JP3534350B2 - Travel operating device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention mainly relates to a traveling operating device for a hydraulic excavator.

[0002]

2. Description of the Related Art FIG. 8 is a perspective view of a driver's seat of a conventional hydraulic excavator, where 1 is a seat, 2 is a right working machine operating lever, and 3
Is a left work implement operating lever, 4 is a blade operating lever, 7 is a right traveling lever, and 8 is a left traveling lever. At the time of work, it is possible to operate a work machine such as a boom, an arm, or a bucket, and a swing operation of an upper swing body by operating the left and right work machine operation levers 2 and 3. By operating the blade operation lever 4, the blade is operated. You can control the up and down of. When traveling, the left and right traveling levers 7 and 8 are operated. That is,
When the right running lever 7 is tilted forward, the right crawler belt moves forward, and when tilted backward, the right crawler belt moves backward. Similarly, the left travel lever can control the left crawler belt, and the left and right travel levers 7 and 8 are operated to perform forward / backward movement and turning operation of the vehicle.

[0003]

However, due to the positional relationship of the levers, the operator can operate the working machine operating levers 2 and 3 in a comfortable posture with the back resting on the seat 1. However, when operating the traveling levers 7 and 8, since the traveling levers 7 and 8 are at the front,
The operator will operate in a slightly forward leaning posture. Therefore, for example, when a long-time traveling operation is performed by earthworking with a blade or the like, the operator must work in a forward leaning posture for a long time, which causes heavy labor and fatigue for the operator.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a traveling operation device which does not cause the operator's work posture to deteriorate and does not cause fatigue.

[0005]

[Means for Solving the Problems] To achieve the above object,
The first of the travel operation devices according to the present invention is a working machine by hydraulic pressure.
For work vehicles that perform operating and traveling operations,
Work machine operating levers arranged on the side of the seat on which the operator sits
The tilting direction and tilting angle of the working machine operating lever.
Corresponding to the pilot valve that generates pilot pressure,
A pie connecting between the ilot valve and two work implement operating valves
Operate the lot circuit and the left and right hydraulic motors for traveling respectively.
The two operation valves to be made and the
A circuit connected to two traveling operation valves, and the branch
The pilot pressure is applied to the work machine operation valve or traveling operation.
With an electromagnetic switching valve that leads to only one of the valves,
Operation of one work machine by switching the switching valve
It is possible to operate the work machine and the traveling operation only with the lever.
It

Furthermore, the second aspect of the traveling operation device according to the present invention.
Is an industrial vehicle that is hydraulically operated and operated
On both sides, placed on the side of the seat where the operator sits
And the tilt of the work implement operating lever
Computation for computing and outputting electrical signals based on the moving direction and tilt angle
Operated by electrical signals from the device and the computing device
From the two electromagnetic proportional work machine operation valves and the computing device
Operated by an electric signal, the left and right hydraulic motors for traveling
Two electromagnetic proportional traveling operation valves that operate each, and calculation
The electrical signal from the device is transmitted to the electromagnetic proportional work machine operating valve and the electromagnetic ratio.
Output to only one of the example travel control valves
Equipped with a selector switch that outputs instructions to the arithmetic unit.
By switching the changeover switch,
Work implement operation and traveling operation are possible only with the work implement operating lever
I am trying.

[0007]

According to the first aspect of the travel operation device of the present invention,
One working machine at hand by switching the switching valve
Enables work machine operation and traveling operation only with the operation lever
There is. As a result, traveling operation is possible using the two traveling levers.
You can leave one hand free when you drive compared to doing
You can do other tasks, such as operating the blade control lever.
You can also do Also, the work equipment control lever
Since it is on the side of the seat, you can operate it by hand.
It is possible to do, and in the past it was a dedicated run that was in front of the operator
Compared to operating with the lever, it is necessary to take a forward leaning posture.
There is no need, you can operate the car in a comfortable posture, and there is little fatigue.
Moreover, the traveling lever that was in front of the operator is unnecessary.
Therefore, the number of parts is reduced and the operator's
The feet are not cramped and the driver has plenty of room to work
It is possible to take power.

