, and the clutch on / off switch 24. In addition, since a control command and a stop command can be commanded from the command means on the combine body side, when two or more workers work together using the combine, the command from the wireless remote controller 42 and the combine body side In some cases, a command from the command means is simultaneously commanded to the control device H. In such a case, as will be described below, the control device H basically processes the command from the wireless remote controller 42 with priority, and from the command means on the combine body side, the movement stop command and the discharge stop command. When the command is issued, the command from the command means on the airframe side is preferentially processed.

  In other words, when the stop command is instructed by one of the wireless remote controller 42 or the command means on the combine body side and the control command is instructed by the other, the control device H gives priority to the stop command and turns the auger 9 up and down. And when the control command is instructed from both the wireless remote controller 42 and the command means on the combine body side, the operation of the auger 9 is given priority over the control command of the wireless remote controller 42. Is configured to control.

  The control of the turning up and down operation of the auger 9 by the control device H configured as described above will be described with a specific example.

  When the auger 9 is swung up and down by various swivel lift commands commanded by tilting the operation lever 20A on the combine body side, the ascending command switch 43, the descent command switch 44, the left swivel command of the wireless remote controller 42 are operated. When a turning up / down command different from that commanded from the combine main body side is commanded by the switch 45 and the right turn command switch 46, the auger 9 is in a state where the turning up / down command is commanded from the wireless remote controller 42. However, when the turning up / down command is interrupted according to the turning up / down command from the wireless remote controller 42, the turning up / down operation is performed according to the turning up / down command from the combine body side. If the turning up / down command from the combine main body is not issued until the turning up / down command from the wireless remote control 42 is interrupted, the turning up / down operation of the auger 9 is performed when the turning up / down command from the wireless remote control 42 is stopped. Stops.

  Then, when the auger 9 is swung up and down by various swivel lifting commands commanded by tilting the operation lever 20A on the combine body side, a remote stop command is commanded by the stop switch 50 of the wireless remote controller 42. Then, the turning up / down operation of the auger 9 is stopped while the remote stop command is instructed, and when the remote stop command is interrupted, the turning up / down operation of the auger 9 is resumed. Similarly, when the auger 9 is turning up and down by various turning up / down commands issued by the ascending command switch 43, the down command switch 44, the left turn command switch 45, and the right turn command switch 46 of the wireless remote controller 42. In addition, when a movement stop command is instructed by the stop switch 22 on the combine body side, the turning up and down operation of the auger 9 is stopped while the movement stop command is instructed, and when the movement stop command is interrupted, The revolving motion is resumed. In the former case, if the turning up / down command from the combine main body is no longer commanded before the remote stop command from the wireless remote controller 42 is interrupted, the auger is stopped even if the remote stop command from the wireless remote controller 42 is interrupted. Naturally, 9 remains stopped. The same applies to the latter.

  Further, when the auger 9 is turning up and down by various turning up and down commands commanded by the ascending command switch 43, the descending command switch 44, the left turn command switch 45, and the right turn command switch 46 of the wireless remote controller 42. Even if a turning up / down command different from that commanded from the wireless remote controller 42 is instructed by the tilting operation of the operation lever 20A on the combine body side, the auger 9 performs the turning up / down operation according to the turning up / down command from the wireless remote control 42. Continue.

  In addition, when the clutch on / off switch 24 on the combine body side is switched from the off position to the on position, the grain discharge command is instructed and the radio remote controller 42 is stopped after the auger 9 enters the grain discharge state. When the remote stop command is instructed by the switch 50, the auger 9 is switched to the discharge stop state, and the auger 9 is in the discharge stop state even when the clutch on / off switch 24 on the combine body side is in the on position. Then, a new grain discharge command is issued by returning the clutch on / off switch 24 on the combine body side to the OFF position and switching it back to the ON position, or by pressing the discharge switch 49 of the wireless remote controller 42. Unless this is done, the auger 9 is maintained in the discharge stopped state.

  When a movement command is commanded by the automatic switch 21 on the combine body side and the auger 9 is automatically moved to the storage position or the target discharge position, a remote stop command is issued by the stop switch 50 of the wireless remote controller 42. Is stopped, the movement of the auger 9 to the storage position or the target discharge position is stopped, and the swivel raising / lowering operation of the auger 9 is stopped unless a new control command is issued from the combine main body side or the wireless remote controller 42. Similarly, when a movement command is instructed by the automatic switch 47 of the wireless remote controller 42 and the auger 9 is automatically moved to the storage position or the target discharge position, the movement is stopped by the stop switch 22 on the combine body side. When the command is commanded, the movement of the auger 9 to the storage position or the target discharge position is stopped, and the turning up and down operation of the auger 9 is stopped until a new control command is commanded from the combine main body side or the wireless remote controller 42.

