JP4069049B2 - Automatic reset system for earth drill machine - Google Patents

Description

  The present invention is an earth drilling machine having a parallel link mechanism capable of moving a standing leader in a horizontal direction, and once the leader is moved during excavation of the ground, the original excavation position is restored. The present invention relates to an automatic return system for an earth drill machine that automatically returns the state of a parallel link mechanism to the state at the time of excavation.

  In addition to the type of earth drilling machine that suspends a drilling drill from a boom, there is also a machine that includes a leader and moves a working device up and down to perform ground excavation. Such an earth drill machine including the latter leader includes a parallel link mechanism 6 as shown in FIG. 1, for example, and adjusts the position of the leader 5 on which the working device is mounted in the horizontal direction. The details of the earth drill machine will be described later.

In the earth drill machine as shown in FIG. 1, once excavated soil is accumulated in the bucket 25 during ground excavation work, a soil removal process is required in which the excavation work is interrupted and the excavated soil in the bucket 25 is discharged. For this purpose, after lifting the bucket 25 above the ground, the earth drill machine main body is turned to discharge the ground to the side of the machine body or a prepared truck. At that time, the parallel link mechanism 6 is deformed to horizontally move the bucket 25 to a position away from the earth drill machine main body. Therefore, in order to return the bucket 25 to the excavation center again, it is necessary to perform so-called pile centering in which the earth drill machine is turned and the leader 5 by the parallel link mechanism 6 is moved in the horizontal direction so that the bucket 25 is aligned with the excavation center. become.
JP 2003-41614 A JP 08-170333 A

  By the way, when performing pile core alignment to return to the excavation center after the bucket 25 has been earthed, it is difficult for an operator who rides on the earth drill machine to return the position of the bucket 25 to the excavation center by visual observation alone. . That is, the positioning performed by operating the parallel link mechanism 6 and moving the bucket 25 in the horizontal direction cannot be confirmed because the operator, the bucket 25 and the excavation center overlap each other. Therefore, the alignment work requires a signal person standing next to the earth drill machine and confirming the positional relationship between the bucket 25 and the excavation center, and the operator operates the earth drill machine according to the instructions to the signal person. The pile core alignment was performed to return the bucket 25 to the excavation center. Therefore, although earth removal during excavation work is frequently performed, until now, the operator has to receive instructions from the signal person each time, which has been a very troublesome work.

  In view of the above, an object of the present invention is to provide an automatic return system for an earth drill machine that can return a parallel link mechanism to its original operating state in order to solve such a problem.

  An automatic return system for an earth drill machine according to the present invention includes a parallel link mechanism that moves a leader in a horizontal direction by an expansion and contraction operation of a hydraulic cylinder, a pump that supplies hydraulic oil to the hydraulic cylinder, and from the pump to the hydraulic cylinder A control valve connected to the flow path of the engine, the control valve is switched by an operation from the driver's seat performed by the operator, the hydraulic cylinder extends and contracts by the hydraulic oil from the pump, the parallel link mechanism operates, and the leader An earth drill machine in which horizontal positioning of the parallel link mechanism is performed, a detector for detecting an operation state relating to the parallel link mechanism, a setting switch for specifying an arbitrary operation state of the parallel link mechanism, and a parallel link mechanism An automatic stop switch for instructing automatic stop of the is connected to the control device, The control device stores the operation state of the parallel link mechanism based on the state signal transmitted from the detector according to the instruction from the setting switch, and from the detector periodically transmitted according to the instruction from the automatic stop switch. The state signal is compared with the stored operation state, and when the operation state matches, the control valve is switched, and the expansion and contraction operation of the hydraulic cylinder of the parallel link mechanism is controlled and stopped. Features.

