JP2013159148A - Shift operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that, if a detection device for detecting a neutral state of an operation lever is formed with a groove formed on a support shaft, it takes much trouble to arrange the detection device in a shift operation device.SOLUTION: A switch 25 is arranged in either of first and second arms 17, 19 turnably supported to a spindle 16; an actuation plate 26 is arranged in the another; and a neutral position is detected by actuating the switch 25 by the actuation plate 26 when recessed grooves formed on the first and second arms 17, 19 are located at the neutral position where they faces each other.

Description

  The present invention relates to a shift operation device that performs a shift operation such as a rotational speed of a PTO shaft, and more particularly to a detection device that detects a neutral state of an operation lever.

  Generally, a tractor that is a work vehicle is provided with a speed change operation device that performs a speed change operation on a traveling speed, a rotational speed of a PTO shaft provided on the tractor, and the like. Such a shift operation device has an operation lever for performing a shift operation, and is configured to perform a shift operation by moving the operation lever along a guide groove.

  The guide groove is composed of two shift regions in which the operation lever is moved in the front-rear direction and a shift operation in one neutral region in which the operation lever can be moved in the left-right direction, and the two shift regions are connected in the neutral region. It is formed into a shape.

  2. Description of the Related Art Conventionally, there has been devised a shift operation device including a detection device that detects a neutral state of a control lever (a state where the lever is positioned in a neutral region) (see, for example, Patent Document 1). Such a detection device includes a groove formed on a support shaft that rotatably supports an operation lever and a switch (button switch). The button portion of the switch is fitted into the groove so that the switch is turned on and off. In other words, the neutral state of the operation lever is detected.

JP 2001-277894 A

  However, in the speed change operation device described in Patent Document 1, since it is necessary to provide the support shaft with a groove for fitting the button portion, it takes time to provide the detection device. For example, the detection device It is difficult not only to provide the sensor later, but also to adjust the detection device itself.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a speed change operation device that solves the above problems by providing an operation plate or a switch on each arm of the speed change operation device.

The present invention comprises a support block (15) rotatably supported on a support shaft (16),
An operation lever (6) rotatably supported on an axis (13) in a direction orthogonal to the support shaft (16), on the support block (15);
An H-shaped guide groove (7) for guiding the operation lever (6);
First and second arms (17, 19) that are rotatably supported by the support shaft (16) and have concave grooves (17a, 19a) so as to face each other, and
In the neutral position where the concave grooves of the first and second arms (17, 19) face each other, the operating lever (6) is engaged with one of the concave grooves (17a, 19a), and the first In the shift operation device (9) formed by performing a shift operation by operating the first or second arm (17, 19),
An actuating plate (26) is disposed on one of the first and second arms (17, 19), and a switch (25) is disposed on the other,
Only when the first and second arms (17, 19) are in the neutral position, the actuating plate (26) operates the switch (25) to detect the neutral position. To do.

The operating plate (26) is rotatably supported by one of the first and second arms (17, 19), and the other end of the tip and the arm (17, 19). A spring (31) is stretched between
Due to the urging force of the spring (31), the operating plate (26) abuts against the side surfaces of the first and second arms (17, 19), and both the arms (17, 19) are in the neutral position. The concave grooves (17a, 19a) are aligned so as to face each other.

  In addition, although the code | symbol in the said parenthesis is for contrast with drawing, it does not have any influence on description of a claim by this.

  According to the first aspect of the present invention, a switch or an operation plate is disposed in each of the first and second arms, and the switch is operated by the operation plate to detect the neutral position of the first and second arms. Not only can a detection device for detecting the neutral state of the control lever be easily provided in the speed change operation device, but such a detection device can also be easily provided (retrofitted) later, and adjustment and arrangement of switches, etc. The detection device can be easily adjusted.

  According to the invention of claim 2, since the spring is stretched between the tip of the operating plate and the arm so that the first and second arms are aligned at the neutral position, the speed change operation by the operation lever can be performed. Therefore, the work vehicle can be operated smoothly.

