JP2020068727A - Walking-type tending machine - Google Patents

Abstract

To provide a walking-type tending machine having improved operability of on/off operation of a main clutch.SOLUTION: A walking-type tending machine including an engine (E), a pair of left/right traveling wheels (3L and 3R), a handle (9) extending rearward from the front to the left/right, and a transmission case (1) including a transmission mechanism for transmitting driving force from the engine (E) to the traveling wheels (3L and 3R), is characterized by comprising a main clutch for putting on/off the power from the engine (E) and providing three levers capable of putting on/off the main clutch. Alternatively, the walking-type tending machine is characterized by providing the three levers at a left handle rod (9L) of the handle (9).SELECTED DRAWING: Figure 6

Description

  The present invention relates to a walk-behind management machine in which a worker walks while performing agricultural work such as plowing.

  The walk-behind management machine has a structure in which a handle is provided with a main clutch lever operated in the front-rear direction and a clutch lever operated in the up-down direction.

JP, 2005-193900, A

In the prior art, since the operation of turning on and off the main clutch is performed by two levers, there is a difficulty in operability.
The present invention is to solve such a problem.

  The problems of the present invention described above are solved by the following technical means.

  According to the invention of claim 1, the engine (E), the pair of left and right traveling wheels (3L, 3R), the handle (9) extending leftward and rightward from the front to the rear, and the driving force from the engine (E) are provided. In a walk-behind management machine including a transmission case (1) having a transmission mechanism for transmitting to the traveling wheels (3L, 3R), a main clutch that turns on and off the power from the engine (E) is configured, and the main clutch is The walking type management machine is provided with three levers that can be turned on and off.

The invention of claim 2 provides the walking type management machine according to claim 1, wherein the three levers are provided on a left handle rod (9L) of the handle (9).
According to a third aspect of the present invention, the three levers include a clutch lever (11) that opens and closes the main clutch by operating in the front-rear direction, a finger lever (13) that opens and closes the main clutch by operating in the up-down direction, and a vertical lever. The walk-behind management machine according to claim 2, comprising a safety clutch lever (59) for opening and closing the main clutch by operation.
In the invention of claim 4, the safety clutch lever (59) is configured integrally with the finger lever (13), and the safety clutch lever (59) is configured to be detachable from the finger lever (13). The walk-behind management machine according to claim 3.

In the inventions of claims 1 to 3, the operability is improved.
According to the invention of claim 4, the maintainability is improved.

Perspective view of walking management machine Right side view of walk-behind management machine Plan view of walk-behind management machine Enlarged side view near the clutch lever Enlarged side view near the clutch lever Enlarged side view near the clutch lever Enlarged side view near the clutch lever Perspective view of safety clutch lever Enlarged plan view near the clutch lever Enlarged perspective view near the clutch lever Enlarged perspective view near the clutch lever Enlarged perspective view of clutch lever mechanism

  Embodiments of the present invention will be described below with reference to the examples shown in the drawings. In the description of the embodiments, the left and right directions are referred to as the left and the right, respectively, and the forward direction is referred to as the forward direction and the backward direction is referred to as the backward direction toward the forward direction of the machine body, but the configuration of the present invention is not limited thereto.

  In the walk-behind management machine of the present invention, the left and right axles 2 and 2 are mounted on the lower part of the mission case 1 which is the center of the machine body, and the left and right running wheels 3L and 3R are attached to the left and right axles 2 and 2 which project to the left and right. Are configured.

  An input pulley 21 is attached to an input shaft 21a protruding above the left axle 2 and to the left of the mission case 1. On the other hand, the engine E is mounted on the engine base 15 that is attached to the front part of the mission case 1 and protrudes to the front side, the reduction gear 33 is provided on the crankcase 16 of the engine E, and the output shaft 20a that protrudes leftward from the reduction gear 33 is provided. The output pulley 20 is attached to the. A transmission belt 32 is wound around the input pulley 21 and the output pulley 20, and a belt tension pulley 25 can transmit and receive power transmission (main clutch). Reference symbol S is a stand.