Further, in the automatic return system for an earth drill machine according to the present invention, the pump is a variable displacement pump, and the operation state of the parallel link mechanism obtained from the state signal of the detector is stored by an instruction of the setting switch. When the parallel link mechanism approaches a certain range with respect to the operating state, the control device is configured to reduce the discharge flow rate of the variable displacement pump.
In the automatic return system for an earth drill machine according to the present invention, the detector is an angle sensor that detects an angle of a front frame that constitutes the parallel link mechanism, or the hydraulic cylinder that operates the parallel link mechanism. It is a stroke sensor which detects the stroke of this.
In the automatic return system for an earth drill machine according to the present invention, the control valve is a pilot-type valve that can be switched by a supplied pilot pressure, and a solenoid valve is connected to a flow path for supplying the pilot pressure. The control device closes the solenoid valve to shut off the pilot pressure, so that the control valve shuts off the flow path between the hydraulic cylinder of the parallel link mechanism and the pump, and the hydraulic cylinder expands and contracts. This is characterized in that the system is stopped.
Furthermore, the automatic return system for an earth drill machine according to the present invention is characterized in that the control valve is a valve that can be switched by a solenoid.

  An earth drill machine, for example, adjusts expansion / contraction of a hydraulic cylinder by switching a control valve by operating an operation lever in a driver's seat and supplying or shutting off hydraulic oil from a pump to the hydraulic cylinder. . Therefore, the operation state, that is, the inclination of the parallel link mechanism is adjusted, and the reader connected to the parallel link mechanism is positioned in the horizontal direction. And in the automatic return system of the earth drill machine according to the present invention, when the operator first presses the setting switch to specify the return state related to the parallel link mechanism, the control device transmits the detection signal from the ON signal. The operating state of the parallel link mechanism based on the signal is stored. Next, when returning the parallel link mechanism to the original state, when the operator pushes the automatic stop switch and steers the operation lever at the driver's seat, the control device periodically transmits the ON signal from the automatic stop switch. The state signal from the detector is compared with the stored operation state, and when the operation state matches, the control valve is automatically switched to stop the expansion / contraction operation of the hydraulic cylinder of the parallel link mechanism. Therefore, the parallel link mechanism returns to the return state stored by the control device, and the reader is positioned in the horizontal direction.

Further, in the automatic return system of the earth drill machine according to the present invention, when the parallel link mechanism is to be returned to the original state, the variable displacement pump is switched immediately before the stop, thereby reducing the discharge flow rate and reducing the hydraulic pressure. The expansion / contraction speed of the cylinder can be reduced, and the horizontal movement speed of the leader due to the operation of the parallel link mechanism can be reduced and stopped.
In the automatic return system for an earth drill machine according to the present invention, the control device uses a parallel link mechanism based on a detection signal from an angle sensor that detects the angle of the front frame and a stroke sensor that detects the stroke of the hydraulic cylinder. Check the operating status of.
Furthermore, in the automatic return system of the earth drill machine according to the present invention, the control device controls the pilot pressure supplied to the control valve by opening and closing the solenoid valve, and thereby the expansion and contraction operation of the hydraulic cylinder, that is, by the parallel link mechanism. The horizontal movement of the reader is automatically stopped.

Therefore, according to the automatic return system of the earth drill machine according to the present invention, when the excavation is interrupted and it is necessary to perform the earth removal, the predetermined operation state of the parallel link mechanism is memorized. When returning to the state at the time of excavation later, the operation of the parallel link mechanism can be automatically stopped in the stored operation state, and the operator can operate without receiving the instruction from the signal person.
In addition, by using a variable displacement pump and reducing the expansion and contraction speed of the hydraulic cylinder before the automatic stop, the movement speed in the horizontal direction of the leader and the work equipment attached to it is reduced, and the impact when stopped is reduced. It can be relaxed and stopped more accurately.

  Next, an embodiment of an automatic return system for an earth drill machine according to the present invention will be described below with reference to the drawings. First, FIG. 1 is a side view showing an earth drill machine. The earth drill machine 1 has a swivelable earth drill machine body 3 equipped with a cab, a hydraulic unit, and the like on a traveling unit 2 that can be run by a crawler. In front of the ground drill machine body 3, a reader 5 that supports the lifting and lowering of the working device is provided upright via a parallel link mechanism 6. In the parallel link mechanism 6, one end of each of the front upper frame 11 and the front lower frame 12 is pivotally supported with respect to the earth drill machine body 3, and a reader support 13 is pivotally supported on the other end. That is, both ends of the front upper frame 11 and the front lower frame 12 are pivotally supported so as to be parallel to each other, thereby forming a parallel link.