The top view which shows the driving | operation operation part of the tractor provided with the speed change operation apparatus which concerns on this Embodiment. The top view which shows the speed change operation apparatus arrange | positioned at the side panel. It is a figure which shows the structure of a speed change operation apparatus, Comprising: (a) is the side view, (b) is the perspective view, (c) is the expansion perspective view. It is a figure which shows the switch attached to the arm and arm of a speed change operation apparatus, Comprising: (a) is the perspective view, (b) is the side view. It is a figure which shows the action | operation plate attached to the arm and arm of a speed change operation apparatus, Comprising: (a) is the perspective view, (b) is an exploded view which shows the attachment structure. It is a figure which shows the state which has a transmission operation apparatus in neutral, Comprising: (a) is the side view, (b) is the perspective view. It is a figure which shows the state which has a speed change operation apparatus in the 1st speed, Comprising: (a) is the side view, (b) is the perspective view. It is a figure which shows the state which has a speed change operation apparatus in 2nd speed, Comprising: (a) is the side view, (b) is the perspective view. It is a figure which shows the state which has a speed change operation apparatus in the 3rd speed, Comprising: (a) is the side view, (b) is the perspective view. It is a figure which shows the state which has a speed change operation apparatus in 4th speed, Comprising: (a) is the side view, (b) is the perspective view.

  Hereinafter, a shift operation device according to an embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, a driving operation unit 2 is provided at the rear of the vehicle body of the tractor 1 that is a work vehicle. Side panels 3 and 5 are provided on both sides of the driving operation unit 2, and a speed change operation device 9 for changing the rotational speed of a PTO shaft (not shown) is provided on one side panel 3. ing.

  As shown in FIG. 2, the speed change operating device 9 has a guide groove 7 formed in an H shape in plan view. A PTO speed change lever 6 as an operation lever is disposed in the guide groove 7, and the PTO speed change lever 6 is configured to be guided by the guide groove 7.

  The PTO speed change lever 6 is provided with a plurality of bent portions 6a and 6b as shown in FIG. The bent lower end portion is connected and supported by the support plate 10 as shown in FIG. The support plate 10 extends upward from the upper end of the support bracket 12, is bent substantially at the center, and is formed in an L shape in side view.

  The support bracket 12 is rotatably supported on a support block 15 by a shaft 13, and the support block 15 is rotatably supported by a support shaft 16 disposed so as to be orthogonal to the shaft 13. . The support shaft 16 rotatably supports a first arm 17 and a second arm 19 arranged so as to sandwich the support block 15, and the first and second arms 17 and 19 are plates. It is composed of shapes.

  The upper ends of the first and second arms 17 and 19 are bent inward so as to face each other, and the first and second arms 17 and 19 face each other so that they are substantially co-optric in side view. It is formed to have a letter shape. Further, as shown in FIGS. 3 (c) and 4 (a), the bent ends are opposed to notched portions (concave grooves) 17a and 19a that are notched in a substantially rectangular shape. Is formed. Further, at the lower ends of the first and second arms 17 and 19, one ends of rods 22 and 23 of link mechanisms 20 and 21 that link the operation of the PTO speed change lever 6 and the speed change of the PTO shaft (not shown). Are connected, and the link mechanisms 20 and 21 are configured to interlock with the rotation of the first and second arms 17 and 19.

  As shown in FIG. 4B, the first arm 17 is provided with a switch 25. The switch 25 is constituted by a button switch having a button portion 25 a for switching ON / OFF of the switch, and a pin member 24 projects from the side of the first arm 17 below the switch 25. It is provided as follows.

  On the other hand, as shown in FIG. 5A, the second arm 19 is provided with a switch plate (operation plate) 26, and the switch plate 26 and the switch 25 change the neutral state of the PTO transmission lever 6. A detection device 27 for detection is configured. As shown in FIG. 5B, an attachment portion 26a for attaching the switch plate 26 to the second arm 19 is provided at one end of the switch plate 26. Two attachment portions 26a are connected to the attachment portion 26a. Holes 26b and 26c are provided. The connection holes 26b and 26c are fitted to a support shaft 28 provided in the second arm 19, and the switch plate 26 is rotated by fitting the connection holes 26b and 26c to the support shaft 28. It is provided freely. In addition, a split pin 30 is inserted through a washer 29 above the support shaft 28 that supports the attachment portion 26a. Since the split pin 30 is fitted into the support shaft 28, the attachment portion 26 a is prevented from coming off from the support shaft 28.

  A connection hole 26 d is provided on the other end side of the switch plate 26. One end of a spring 31 is engaged with the connecting hole 26d, and the other end of the spring 31 is engaged with the pin member 24, whereby the spring 31 is interposed between the first arm 17 and the tip of the switch plate 26. Is stretched (see FIG. 3A).

