JPH07163204A - Power tiller - Google Patents

Abstract

PURPOSE:To improve the strength by integrally forming a transmission case for transmitting a driving power from an engine to a travel wheel and a rotary and simplify the structure by supporting a rotary cover. CONSTITUTION:This power tiller is provided by separately supporting a travel wheel and a rotary on the tip of a protruding part (12b) of a transmission case in the shape of a Chinese character eight and the tip of the other protruding part (12c), transmitting a driving power from an engine to the travel wheel and rotary and further attaching a nearly semicircular rotary cover covering the rotary to the other protruding part (12c) used also as a supporting member for the rotary cover.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cultivator, and more particularly to a small cultivator in which a traveling wheel is supported at one end of a mission case and a rotary is supported at the other end.

[0002]

2. Description of the Related Art A conventional tiller mounts a mission case on a machine body frame, supports traveling wheels, mounts an engine in front of the machine body frame, and installs a working machine such as a rotary machine behind the machine body frame. Is configured to be attached.

[0003]

Therefore, the structure of the tiller becomes complicated, which hinders downsizing and cost reduction.

In the above-mentioned mission case, the engine output is transmitted, and the drive force from the engine acts on the mission case in order to transmit the drive force from the engine to the traveling wheels and the rotary. ,
Since the rotational force of the rotary acts, the mission case needs to be designed to withstand high strength.

The present invention has been made in order to solve the above problems, and integrally forms a transmission case for transmitting the driving force from the engine to the traveling wheels and the rotary, thereby improving the strength and at the same time the rotary. It is an object of the present invention to provide a tiller having a simple structure that also supports a cover.

[0006]

Therefore, in order to achieve the above object, in the tiller according to the present invention, the traveling wheels (1
5) and a mission case (12), the engine (13) is mounted on the front side of the machine body, and the rotary (16) is mounted on the rear side of the machine body. The input shaft (12d) that transmits the rotation from the engine (13) is supported by the top portion (12e) of the figure-eight shape, and the traveling is provided at the tip of the one-side protrusion (12b) of the figure-eight shape. The rotary cover (18), which supports the wheel (15), supports the rotary (16) at the tip of the other protrusion (12c), and covers the rotary (16), has a semicircular shape in side view. In addition, the rotary cover (18) is attached to the other projecting portion (12c) of the mission case (12).

[0007]

Based on the above-mentioned structure, the traveling wheel (15) has one projection (12b) of the eight-shaped mission case (12).
The rotary (16) is supported by the tip portion, and the rotary (16) is supported by the tip portion of the other protruding portion (12c) of the mission case (12). The substantially semicircular rotary cover (18) covering the rotary (16) has the other protruding portion (12c).
The other protruding portion (12c) also serves as a support member of the rotary cover (18).

The above-mentioned reference numerals in parentheses are for comparing the drawings and do not limit the structure of the present invention.

[0009]

Embodiments of the present invention will be described in detail below with reference to the drawings.

1 to 8 are views showing a first embodiment of the present invention. As shown in FIG. 8, the tiller 11 includes an eight-character transmission case 12, an engine 13, a traveling wheel 15, a rotary 16 and a handle 17, and the mission case 12 and the traveling wheel 15 constitute a machine body. This mission case 12 has one protruding portion 12b
And the other projecting portion 12c are integrally formed, and the cover supporting member 12f (see FIG. 7) is integrally formed on the other projecting portion 12c by a large-sized mating member. An engine frame 19 for mounting the engine 13 is fixed in front of the mission case 12, and the handle 1 is attached to a handle attaching portion 12a extending obliquely rearward thereof.
7 is attached. Furthermore, mission case 1
The traveling wheel 15 is supported by the tip portion of the one protruding portion 12b of the second wheel 2, and the rotary 16 is supported by the tip portion of the other protruding portion 12c. The cover support member 12f has a substantially semicircular rotary cover 1 that covers the rotary 16.
8 is attached. Further, from the output pulley of the engine 13 to the input shaft 12d of the mission case 12
A belt is wound around a pulley fixed to the pulley (see FIGS. 3 and 4) by a tension pulley that constitutes a main clutch so that the belt can be loosened and tensioned, and the belt and the pulley are covered by a case 20. It is being appreciated. Further, the operating lever 1 extends from the top portion 12e of the mission case 12 along the upper side of the handle 17, and the operating lever 1
Is guided to the guide groove 10 of the guide plate 9 mounted over the fuel tank 21 and the transmission case 12 above the engine 13. The guide groove 10
As shown in FIGS. 5 and 6, from the traveling gear position having the _first forward speed position F ₁ , the second forward speed position F ₂ , the neutral position N, the reverse position R and the working neutral position N ′ in the lateral (left and right) direction. In addition, the vertical (vertical) direction includes a rotary rotation direction switching stage having a forward rotation position S, a rotary stop position N _R, and a reverse rotation position C. Then, by operating the operation lever 1 vertically and horizontally, the mission case 12
The shift and the forward and backward movements of the traveling transmission and the rotary transmission, which are disposed in, are performed.