  And the raising / lowering cylinder 14 is pivotally supported between the front upper frame 11 and the earth drill machine main body 3, and the parallel link mechanism 6 in which the parallel link changes the shape by the expansion-contraction operation | movement is comprised. The leader support 13 is pivotally supported by a bracket protruding forward, and is also pivotally supported by a stay cylinder 7 whose one end is pivotally supported on the leader support 13 from behind. Accordingly, the leader 5 is configured to stand up as shown in the figure by the extension operation of the stay cylinder 7 and to be in a state of lying backward on the right side of the drawing as the stay cylinder 7 contracts.

  A Kerry drive 21 as a working device is mounted on the standing reader 5 so as to be movable up and down. That is, the leader 5 has guide pipes 16 on the left and right sides thereof in the axial direction, and the kelly drive 21 is mounted so as to sandwich the guide gib 22 slidable with respect to the guide pipe 15. The kelly drive 21 outputs rotational torque from a hollow shaft, and a kelly bar 23 is mounted so as to receive the rotational torque through the hollow shaft. In addition, a guide give 24 is provided at the upper end of the kelly bar 3, and slides on the guide pipe 15 so that the kelly bar 23 descends in a state parallel to the leader 5.

  The kelly bar 23 is suspended by a wire rope 17 sent via a top sheave 16 provided at the upper end of the reader 5. The wire rope 17 is fed from the winch in the earth drill machine main body 3 and is configured to send the kelly bar 23 in the downward direction or pull the kelly bar 23 by winding or unwinding the winch. The earth drill machine 1 has a bucket 25 attached to the lower end of the kelly bar 23 to hold the excavated soil while excavating the ground.

  Such an earth drill machine 1 incorporates an automatic return system in which when the bucket 25 is moved during excavation work, the shaft core of the kelly bar 23 returns to the pile core position of the excavation hole again. FIG. 2 is a block diagram showing an automatic return system for an earth drill machine. The automatic return system of this embodiment controls the position of the reader 5 in the horizontal direction, and in particular, detects the angle of the front upper frame 11 constituting the parallel link mechanism 6 and controls the expansion and contraction of the hoisting cylinder 14. It is a thing.

 The hoisting cylinder 14 is a hydraulic cylinder, and a hydraulic pilot type control valve 31 is connected to the hydraulic cylinder for switching and feeding the hydraulic oil. A variable displacement pump 32 and a tank 33 are connected to the control valve 31 so that hydraulic fluid is supplied to and discharged from the expansion and contraction of the hoisting cylinder 14. The control valve 31 is of a hydraulic pilot type, and pilot pressure is supplied to pilot ports 31a and 31b from a pump (not shown) via a remote control valve 34. The remote control valve 34 is configured such that its pilot pressure is sent by operation of the raising / lowering lever 35 of the front frame, and the solenoid valves 37a, 37b is connected.

  In this automatic return system for an earth drill machine, an angle sensor 41 attached to the front upper frame 11 is connected to a control device 40 provided in the earth drill machine 1 so that angle information of the parallel link mechanism 6 can be obtained. It has become. The variable displacement pump 32 can change its capacity by the operation of an actuator (solenoid) 42. And the control apparatus 40 is connected to the actuator 42, and the flow volume adjustment of the hydraulic fluid sent to the raising / lowering cylinder 14 is performed by the capacity | capacitance change of a pump. The control device 40 is also connected to the solenoid valves 37a and 37b so as to be switched between open and close.