  Next, the operation of the speed change operating device 9 configured as described above will be described. The driver operates the PTO speed change lever 6 in order to operate a work machine (not shown) mounted on the tractor 1. By this operation, a PTO transmission (not shown) that changes the rotational speed of the PTO shaft is shifted, and the PTO shaft rotates at the shifted rotational speed.

  The PTO speed change lever 6 before operation is in the center position (neutral) of the arrows A and B (see FIG. 2). At this time, the first and second arms are in a neutral position where the opposed notches 17a and 19a are aligned, and the side surfaces of both arms 17 and 19 are in contact with the switch plate 26. As shown in FIG. 6A, the switch 25 is in an ON state in which the button portion 25 a is pushed in by the switch plate 26, and the neutral positions of the first and second arms 17 and 19 are determined by the ON state of the switch 25. (Neutral state of the PTO shift lever 6) is detected. At this time, as shown in FIG. 6B, the support plate 10 can swing within the notches 17a and 19a. Further, the PTO speed change lever 6 is in a state of swinging in the directions of arrows A and B, which are neutral regions of the guide groove 7 (see FIG. 2).

  When the PTO transmission is set to the first speed and the PTO shaft is rotated, the driver operates (moves) the PTO transmission lever 6 in the direction of arrow A (see FIG. 2). Then, the support plate 10 moves in the notches 17a and 19a in the direction of arrow A, and the support bracket 12 rotates in the direction of arrow A. As shown in FIG. 7B, the support plate 10 engages with the cutout portion 19 a of the second arm 19 as it moves.

  When the driver operates the PTO speed change lever 6 in the direction of arrow A and then operates the PTO speed change lever 6 in the direction of arrow C, the support plate 10 rotates in the direction of arrow C, and the support bracket and the support block 15 also move. It rotates in the direction of arrow C. As shown in FIG. 7A, the second arm 19 rotates in the arrow C direction as the support plate 10 rotates. The link mechanism 21 is interlocked with the rotation of the second arm 19, and the PTO transmission is shifted to the first speed. At this time, the switch plate 26 is separated from the switch 25 by the rotation of the second arm 19, and the switch 25 is in the OFF state (the shift state of the PTO shift lever 6) with the button portion 25a protruding. .

  When the driver operates the PTO speed change lever 6 in the direction of arrow D after operating the PTO speed change lever 6 in the direction of arrow A, the support plate 10, the support bracket 12, and the support block 15 are moved in the direction of arrow D. Rotate. As shown in FIG. 8A, the second arm 19 rotates in the direction of arrow D together with the support plate 10. The link mechanism 21 is interlocked with this rotation, and the PTO transmission is shifted to the second speed. As shown in FIG. 8 (b), the switch plate 26 rotates in contact with the side surface of the first arm as the second arm 17 rotates. As a result, the switch plate 26 is separated from the switch 25, and the switch 25 is in the OFF state in which the button portion 25a protrudes.

  On the other hand, when the driver operates the PTO speed change lever 6 in the direction of arrow B, the support plate 10 moves in the notches 17a and 19a in the direction of arrow B, and the support bracket 12 rotates in the direction of arrow B. Move. As shown in FIG. 9B, the support plate 10 engages with the cutout portion 17 a of the first arm 17 as it moves.

  When the driver operates the PTO speed change lever 6 in the direction of arrow B and then operates the PTO speed change lever 6 in the direction of arrow E, the support plate 10, the support bracket, and the support block 15 are moved as in the case of the first speed change. It rotates in the direction of arrow E. As shown in FIG. 9A, the first arm 17 rotates together with the support plate 10 in the direction of arrow E, and the link mechanism 20 is interlocked with the rotation of the first arm 17 to perform PTO speed change. The device is shifted to 3rd speed. Further, as shown in FIG. 9B, the switch plate 26 comes into contact with the side surface of the first arm 17 as the first arm 17 rotates, and is separated from the switch 25 by rotating. The switch 25 is in an OFF state in which the button portion 25a protrudes.