According to the second aspect of the traveling operation device according to the present invention
For example, traveling operation is possible with only one working machine control lever at hand.
The same operation as the first operation control device
You get the benefit. Also, it is operated by an electric signal from the arithmetic unit.
Since the operation command is transmitted, control becomes easy.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of a traveling operation device according to the present invention will be described below with reference to the drawings. FIG. 1 is a circuit diagram of the travel operating device. A lever device 10 that interlocks with the left work implement operating lever 3 includes four pilot valves 11, 12, 13,
Have fourteen. The lever device 10 is a mono-lever system, and the pilot valve 11 acts when the left work implement operating lever 3 is tilted forward, the pilot valve 12 acts when tilted backward, and the pilot valve 13 tilts left when tilted right. For example, the pilot valve 14 operates. In addition, the left work implement control lever 3
If you incline diagonally, two pilot valves will act simultaneously. The pilot valves 11 and 12 are connected to the arm operation valve 20 by pilot circuits 22 and 23, respectively, and the pilot valves 13 and 14 are connected to the swing operation valve 21 by pilot circuits 24 and 25, respectively. An electromagnetic switching valve 3 is provided on the pilot circuits 22 and 23.
0 is installed, and an electromagnetic switching valve 31 is installed on the pilot circuits 24 and 25. The electromagnetic switching valves 30 and 31 can be switched to positions A and B by a switching switch 37. The electromagnetic switching valve 30 and the right traveling operation valve 40 are connected by the circuits 32 and 33 via the center swivel joint 36, and the electromagnetic operation valve 31 is connected to the left traveling operation valve 41 by the circuits 34 and 35 by the center swivel joint 36. Connected through. The left and right traveling operation valves 40, 41 switch the circuit between a hydraulic pump 44, a right hydraulic motor 42 that drives the right crawler belt 45, and a left hydraulic motor 43 that drives the left crawler belt 46 between forward and reverse rotation.

FIG. 2A is a perspective view of the first embodiment of the driver's seat, in which the right working machine operating lever 2 is provided on the right side of the seat 1.
A left work implement operating lever 3 is mounted on the left side. Reference numeral 4 is a blade operating lever. A changeover switch 37 is provided at the tip of the knob 5 of the left work implement operating lever 3. FIG. 2B is a perspective view of the left work implement lever 3 portion of the second embodiment of the driver's seat, and the changeover switch 37 is attached to the switch panel 6 provided below the left work implement lever 3. There is.

Next, the operation will be described. In FIG. 1, when the selector switch 37 is OFF, the solenoid selector valve 3
0 and 31 are in the position A, and the pilot circuits 22, 23 and 24 of the lever device 10 of the left work implement operating lever 3 are
25 is connected to the arm operation valve 20 and the swing operation valve 21. Therefore, as shown in FIG. 3, when the left work implement operating lever 3 is tilted forward, arm dump is performed, when tilted backward, arm excavation is performed, when tilted right, right rotation is performed, and when left, left rotation is performed. When the changeover switch 37 is turned on, the electromagnetic changeover valves 30, 31 are set to the B position, and the pilot circuit 2 of the lever device 10 is
2, 23 and 24, 25 are circuits 32, 33 and 3
4, 35, and the left and right traveling operation valves 40, 41. Therefore, as shown in FIG. 4, when the left work implement lever 3 is tilted forward, the right crawler belt 45 moves forward and the vehicle turns left, and when it is tilted backward, the left crawler belt 46 moves forward and the vehicle turns right. When the left work implement lever 3 is tilted to the right, the vehicle turns to the right, and when it is tilted to the left, it turns to the left. When the left work implement operating lever 3 is tilted forward diagonally to the right, the crawler belts 45 and 46 on both sides move forward and the vehicle moves forward, and when tilted diagonally left backward, the vehicle moves backward. When the left work implement operating lever 3 is tilted diagonally forward left, the right crawler belt 45 moves forward, the left crawler belt 46 reverses, and the vehicle spins left, and when tilted diagonally right right, the vehicle spins right.