  Further, in the driver's seat, there is a raising / lowering lever 45 for the operator to directly operate the parallel link mechanism 6, and the raising / lowering lever 45 has a pile core reset switch 43 and an automatic stop switch at a position close to the grip gripped by the operator. 44 and are connected to the control device 40, respectively. The pile core reset switch 43 sends a signal for storing the value of the angle sensor 41 when the switch is turned on to the control device 40, and the automatic stop switch 44 sends a signal for executing an automatic return. The control device 40 stores a program for executing automatic return according to the flowchart shown in FIG.

Next, the effect | action is demonstrated regarding the automatic return system of the earth drill machine 1 which concerns on this embodiment. Therefore, first, the earth drill machine 1 performs the earth drill excavation work as follows. 3 and 4 are diagrams illustrating the earth drill excavation work.
In the earth drill excavation work, first, the casing 26 is disposed at the excavation site by the tubing device 27, and the bucket 25 is inserted into the casing 26. For this purpose, first, the earth drill machine 1 moves to the working position by the traveling of the crawler 2 and is connected to the tubing device 27 for positioning and reaction force removal. In the earth drill machine 1, the leader 5 is positioned so that the bucket 25 enters the casing 26. That is, the inclination of the parallel link mechanism 6 is adjusted by the expansion and contraction operation of the hoisting cylinder 14, and the horizontal position of the reader 5 is determined. Further, the leader 5 is adjusted so as to stand upright by the expansion and contraction operation of the stay cylinder 7.

  Subsequently, when the leader 5 is positioned in this manner, the kelly bar 23 descends vertically along the leader 5, and the bucket 25 at the lower end enters the casing 26 to excavate the ground. The excavated soil excavated by the excavation is accumulated in the bucket 25, and when it is full, the kelly bar 23 is pulled up. The rise of the kelly bar 23 is pulled up until the bucket 25 comes out of the casing 26, and then the earth drill machine body 3 turns on the crawler 2 so that the bucket 25 moves to the earth discharging position. For example, the current earthing position is behind the earth drill machine 1 as shown in FIG. Then, the earth drill machine main body 3 turns 180 ° and the bucket 25 is carried to the rear, where the bucket 25 is opened and the excavated soil inside is discharged. Thereafter, positioning for returning to the excavation center is performed so that the bucket 25 can be inserted into the casing 26 again by turning in the opposite direction.

  By the way, when earthing the bucket 25, the distance of the bucket 25 from the earth drill machine body 3 can be increased or decreased by changing the inclination of the parallel link mechanism 6 as the earth drill machine body 3 turns. Earth removal is performed. Therefore, returning to the excavation center requires not only turning of the earth drill machine body 3 but also horizontal positioning by the parallel link mechanism 6. However, with respect to the turning direction, the ground drill machine body 3 is locked with a pin to the crawler 2 side in the excavation state shown in FIG. Just put them in the same position. Therefore, the troublesome positioning for returning is the positioning of the reader 5 in the horizontal direction, but in the present embodiment, this is automatically performed by the automatic returning system shown in FIG.

In the present embodiment, the operation of the parallel link mechanism 6 for moving the reader 5 in the horizontal direction includes an automatic return performed by the control device 40 in addition to the operation by the operator himself. First, the operation by the operator himself will be described with reference to FIG.
When the leader 5 is moved in the horizontal direction, the raising and lowering cylinder 14 is expanded and contracted to change the inclination of the parallel link mechanism 6, and the position of the reader support 13 on which the leader 5 is mounted is adjusted in the horizontal direction. The expansion and contraction of the hoisting cylinder 14 is performed by hydraulic oil sent from the variable displacement pump 32, and the remote control valve 34 for switching the hydraulic oil is switched by the pilot pressure of oil sent from a hydraulic pump (not shown). . When the operator himself operates, both the actuator 42 and the solenoid valves 37a and 37b are in a non-energized state, the variable displacement pump 32 is in a normal operation state with the maximum flow rate, and the solenoid valves 37a and 37b are kept open. ing.