  When the driver moves the PTO speed change lever 6 in the direction of arrow F after operating the PTO speed change lever 6 in the direction of arrow B, the support plate 10, the support bracket 12, and The support block 15 rotates in the direction of arrow F. As shown in FIG. 10A, the first arm 19 rotates together with the support plate 10 in the direction of the arrow F. The link mechanism 21 is interlocked with this rotation, and the PTO transmission shifts to the fourth speed. Is done. At this time, as shown in FIG. 10B, the switch plate 26 is separated from the switch 25 by the rotation of the first arm 19, and the switch 25 is in the OFF state in which the button portion 25a protrudes. Become.

  When the driver operates the PTO shift lever 6 from each shift position to the neutral position (neutral), the switch plate 26 returns the first and second arms 17 and 19 to the neutral position by the biasing force of the spring 31. Energize as follows. When the first and second arms 17 and 19 return to the neutral position, the switch plate 26 comes into contact with the side surfaces of the first and second arms 17 and 19 again, and the button 25a is pushed into the switch 25. In the ON state, the neutral state of the PTO shift lever 6 is detected.

  As described above, the switch 25 is provided on the first arm 17, the switch plate 26 is provided on the second arm 19, and the switch 25 is turned ON / OFF by the switch plate 26. Therefore, a detection device 27 for detecting the neutral state of the PTO speed change lever 6 can be easily provided in the speed change operation device 9 and the switch plate 26 and the switch can be easily attached to the arms 17 and 19 later. In addition, the arrangement and adjustment of the switch 25 and the switch plate 26 can be easily performed.

  In addition, a spring 31 is stretched between the tip of the switch plate 26 and the first arm 17, and when the PTO speed change lever 6 is in the neutral position, the first and second notches 17a and 19a are aligned. Since the second arm is aligned at the neutral position, the support plate 10 moves smoothly in the notches 17a and 19a, the PTO speed change lever 6 can be operated smoothly, and the tractor 1 can be operated smoothly. It can be carried out.

  Further, since the neutral state of the PTO speed change lever 6 is detected by turning on / off the switch 25 provided on the first arm 17, for example, compared to the case where the neutral state of the PTO speed change lever 6 is detected by a plurality of switches. Thus, the manufacturing cost can be reduced, and the detection device 27 can be configured compactly.

  In addition, since the switch 25 and the like are provided outside the transmission case (not shown), the adjustment of the switch 25 and the switch plate 26 and the like is easy as compared with the case where the switch 25 is built in the transmission case.

  Further, since the neutral state is detected when the switch 25 is turned on, for example, when the switch 25 is broken or the switch plate 26 is removed, the neutral state is not detected. It is possible to prevent a work machine or the like from being started in an unintended state.

  In the present embodiment, the switch 25 is provided on the first arm 17 and the switch plate 26 is provided on the second arm 19. However, the present invention is not limited to this, and the switch 25 is provided on the second arm 17. Of course, the plate 26 may be provided on the first arm 19.

  Further, in the present embodiment, the present invention is applied to a speed change operation device that changes the rotational speed of the PTO shaft. However, the present invention is not limited to this. For example, the invention may be applied to a speed change operation device that changes the traveling speed of the tractor 1. Good.

6 Operation lever (PTO shift lever)
7 Guide groove 13 Shaft 15 Support block 16 Support shaft 17 First arm 17a Concave groove (notch)
19 Second arm 19a Groove (notch)
25 Switch 26 Actuating plate (Switch plate)
31 Spring

Claims (2)

A support block rotatably supported on a support shaft;
An operation lever rotatably supported on an axis in a direction orthogonal to the support shaft on the support block;
An H-shaped guide groove for guiding the operation lever;
A first arm and a second arm that are rotatably supported by the support shaft and each have a concave groove so as to face each other;
In a neutral position where the concave grooves of the first and second arms are opposed to each other, the operation lever is engaged with one of the concave grooves, and the first or second arm is operated to perform a speed change operation. In the shifting operation device formed as
An operation plate is disposed on one of the first and second arms, and a switch is disposed on the other,
Only when the first and second arms are in the neutral position, the actuating plate activates the switch to detect the neutral position.
A speed change operation device characterized by that. The operating plate is rotatably supported by one of the first and second arms, and a spring is stretched between the tip of the operating plate and the other of the arms,
Due to the urging force of the spring, the operating plate comes into contact with the side surfaces of the first and second arms, and both the arms are aligned so that the concave grooves face each other in the neutral position.
The shift operation device according to claim 1.

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