Next, an example using an electric lever will be described as another embodiment of the traveling operation device according to the present invention.
FIG. 5 is a circuit diagram of the traveling operation device, in which the same reference numerals as those shown in FIGS. 1 to 4 denote the same devices, parts and the like. The lever device 50 that interlocks with the left work implement operating lever 3 has two potentiometers 51 and 52. The lever device 60 is of a mono-lever type, and if the left work implement operating lever 3 is tilted forward or backward, the potentiometer 51 generates an electric signal proportional to the operation amount, and if tilted right or left, the potentiometer 52 is changed. An electric signal proportional to the manipulated variable is generated. If the left operation lever 3 is tilted in an oblique direction, the two potentiometers 51 and 52 generate an electric signal proportional to the operation amount. Potentiometer 5
The electric signals generated by 1, 52 are input to the arithmetic unit 60, and the ON / OFF signals of the changeover switch 37 are also input to the arithmetic unit 6.
Input to 0. When the changeover switch 37 is OFF, the arithmetic unit 60 is connected to the arm operation valve 70, which is an electromagnetic proportional solenoid valve, by the circuits 61 and 62, and to the swing operation valve 71, which is an electromagnetic proportional solenoid valve, by the circuits 63 and 64, respectively. It When the changeover switch 37 is ON, the arithmetic unit 60 uses the circuits 65 and 66 through the center swivel joint 73 to the right traveling operation valve 80 that is an electromagnetic proportional solenoid valve, and the circuits 67 and 68 through the center swivel joint 73. The left traveling operation valve 81, which is an electromagnetic proportional solenoid valve, is connected to each.

Next, the operation of this embodiment will be described.
In FIG. 5, when the changeover switch 37 is OFF, if the left work implement control lever 3 is tilted forward or backward, for example, the arithmetic unit 60 inputs the operation amount of the work implement control lever 3 to the lever input (horizontal axis) as shown in FIG. ), The calculation output voltage e _s (or the calculation output current i _s ) (vertical axis) is output to the arm operation valve 70 via the circuits 61 and 62. The dead zone is provided in the output, but it may not be provided in some cases. The spool of the arm operation valve 70 is actuated by the operation output voltage e or the operation output current i to perform arm dumping or arm excavation. As defeat left working machine operating lever 3 on or left tilted example to the right and the arithmetic unit 60 is a lever input an operation amount of the left working machine operating lever 3 as shown in FIG. 7 (horizontal axis), calculated output voltage e _b (Or the calculation output current i _b ) (vertical axis) as the circuits 63, 6
4 to the turning operation valve 71. The dead zone is provided in the output, but it may not be provided in some cases. With the calculated output voltage e or the calculated output current i, the spool of the swing operation valve 71, which is an electromagnetic proportional solenoid valve, operates to turn right or left.

Next, in FIG. 5, the changeover switch 37 is turned on.
When it is N, the arithmetic unit 60 has the circuits 65 and 66 and the circuit 6
The left and right traveling operations 80, 81 are connected via 7, 68. Therefore, as shown in FIG. 4, when the left work implement operating lever 3 is tilted forward, the right shoe 45 moves forward and the vehicle turns left, and when it is pushed backward, the left shoe 46 moves forward and the vehicle turns right. When the left work implement lever 3 is tilted to the right, the vehicle turns to the right, and when it is tilted to the left, it turns to the left. When the left work implement control lever 3 is tilted forward to the right, the shoes 45 and 46 on both sides move forward and the vehicle moves forward, and when tilted backward to the left, the vehicle moves backward. When the left work implement control lever 3 is tilted diagonally to the left, the right shoe 45 moves forward, the left shoe 46 moves backward, and the vehicle spins left.