  Therefore, the operator at the driver's seat first tilts the hoisting lever 35 in a predetermined direction for extending or retracting the hoisting cylinder 14. Then, pilot pressure is applied to the flow path 36a or the flow path 36b, and the pilot port 31a or 31b of the control valve 31 acts. Therefore, the control valve 31 is switched, and the hydraulic oil fed from the variable displacement pump 32 pressurizes the piston of the undulating cylinder 14 from one side, and the expansion operation or the contraction operation is performed. On the contrary, the hydraulic oil pushed out from the undulation cylinder 14 by pressurizing the piston flows into the tank 33.

  If the raising / lowering lever 35 is operated in the reverse direction by the operator at the driver's seat, the control valve 31 is switched reversely, the flow of hydraulic oil to the raising / lowering cylinder 14 is reversed, and the expansion / contraction is also reversed. When the hoisting lever 35 is returned to the neutral position, the pilot pressure is cut off, and the pilot pressure is not applied to the control valve 31 so that the neutral state is established. Accordingly, the hydraulic oil delivered from the variable displacement pump 32 flows to the tank 33 side, and the flow path 38 connected to the hoisting cylinder 14 is blocked. Therefore, the hoisting cylinder 14 stops extending and contracting, and the parallel link mechanism 6 is tilted, that is, the leader 5 is positioned in the horizontal direction.

  Next, automatic return by the control device 40 will be described. In particular, this automatic operation is an operation for returning to the state again after the earth removal. By the way, the parallel link mechanism 6 of the earth drill machine 1 can change its inclination within a range of about 90 degrees, and the horizontal movement range is about 3 m at that time. On the other hand, in the excavation state as shown in FIG. 3, the inclination of the parallel link mechanism 6 (the angle formed by the front upper frame 11 and the ground axis) is about 30 degrees, and when the inclination is shifted by 1 degree, it is about 40 mm in the horizontal direction. It will shift. For this reason, when the shaft core of the Keriba 23 is again aligned with the pile core position of the excavation hole after soil removal, the horizontal displacement is limited to a fairly narrow range, and this time the target is ± 25 mm, It is necessary to return to the original excavation state within a range of about ± 0.5 °. FIG. 5 is a diagram showing a flowchart of an automatic return system for executing such pile centering. Therefore, automatic return according to this flowchart will be described below.

  In the control device 40, initial setting is performed by releasing the pump slow speed and releasing the hoisting cylinder stop (S11). That is, the energization of the actuator 42 and the solenoid valves 37a and 37b of the variable displacement pump 32 is cut off (S101, S102). At this time, the earth drill machine 1 is performing excavation work. And in the control apparatus 40, ON / OFF of the pile core reset switch 43 is confirmed (S12). The pile core reset switch 43 is pressed by the operator at the pile core position to be turned on. Then, an ON signal is sent to the control device 40 and a flag is raised. In subsequent S13, it is confirmed by this flag whether or not the switch ON state of S12 is the first one from the OFF state.

When it is the first ON confirmation (S13: YES), the frame angle A of the parallel link mechanism 6 is stored (S14). That is, a detection signal is always sent from the angle sensor 41 to the control device 40 (S103), where the frame angle of the parallel link mechanism 6 is checked. In the control device 40, when the ON signal from the pile core reset switch 43 is transmitted, the frame angle A confirmed at that time is stored in the control device 40 as the angle at the time of return. The operator stores the state according to the frame angle so that the parallel link mechanism 6 returns to the state at the time of excavation again after the soil is removed.
Thereafter, ON / OFF of the pile core reset switch 43 is further confirmed (S15). When there is a mistake in pressing by the operator, the pile core reset switch 43 is returned to the OFF state (S15: OFF). At this time, the process returns to S11 again, and because the pile core reset switch 43 is OFF (S12: OFF), S11 is repeated.

  On the other hand, when the pile core reset switch 43 is ON (S15: ON), the ON / OFF state of the automatic stop switch 44 is confirmed (S16). The automatic stop switch 44 is pushed by the operator to be in an ON state when the leader 5 is returned to the original position after the bucket 25 is discharged (S16: ON). On the other hand, at the stage where the automatic stop switch 44 before returning is not pressed (S15: OFF), the process returns to S15 and ON / OFF of the pile core reset switch 43 is confirmed.