In the above-described reference embodiment, the command operation means for commanding the stop command commanded by the wireless remote controller 42 is exemplified by the stop switch 50. Instead of this, the wireless remote controller 42 is connected to the grain of the auger 9. Push button switch for discharge stop command for commanding discharge stop command as a stop command for stopping the discharge operation, and swivel lift stop command for commanding swivel lift stop command as a stop command for stopping the swing lift operation of the auger 9 When the discharge stop command is instructed by the push button switch for the discharge stop command in the operating state, the signal transmitter 53 transmits a discharge stop command to the control device H as a radio signal. And when the turning up / down stop command is instructed by the push button switch for turning up / down stop command in the operating state, the turning up / down stop command is sent to the control device H. When the power supply control circuit 56 is in a power cut-off state and the signal transmitter 53 is in a pause state, a discharge stop command is commanded by a push button switch for a discharge stop command. Then, the signal transmitter 53 is switched to the operating state by entering the power supply state, and when the signal transmitter 53 is in the pause state, the signal transmitter 53 is turned by the push button switch for turning up / down stop command. When an up / down stop command is instructed, the power supply state may be entered and the signal transmitter 53 may be switched to the operating state.

  In this case, as a command operating means for commanding a stop command, a pushbutton switch for all-stop command for commanding a total stop command for stopping all operations of turning, raising and lowering of the auger 9 and grain discharging. Is provided in the wireless remote controller 42, and when the signal transmitter 53 is instructed by the push button switch for the all-stop command in the operating state, it controls the all-stop command for stopping all the operations of the auger 9. When the power supply control circuit 56 is in a power cut-off state and the signal transmitter 53 is in a pause state, a stop command is issued with a pushbutton switch for a stop command. May be configured to switch to the operating state of the signal transmitter 53 when it is commanded.

In the above reference embodiment, the details of the power supply control circuit as the operation state switching means are omitted, but as an example, a latch relay is provided so as to cut off the electrical connection between the signal transmitter 53 and the battery 55, and An operation command by the switch 51 and a remote stop command by the stop switch 50 are used as a set input of the latch relay, and a control signal output from the signal transmitter 53 having a pause command by the power switch 51 and a no-operation state for 3 minutes is reset to the latch relay. An electric circuit configured to be an input is conceivable, but is not limited thereto, and may be configured using a transistor, a microcomputer, or the like, and the specific configuration of the operation state switching unit can be variously changed.

In the above-mentioned reference form, the turning up / down driving means is constituted by an electric motor and a hydraulic cylinder, and the discharge driving means is constituted by an electric motor. However, the invention is not limited to this. For example, instead of the electric motor, A hydraulic motor may be used, or an electric motor or an electric cylinder may be used instead of the hydraulic cylinder.

In the above-mentioned reference form, when the auger 9 is swung up and down by various swivel raising / lowering commands commanded by the tilting operation of the operation lever 20A on the combine main body side, the stop switch 50 of the wireless remote controller 42 is used. When the remote stop command is commanded, the turning up / down operation of the auger 9 is stopped while the remote stop command is issued, and when the remote stop command is interrupted, the turning up / down operation of the auger 9 is resumed. Although an example of controlling the operation of the swing motor M2 and the lifting hydraulic cylinder 15 has been illustrated, instead, the control device H is commanded by tilting the operation lever 20A on the combine body side. When a remote stop command is commanded by the stop switch 50 of the wireless remote controller 42 when the auger 9 is swung up and down by various swivel lift commands, the combine main body Alternatively, the operation of the swing motor M2 and the lifting hydraulic cylinder 15 may be controlled so that the swing lifting operation of the auger 9 is stopped until a new swing lifting command is issued from the wireless remote controller 42. Good.

In the above-described reference embodiment, the work machine is configured by a combine that is an example of a farm work machine. However, the work machine is not limited to this, and the work machine may be a construction machine, a machine tool, or the like.

[First embodiment of the present invention]
Hereinafter, a first embodiment of the present invention will be described.
In the above-described reference embodiment, the auger 9 which is an example of a movable operation unit is provided as the operated part, and the command operation unit of the wireless command unit commands a control command such as a lift command for the auger 9 and a remote stop command. The operation state switching means of the wireless command means is configured such that when the remote control command as a specific operation command is commanded by the command operation means when the output control means is in a pause state, the output control means An example of switching to the movable state is illustrated, but instead of this, as shown in FIG. 8, in addition to pressing the stop switch 50 of the wireless remote controller 42, the call switch 48 is pressed. In this case, in addition to the control signal for the signal transmitter 53, a control signal for switching to the power supply state is output to the power supply control circuit 56. When the remote control command or the notification start command as a specific operation command is instructed by the stop switch 50 or the call switch 48 when the signal transmitter 53 is in a pause state, the source control unit 56 is activated. Configure to switch to state.