  A front hitch 15a is provided at the front of the engine base 15 so that various working machines can be mounted.

  The output shaft 20a on the engine E side is configured to output the rotation reduced in the speed reducer 33 attached to the crankcase 16 of the engine E.

This can prevent the diameter of the input pulley 21 from increasing.
On the handle base 7 attached to the upper part of the mission case 1, the handle base 8 is horizontally rotated around the vertical axis 8a as a rotation center, and the handle base 8 can be fixed at any position. Reference numeral 8b is a handle rotation lever that rotates and fixes the handle base 8.
The handle base 8 is provided with left and right handle rods 9L and 9R that branch leftward and rightward obliquely upward. Left and right side clutch levers 12L and 12R are provided below the rear ends of the left and right handle rods 9L and 9R, and when the left and right side clutch levers 12L and 12R are gripped, the left and right side clutches in the transmission case 1 are disengaged.
A clutch lever that engages and disengages transmission (main clutch engagement and disengagement) by moving a belt tension pulley 25 that stretches or loosens a transmission belt 32 wound around the output pulley 20 and the input pulley 21 above the left handle rod 9L. 11 is provided. The clutch lever 11 is configured to be held in the left hand and operated in the front-back direction. When operated forward, the main clutch is engaged, and when operated backward, the main clutch is disengaged.
On the other hand, a finger lever 13 is provided which can be operated by the thumb of the left hand while holding the grip portion 9La of the left handle rod 9L with the left hand. The finger lever 13 has the same function as the clutch lever 11. That is, when the finger lever 13 is pushed down with the thumb, the belt tension pulley 25 moves and the transmission belt 32 is tensioned, so that the transmission is in the engaged state (main clutch engaged). When the finger lever 13 is pushed up by the thumb to return it to its original position, the belt tension pulley 25 moves to loosen the transmission belt 32 and the transmission is disengaged (main clutch disengaged).
When the finger lever 13 is pushed down with the thumb to engage the main clutch, the finger lever 13 is configured to return to its original position, and the thumb is pushed down again to disengage the main clutch. May be.
Further, the push-down portion 59c of the safety clutch lever 59 is arranged above the grip portion 9La of the left handle rod 9L of the handle 9, and when the push-down portion 59c is pushed down, the main clutch is engaged and the push-down portion 59c is returned to its original position. The main clutch is disengaged when returning.
As described above, since the lever for opening and closing the main clutch can be operated by the three levers of the clutch lever 11, the finger lever 13, and the safety clutch lever 59, it is possible to use them properly depending on the situation and improve the operability. become.
Further, since the clutch lever 11, the finger lever 13, and the safety clutch lever 59 are centrally arranged on the left handle rod 9L of the handle 9, the operability is improved and the maintainability is also improved.
Further, the clutch lever 11 is configured such that the main clutch can be turned on and off by operating the front and rear directions, the main clutch can be turned on and off by operating the finger lever 13 in the vertical direction, and the main clutch can be turned on and off by operating the safety clutch lever 59 in the vertical direction. The operability is improved because it can be turned on and off.
Further, since the safety clutch lever 59 is configured to be attachable to and detachable from the finger lever 13, the maintainability is improved.
The left handle rod 9L and the right handle rod 9R are connected and fixed by a connecting rod 9A. A handle up / down lever 9B is provided near the connecting portion between the right handle rod 9R and the connecting rod 9A. When the handle up / down lever 9B is gripped with the right hand, the left handle rod 9L and the right handle rod 9R rotate around the rotation axis 9C of the horizontal axis, and the left and right grips of the left handle rod 9L and the right handle rod 9R are gripped. The configuration is such that the vertical positions of 9La and 9Ra are adjusted.
A rotary clutch lever RC is provided on the front side of the grip portion 9Ra of the right handle rod 9R. A hitch 10 is attached to the rear part of the transmission case 1 near the top and bottom, and a rotary working machine (not shown) connected to the hitch 10 is turned on and off by the rotary clutch lever RC. Further, the hitch 10 is configured so that various working machines such as a plow, a ridger, and a trailer can be mounted.
An emergency stop bar EL is provided in the center of the left handle rod 9L and the right handle rod 9R, near the front of the left and right grips 9La and 9Ra. When the emergency stop bar EL is pushed downward, the belt tension pulley 25 moves to loosen the transmission belt 32 and the transmission is cut off. The emergency stop bar EL may be intentionally pushed down to be stopped, but even if the aircraft unexpectedly moves backward due to an operation error or the like, the emergency stop bar EL comes into contact with the operation and is pushed down to stop the aircraft. ..