  By the way, even if it is said to be automatic return, the operator operates the hoisting lever 35, and as described above, the control valve 31 is switched by the pilot pressure from the remote control valve 34, and the hoisting to which hydraulic oil from the variable displacement pump 32 is supplied. The cylinder 14 expands and contracts. As a result, the inclination of the parallel link mechanism 6 changes, and the frame angle B of the parallel link mechanism 6 that changes over time is input to the control device 40 based on the detection signal sent from the angle sensor 41 (S104) (S17). ). Then, the frame angle B is compared with the frame angle A stored in advance (S18). That is, the absolute value of the difference between the frame angles A and B is calculated, and it is confirmed whether the difference is less than 3 °.

  Therefore, if the absolute value of the difference between the frame angles A and B is 3 ° or more (S18: NO), the process returns to S15, and if the absolute value of the difference between the frame angles A and B is less than 3 ° (S18: YES). The variable displacement pump 32 is switched to the slow speed operation (S19). In the slow speed operation of the variable displacement pump 32, the actuator 42 is energized from the control device 40. Thereby, in the variable displacement pump 32, the discharge flow rate of the hydraulic oil sent to the undulation cylinder 14 is set to the minimum. Due to such a decrease in the flow rate of the hydraulic oil, the expansion / contraction speed of the undulation cylinder 14 is reduced, and is prepared for the subsequent stop. The hoisting cylinder 14 moves the leader 5 and the working device supported by the parallel link mechanism 6 in the horizontal direction by the expansion and contraction operation. Therefore, suddenly stopping an object with a poor balance and a large load causes a burden on a portion to which a large stress is applied due to inertia and there is a risk of breakage. Therefore, it is necessary to reduce the impact. Moreover, it is for stopping accurately by reducing the speed before a stop.

  Then, after the movement speed is reduced in S19, the control device 40 checks whether or not the difference between the frame angles A and B has become 0, that is, whether or not the original excavation center has been reached (S20). Therefore, the confirmation is repeated until the difference between the frame angles A and B becomes 0 (S20: NO), and when the difference becomes 0 (S20: YES), the expansion / contraction operation of the hoisting cylinder 14 is stopped from the control device 40. A stop signal is issued (S21). That is, the solenoid valves 37a and 37b are energized by the control signal 40 and switched from the open state to the closed state (S106). Accordingly, the pilot pressure supplied via the remote control valve 34 is stopped, the control valve 31 is switched, and the flow of hydraulic oil supplied from the variable displacement pump 32 to the hoisting cylinder 14 is cut off. Therefore, the expansion and contraction of the hoisting cylinder 14 is stopped, and the front-rear direction alignment of the reader 5 is completed. Then, the automatic stop switch 44 is turned off (S22: OFF), and the process returns to S11.

  Therefore, according to the automatic return system of the earth drill machine according to the present embodiment, when the excavation is interrupted and the soil is discharged, the operation state at the time of excavation of the parallel link mechanism 6 is determined by the detection signal transmitted from the angle sensor 41. When returning to the state at the time of excavation, which is stored in the control device 40 and returned to the state after excavation, the operation of the parallel link mechanism 6 can be automatically stopped in the stored operation state, and the operator can operate without receiving an instruction from the signal person. I was able to do that. At that time, the operator can perform the pile core alignment by a simple operation in which the operations of the raising and lowering lever 35 performed so far and the operations of the pile core reset switch 43 and the automatic stop switch 44 are added. became. Furthermore, according to the automatic return system of the earth drill machine according to the present embodiment, the variable displacement pump 32 is used, and the extension and contraction speed of the hydraulic cylinder 14 is reduced before the automatic stop, whereby the reader 5 and the work attached thereto are operated. It is possible to reduce the impact when stopping by reducing the horizontal movement speed of the device. Further, the reader 5 can be stopped with high accuracy.