  When the call switch 48 is pressed and turned on, a radio signal having a frequency corresponding to the call command is transmitted. However, when the call command radio signal rises, a notification as a specific operation command of the present invention is sent. A start command is issued. Similarly, when the call switch 48 is released and turned off, the transmission of the radio signal having the frequency corresponding to the call command is terminated, and the fall of the call command radio signal causes the operation command of the present invention to be transmitted. A notification stop command is issued.

[Second Embodiment of the Present Invention]
Hereinafter, a second embodiment of the present invention will be described.
In the above-described reference embodiment, the auger 9 which is an example of a movable operation unit is provided as the operated part, and the command operation unit of the wireless command unit commands a control command such as a lift command for the auger 9 and a remote stop command. The operation state switching means of the wireless command means is configured such that when the remote control command as a specific operation command is commanded by the command operation means when the output control means is in a pause state, the output control means Although an example of switching to the movable state has been illustrated, instead of this, as shown in FIG. 9, when the call switch 48 of the wireless remote controller 42 is pressed, the control signal for the signal transmitter 53 is displayed. In addition, a control signal for switching to the power supply state is output to the power supply control circuit 56, and the power supply control means 56 of the wireless remote controller 42 is set in the sleep state. When notification start instruction as a specific operation command at the calling switch 48 is commanded in some cases, it is configured to switch the signal transmitter 53 to the operating state.

  When the call switch 48 is pressed and turned on, a radio signal having a frequency corresponding to the call command is transmitted. However, when the call command radio signal rises, a notification as a specific operation command of the present invention is sent. A start command is issued. Similarly, when the call switch 48 is released and turned off, the transmission of the radio signal having the frequency corresponding to the call command is terminated, and the fall of the call command radio signal causes the operation command of the present invention to be transmitted. A notification stop command is issued.

Combine side view Overall plan view of combine Enlarged side view of the main part showing the operation configuration for turning and raising / lowering the auger Plan view of the operation unit on the combine body side Control block diagram of the control device on the combine body side Perspective view of wireless remote control Control block diagram of wireless remote control in reference form A control block diagram of a wireless remote controller definitive to the first embodiment forms state of the present invention A control block diagram of a wireless remote controller definitive to the second embodiment forms state of the present invention

M1 Discharge control means M2, 15 Rotation raising / lowering drive means H Machine body side control means 9 Actuating part (operated part)
16 Notification means (operated part)
20A, 21, 22, 24 Aircraft side command means 42 Wireless command means 43, 44, 45, 46, 47, 48, 49, 50 Command operation means 51 On / off command means 53 Output control means 56 Operating state switching means

Claims (4)

The work machine main body is provided with an operated part, and a machine body side control means for controlling the operation of the operated part,
Provided is a manually operated wireless command means for commanding a plurality of types of operation commands for the operation of the operated part to the airframe side control means by radio signals,
The wireless command means
Command operation means for instructing the plurality of types of operation commands, an operating state for outputting a corresponding radio signal when the plurality of types of operation commands are instructed by the command operation means, and the plurality of types of operations by the command operation means Output control means configured to be switchable to a dormant state in which a corresponding radio signal is not output even if an operation command is issued, and an operation state switching means for switching the output control means between the operating state and the dormant state A wireless operating device for a work machine configured to include:
The operating state switching means is
When the output control means is in the pause state, when the specific operation command is commanded among the plurality of types of operation commands by the command operation means, the output control means is switched to the operating state. Configured ,
As the operated part, provided with a calling notification means equipped in the operation control part of the work machine body,
The command operating means is
A notification start command for starting the notification operation of the notification means and a notification stop command for stopping the notification operation of the notification means;
The operating state switching means is
The output control means is configured to switch the output control means to the operating state when the command operation means is instructed to start the notification as the specific operation instruction when the output control means is in the pause state. Wireless operating device for working machines.   The wireless operation device for a working machine according to claim 1, wherein the operation state switching means is configured to switch between the operation state and the hibernation state by intermittently supplying power to the output control means. The wireless command means includes a manually operated on / off command means for commanding an operation command for setting the output control means to the operating state and a pause command for setting the sleep state.
The operation state switching means switches the output control means between the operation state and the pause state based on the operation command and the pause command that are commanded by the on / off command means, and the operation of the output control means 3. The apparatus according to claim 2, wherein the output control unit is automatically switched to the pause state when none of the plurality of types of operation commands by the command operation unit is commanded continuously for a set time in a state. Wireless operating device for work equipment. As the operated part, a movable actuating part is provided,
The previous Symbol finger-old operation means,
It is configured to command a control command for the operation of the operating unit and a stop command to stop the operation of the operating unit,
Before kidou operation state switching means,
When the output control unit is in the pause state, when the stop command as the specific operation command is commanded by the command operation unit , and when the notification start command is commanded, The wireless operating device for a work machine according to any one of claims 1 to 3, wherein the output control means is configured to switch to the operating state.

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