  A shift lever 6 is provided on the left side of the handle base 8 so as to extend rearward and upward from the shift portion 5 of the transmission case 1. Reference numeral 14 is an engine start / stop switch. Reference numeral 14a is an engine speed adjusting lever.

The engagement / disengagement of the clutch lever 11 will be described with reference to FIGS. 4 and 5. FIG. 4 shows the clutch lever 11 in the disengaged state. To put the clutch lever 11 in and out, there are a method of directly grasping the clutch lever 11 to open and close, and a method of operating the finger lever 13.
In the method of operating the finger lever 13, when the finger lever 13 is operated (pushed down) in the A direction around the first rotation fulcrum 13a, the clutch lever 11 moves to the engaged position and the finger lever 13 is again moved in the A direction. When operated (pushed down), the clutch lever 11 moves to the disengaged position.
When the finger lever 13 is operated (pushed down) in the A direction, the first plate 13b integrally rotates clockwise, and the roller 50a attached to the second plate 50 (the hatched portion is drawn to make the shape easy to understand) is attached to the roller 50a. Then, the second plate 50 rotates counterclockwise.
A third plate 51 is arranged on the back side (back side in FIG. 4) of the second plate 50, and the second plate 50 is connected to the third plate 51 at a second rotation fulcrum 52 (free fitting). Therefore, when the second plate 50 rotates counterclockwise, the third plate 51 also rotates counterclockwise. The rotation fulcrum of the third plate 51 is the third rotation fulcrum 53, which is loosely fitted to the third rotation fulcrum. The third rotation fulcrum 53 is also a rotation fulcrum of the clutch lever 11, and the clutch lever 11 is also loosely fitted.

When the third plate 51 rotates counterclockwise, the first protrusion 51a formed on the third plate 51 abuts on the round rod 11a that is integral (welded) with the clutch lever 11, and the clutch lever 11 moves counterclockwise. Rotate around. When the clutch lever 11 rotates counterclockwise, the clutch plate 11b rotates counterclockwise, and when the clutch plate 11b rotates counterclockwise, the clutch arm that is connected (i.e., loosely fitted) to the clutch plate 11b. 57 also rotates counterclockwise and the clutch cable 58 is pulled in the B direction to put the clutch in the engaged state.
FIG. 5 shows the engaged state of the clutch lever 11. Since the torque spring 54 is provided at the first rotation fulcrum 13a of the finger lever 13, the finger lever 13 is configured to return to its original position even when the clutch lever 11 is in the engaged state. The first tension spring 55 is hooked between the left handle rod 9L and the pin 51b of the third plate 51. The second tension spring 56 is hooked between the pin 51b of the third plate 51 and the pin 50b of the second plate 50. As a result, the second plate 50 and the third plate 51 do not rotate carelessly. As described above, the configuration in which the finger lever 13 is turned on and off to put the clutch in the engaged state and the finger lever 13 is returned to the original position may be applied not only when moving backward but also when moving forward.
Further, the imaginary line K2 connecting the fourth rotation fulcrum K1 connecting the clutch plate 11b and the clutch arm 57 and the end of the clutch cable 58 is beyond the fulcrum with respect to the third rotation fulcrum 53. The clutch lever 11 does not return to the disengaged position. Further, the first tension spring 55 and the second tension spring 56 have no force to return the clutch lever 11 to the disengaged position.
In order to disengage the clutch, when the finger lever 13 is operated (depressed) in the direction A again, the first plate 13b integrally rotates clockwise, and the second plate 50 (oblique lines for easy understanding of the shape). The roller 50a attached to the second plate 50, and then the second plate 50 rotates clockwise. When the second plate 50 rotates clockwise, the third plate 51 also rotates clockwise. When the third plate 51 rotates clockwise, the protrusion 51c formed on the third plate 51 contacts the round bar 11a integral with the clutch lever 11, and the clutch lever 11 rotates clockwise. When the clutch lever 11 is rotated clockwise, the clutch plate 11b is rotated clockwise, and when the clutch plate 11b is rotated clockwise, the clutch arm 57 that is connected (i.e., loosely fitted) to the clutch plate 11b is also rotated clockwise. The clutch cable 58 is turned around to loosen the clutch cable 58 in the C direction, and the clutch is disengaged.
Since the surface of the roller 50a rotates with respect to the support shaft, the operation load is reduced.