As mentioned above, although one Embodiment was described about the automatic reset system of the earth drill machine which concerns on this invention, this invention is not limited to this, A various change is possible in the range which does not deviate from the meaning.
For example, in the above-described embodiment, the angle sensor 41 is used to check the operation state of the parallel link mechanism 6 during excavation, but in addition to this, the stroke sensor that detects the stoke of the hydraulic cylinder 14 is used in parallel. The operating state of the link mechanism 6 may be confirmed.
Further, for example, in the above-described embodiment, the control valve 31 is a hydraulic pilot type valve that can be switched by a pilot pressure supplied by operating the hoisting lever 35. You may make it act | operate by the electrical signal sent with operation of the raising / lowering lever 35. FIG.

It is the side view which showed the earth drill machine. It is a block diagram showing one embodiment of an automatic return system. It is the figure which showed the state at the time of excavation of an earth drill machine. It is the figure which showed the state at the time of earth removal of an earth drill machine. It is the figure shown with the flowchart in the case of performing it in one Embodiment of an automatic return system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Earth drill machine 2 Crawler 3 Earth drill machine main body 5 Leader 6 Parallel link mechanism 11 Front upper frame 12 Front lower frame 21 Kelly drive 23 Kelly bar 25 Bucket 31 Control valve 32 Variable capacity type pump 34 Remote control valve 35 Relief lever 37a, 37b Solenoid Valve 40 Control device 41 Angle sensor 42 Actuator 43 Pile core reset switch 44 Automatic stop switch

Claims (5)

A parallel link mechanism for moving the leader in the horizontal direction by the expansion and contraction operation of the hydraulic cylinder; a pump for supplying hydraulic oil to the hydraulic cylinder; and a control valve connected on the flow path from the pump to the hydraulic cylinder This is an earth drill machine in which the control valve is switched by the operator's operation performed by the operator, the hydraulic cylinder is expanded and contracted by the hydraulic oil from the pump, the parallel link mechanism is activated, and the leader is positioned in the horizontal direction. And
A control device includes a detector that detects an operation state relating to the parallel link mechanism, a setting switch for specifying an arbitrary operation state of the parallel link mechanism, and an automatic stop switch for instructing automatic stop of the parallel link mechanism Connected to
The control device stores the operation state of the parallel link mechanism based on the state signal transmitted from the detector according to the instruction from the setting switch, and from the detector periodically transmitted according to the instruction from the automatic stop switch. The state signal is compared with the stored operation state, and when the operation state matches, the control valve is switched, and the expansion and contraction operation of the hydraulic cylinder of the parallel link mechanism is controlled and stopped. An automatic earth drill machine automatic return system. In the automatic reset system of the earth drill machine according to claim 1,
The pump is a variable displacement pump, and the operation state of the parallel link mechanism obtained from the state signal of the detector approaches a certain range with respect to the operation state of the parallel link mechanism stored by the instruction of the setting switch. By the way, an automatic return system for an earth drilling machine characterized in that the control device reduces the discharge flow rate of the variable displacement pump. In the automatic reset system of the earth drill machine according to claim 1 or claim 2,
The detector is an angle sensor that detects an angle of a front frame that constitutes the parallel link mechanism, or a stroke sensor that detects a stroke of the hydraulic cylinder that operates the parallel link mechanism. Automatic recovery system for drilling machines. In the automatic reset system of the earth drill machine according to claim 1 or claim 2,
The control valve is a pilot-type valve that can be switched by a supplied pilot pressure. A solenoid valve is connected to a flow path for supplying the pilot pressure, and the control device closes the solenoid valve to make a pilot. The ground is characterized in that the control valve blocks the flow path between the hydraulic cylinder of the parallel link mechanism and the pump by blocking the pressure to stop the expansion and contraction operation of the hydraulic cylinder. Automatic recovery system for drilling machines. In the automatic reset system of the earth drill machine according to claim 1 or claim 2,
An automatic return system for an earth drill machine, wherein the control valve is a valve that can be switched by a solenoid.

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