[0015]

As described above, according to the present invention, the pilot valve operated by the working machine operating lever arranged at the operator's hand and the pilot pressure of the working vehicle for operating the working machine and the traveling operation by hydraulic pressure are used. Since a switching valve for switching to a circuit connecting the pilot valve and the traveling operation valve is provided on the circuit connecting the operating machine operating valve to be operated, the operator switches the operating machine operating lever to the operating machine by switching the switching valve. Either operation or traveling operation can be selected arbitrarily. Therefore, both the working machine operation and the traveling operation can be performed by the working machine operating lever arranged at the hand, and the traveling operation device capable of performing the traveling operation in a comfortable posture without fatigue can be obtained. Furthermore, the second of the traveling operation device according to the present invention is
A working machine operating lever disposed at the operator's hand and means for calculating and outputting an electric signal indicating the stroke of the working machine operating lever are provided, and the means for calculating and outputting determines whether the working machine operating valve or the traveling operating valve. Since the selection means for controlling either one is provided, the operator can arbitrarily select the work implement operating lever for either the work implement operation or the traveling operation. Therefore, both the working machine operation and the traveling operation can be performed by the working machine operating lever arranged at the hand, and the traveling operation device capable of performing the traveling operation in a comfortable posture without fatigue can be obtained.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a traveling operation device of the present invention.

FIG. 2 is a perspective view of a driver's seat equipped with the traveling operation device of the present invention.

FIG. 3 is a diagram showing an operation pattern of a work machine operation device.

FIG. 4 is a diagram showing an operation pattern of the traveling operation device.

FIG. 5 is a circuit diagram of another embodiment of the traveling operation device of the present invention.

FIG. 6 is an input versus output characteristic diagram of the arithmetic unit of the present invention.

FIG. 7 is an input versus output characteristic diagram of the arithmetic unit of the present invention.

FIG. 8 is a perspective view of a conventional driver's seat.

[Explanation of symbols]

1 ... Seat, 2 ... Right work machine operating lever, 3 ... Left work machine operating lever, 10 ... Lever device, 11, 12, 13, 14
... Pilot valve, 20 ... Arm operation valve, 21 ... Swing operation valve, 30, 31 ... Electromagnetic switching valve, 36 ... Center swivel joint, 37 ... Changeover switch, 40 ... Right traveling operation valve,
41 ... Left traveling operation valve, 60 ... Calculation device.

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) E02F 9/20-9/22 E02F 9/16 F15B 11/00-11/22

Claims (2)

(57) [Claims] 1. A work machine operation and a traveling operation are hydraulically operated.
In the work vehicle to perform,Seat for operator to sit (1) To the side of Located inMade
Industrial machine control lever (3) When, The work machine operating lever (3) Corresponds to the tilt direction and tilt angle
To generate pilot pressure Pilot valve (11, 12, 13, 1
4) andThe pilot valve (11,12,13,14) And two working machine control valves
(20,21) Pilot circuit connecting between (22,23,24,25)
When, Left and right hydraulic motors for running (42,43) Operate each
Two travel control valves (40,41) When, The pilot circuit (22,23,24,25) 2 branches from
Travel control valve (40,41) Circuit connected to (32,33,34,35) When, Arranged in the branch, the pilot pressure is applied to the working machine operation valve (20,
twenty one) Or travel control valve (40,41) The electric power leading to only one of
Magnetic switching valve (30,31) With and The switching valve (30,31) By switching the
Industrial machine control lever (3) Work machine operation and traveling operation are possible only
Noh A traveling operation device characterized by the above. 2. A industrial vehicle to perform the work machine operation and traveling operation by the hydraulic pressure, is disposed on the side of the seat (1) for seating the operator work
Based on the tilt direction and tilt angle of the industrial machine operating lever (3) and the work machine operating lever (3).
A computing device (60) for computing and outputting electrical signals, and two operated by electrical signals from the computing device (60)
The electromagnetic proportional work machine operation valve (70, 71) and the electric signal from the arithmetic unit are operated to
Two electric motors for operating the left and right hydraulic motors (42, 43) respectively.
The magnetic proportional traveling operation valve (80, 81) and the electric signal from the arithmetic unit (60) are applied to the electromagnetic proportional work machine operating valve.
(70, 71) and any of the electromagnetic proportional type traveling operation valves (80, 81)
Instruct the arithmetic unit (60) to output to only one of them.
And a changeover switch for the power (37), by switching the change-over switch (37), one
Only work implement operation lever (10) can be used for work implement operation and traveling operation.
A traveling operating device characterized by being capable .