  Next, a configuration in which the safety clutch lever 59 is provided on the finger lever 13 will be described (FIGS. 6 and 7). FIG. 8 shows a diagram of the safety clutch lever 59. The flat portion 59a of the safety clutch lever 59 is placed on the round rod portion 13c of the finger lever 13 from the upper side, and the round rod portion 13c of the finger lever 13 is sandwiched by the plate 60 from the lower side and fixed with the screw 61 and the nut. It is configured. The nut may be fixed to the lower side of the plate 60 by welding. FIG. 9 shows a plan view with the safety clutch lever 59 attached. As a result, the safety clutch lever 59 can be attached simply and stably.

  A hole 61a into which the screw 61 is inserted is formed in the flat surface portion 59a of the safety clutch lever 59. However, by increasing the dimensional tolerance of the hole 61a, it is possible to absorb the positional deviation due to component accuracy.

Further, by bringing the front end portion 59b of the safety clutch lever 59 into contact with the first rotation fulcrum 13a from below, the safety clutch lever 59 can be rotated with respect to the round bar portion 13c of the finger lever 13. It is configured to prevent. 6 and 10 (perspective view from the rear) show the clutch disengaged state, and FIGS. 7 and 11 (perspective view from the rear) show the clutch engaged state. This improves the operability of the safety clutch lever 59.
When the push-down portion 59c of the safety clutch lever 59 is pushed from above, the finger lever 13 rotates in the A direction, so that the clutch is engaged in the same manner as described above. At this time, the safety clutch lever 59 is in contact with the upper portion of the grip portion 9La of the left handle rod 9L.
When the safety clutch lever 59 is provided, a virtual line K3 connecting the fourth rotation fulcrum K1 connecting the clutch plate 11b and the clutch arm 57 and the end of the clutch cable 58 to the third rotation fulcrum 53. The fulcrum is not exceeded. By providing a fulcrum crossing prevention member 62 described later, the fulcrum is not crossed. As described above, the safety clutch lever 59 can be retrofitted to the existing configuration, so that the safety of the walk-type management machine moving in the market is also improved.
Therefore, in order to maintain the engaged state of the clutch, it is necessary to continue to press the depressing portion 59 of the safety clutch lever 59 from the upper side. When the safety clutch lever 59 is released, the clutch is disengaged.
A washer 50c is attached to the second plate 50 (Fig. 6). Although the clutch is disengaged when the hand is released from the safety clutch lever 59, a washer 50c is provided to prevent the second plate 50 from excessively rotating. That is, the washer 50c is in contact with the third rotation fulcrum 53 to prevent the second plate 50 from excessively rotating. The range of movement of the second plate 50 can be determined by changing the diameter of the washer 50c.
Further, the washer 50c prevents the second plate 50 from moving laterally. As a result, the second plate 50 rotates stably.

Even when the safety clutch lever 59 is provided, since the clutch lever 11 can be operated in the clutch engaging direction, it is necessary to prevent the imaginary line K3 from exceeding the fulcrum with respect to the third rotation fulcrum 53. Therefore, the clutch arm 57 is provided with the fulcrum crossing prevention member 62. FIG. 12 shows the fulcrum crossing prevention member 62 as viewed from below.
As a result, even if the clutch lever 11 is operated in the entering direction, the fulcrum crossing prevention member 62 contacts the third rotation fulcrum 53, so that the clutch lever 11 cannot be operated further in the entering direction. Therefore, when the clutch lever 11 is released, the clutch lever 11 returns to the disengaged position, and the clutch is disengaged. As a result, when the clutch lever 11 is not continuously operated in the engaging direction, the main clutch is disengaged. This ensures safety.
Further, since the fulcrum crossing prevention member 62 has a bilaterally symmetrical shape, a vertically symmetrical shape, and a longitudinally symmetrical shape, it can be prevented from being erroneously assembled at the time of assembly. Further, even if the fulcrum crossing prevention member 62 is attached to any part of the straight portion of the clutch arm 57, the fulcrum crossing prevention member 62 is configured to contact the third rotation fulcrum 53, so that the assembling work is facilitated. Become.

As described above, when the safety clutch lever 59 is released, the clutch is immediately disengaged, so that safe work can be performed.
Further, the push-down portion 59c of the safety clutch lever 59 is arranged above the grip portion 9La of the left handle rod 9L of the handle 9, the finger lever 13 is provided in front of the push-down portion 59c, and the clutch lever 11 is provided in front of the finger lever 13. The configuration is provided. This improves operability.

  Further, since the push-down portion 59c of the safety clutch lever 59 is formed in an arc shape 59d in the same direction as the arc shape of the grip portion 9La, the grip portion 9La is pressed while the safety clutch lever 59 is pressed against the grip portion 9La. It is possible to grip the push-down portion 59c of the safety clutch lever 59 together. The radius of the circular arc shape 59d of the push-down portion 59c is the same as or larger than that of the grip portion 9La, so that the safety clutch lever 59 appropriately contacts the grip portion 9La.

  Further, in the pushing-down portion 59c of the safety clutch lever 59, all the surfaces including the upper surface and the lower surface are coated with an elastic resin to prevent slippage.

  Further, a resin coating is also applied to a connecting portion 59f between the main body portion 59e to which the push-down portion 59c of the safety clutch lever 59 is attached by welding and the push-down portion 59c.

E Engine 1 Mission case 3L Left running wheel 3R Right running wheel 9 Handle 9L Left handle rod 11 Clutch lever 13 Finger lever 59 Safety clutch lever

Claims (4)

  The engine (E), a pair of left and right traveling wheels (3L, 3R), a handle (9) extending leftward and rightward from the front to the rear, and driving force from the engine (E) is applied to the traveling wheels (3L, 3R). ), A walking type management machine equipped with a transmission case (1) having a transmission mechanism installed therein, which comprises a main clutch for turning on and off power from the engine (E), and three levers for turning on and off the main clutch. A walk-type management machine characterized by being provided with. The walk-behind management machine according to claim 1, wherein the three levers are provided on a left handle rod (9L) of the handle (9).   The three levers are a clutch lever (11) that opens and closes the main clutch by operating in the front-rear direction, a finger lever (13) that opens and closes the main clutch by operating up and down, and a clutch lever (13) that opens and closes by operating up and down. The walk-behind management machine according to claim 2, characterized in that it comprises a safety clutch lever (59).   The safety clutch lever (59) is formed integrally with the finger lever (13), and the safety clutch lever (59) is detachably attached to the finger lever (13). The walk-type management machine described in 3.

Images