As shown in FIGS. 1 to 3, the operating lever 1 has a U-shaped portion 1a formed at its base end, and the U-shaped portion 1a is rotated by a bolt pin 3 in the vertical direction. It is movably connected to the shifter interlocking shaft 2 so as to interlock in the left-right direction. Further, the shifter interlocking shaft 2 is provided with a collar 24 fixed to the mission case 12.
The transmission arm 22 is rotatably supported and is welded to the transmission arm 22 in the mission case 12. A transmission shift shaft 23 is arranged on the left and right side surfaces of the transmission case 12, and the transmission shift shaft 23 is provided.
Both ends of the bolt are clamped by the collars 25, 25 and the bolt 2
6 and 26, a shift fork 27 is slidably fitted on the shift shaft 23. In addition, the shift fork 27 has
Is engaged with a shift shifter gear 6 which is urged to be positioned at a predetermined position by a click-stop mechanism and is coupled to the speed change arm 22 and is spline-coupled to the input shaft 12d so that it can slide only. is doing. On the other hand, a U-shaped interlocking arm 5 is rotatably supported by the collars 25, 25 that sandwich the speed shift shaft 23.
A long hole 5a extending in the lateral direction is formed in the interlocking arm 5, and the operation lever 1 passes through the long hole 5a. Then, the interlocking arm 5 is rotated around the collar 25 by the vertical movement of the operating lever 1, but the lateral movement of the operating lever 1 is absorbed by the elongated hole 5a and is not transmitted to the interlocking arm 5, so that the operating lever 1 The left-right movement of the shifter is transmitted to the shifter interlocking shaft 2 via the bolt pin 3, and the shift fork 27 slides along the shift shift shaft 23 by the rotation of the shifter interlocking shaft 2 to shift the traveling shifter gear 6 to the gear 35, It engages with either 37 or 39 to shift gears. The operating lever 1,
Shifter interlocking shaft 2, traveling shifter gear 6, shift arm 2
2, the shift transmission shaft 23, the shift fork 27, etc. constitute a traveling transmission device.

As shown in FIG. 4, a rotary shifter interlocking shaft 28 is rotatably supported by a collar 34 fixed to the mission case 12, and the rotary shifter interlocking shaft 28 is located outside the mission case 12. The plate 29 is fixed to the interlocking arm 5 via a pin 29a and a rod 30 fixed to the tip of the plate 29, and the inner portion of the mission case 12 of the rotary shifter interlocking shaft 28 is connected. A rotary speed change arm 31 is welded to the. Further, a rotary shift shaft 32 is arranged so as to be connected to the shift shift shaft 23 so as to extend over both side surfaces of the transmission case 12, and the rotary shift shaft 32 is further provided with a shift fork 33.
Is slidably inserted. The shift fork 33 is positioned and biased to a predetermined position by a click stop mechanism between the shift fork 33 and the rotary shift shaft 32, and is connected to the rotary shift arm 31 and slidably on the input shaft 12d. It is engaged with the rotary shifter gear 7 that is splined. The operating lever 1,
Rotary shifter gear 7, rotary shifter interlocking shaft 2
8, rotary speed change arm 31, rotary shift shaft 3
2, the shift fork 33 and the like constitute a rotary transmission.

Incidentally, in FIG. 3, the shifter gear 6 for traveling is used.
Engages with the gear 35 to become the forward first speed F ₁ , engages with the gear 37 that is always meshed with the gear 36 to become the forward second speed F ₂ , and engages with the gear 39 that is constantly meshed with the gear 38. It becomes R in reverse. Further, the rotary shifter gear 7 is engaged with the gear 40 to be in the forward rotation S, and is engaged with the gear 42 which is always meshed with the gear 41 to be in the reverse rotation C. Further, the rotation of the traveling transmission system is transmitted to the traveling wheels 15 via the chain and the operating gear, and the rotation of the rotary transmission system is transmitted to the rotary 16 via the chain.

2 and 4, the handle 17 is attached so as to sandwich the mission case 12 by a bracket 43 having a U-shape, and the bracket 43 is attached to the mission case 12. The shift shaft 32 for rotary is prevented from coming off.

Further, the mission case 12 is shown in FIG.
And bearing holders 45, 45 are attached as shown in FIG.
The bearing holders 45, 45 are mounted so that they can be prevented from rotating by the straight portion a formed on the transmission case 12 or the bearing holders 45, 45, and the bearing holders 45, 45 can be removed by the flange b. It is being stopped. As a result, the bearing holders 45, 45 can be easily and surely fixed with an inexpensive structure. Since the transmission case 12 of the above-described embodiment is lubricated with grease, the bearing 45a with a seal can be simply sealed.

Next, the operation of this embodiment having the above construction will be described.

The rotation of the engine 13 is transmitted to the input shaft 12d of the transmission case 12 via the belt inside the case 20. When the operator moves the operation lever 1 in the lateral (left-right) direction along the guide groove 10 of the guide plate 9, the left-right movement of the operation lever 1 causes the shift fork 27 to move via the shifter interlocking shaft 2 and the speed change arm 22. The shift fork 27 slides along the shift shaft 23 and is positioned at an appropriate position corresponding to the display on the guide plate 9. For example, when the operating lever 1 is moved from the neutral position N to the forward second speed position F ₂ , the shift fork 27
Engages the traveling shifter gear 6 with the gear 37 to cultivate the tiller 1
When 1 travels at a high speed to adapt to non-work traveling and is moved to the reverse position R, the traveling shifter gear 6 engages with the gear 39 and moves backward.

At this time, depending on the lateral movement of the operating lever 1, the operating lever 1 only slides in the elongated hole 5a.
The interlocking arm 5 is not affected at all, and the rotary stop position N
_Held in _R.

When the operation lever 1 is positioned at the work neutral position N'of the guide plate 9 and the operation lever 1 is operated vertically (up and down) along the guide groove 10, the interlocking arm 5 moves. It rotates in the vertical direction about 23. Then, the rotary shifter interlocking shaft 28 rotates via the rod 30 and the plate 29, and the shift fork 33 slides along the rotary shift shaft 32 via the rotary transmission arm 31 and the guide plate 9 Is positioned at an appropriate position corresponding to the display. For example, when the operation lever 1 moves from the rotary stop position N _R to the normal rotation position S, the shift fork 33 causes the rotary shifter gear 7 to engage with the gear 40 to rotate (forward) in the same direction as the forward direction. 16, the rotary shifter gear 7 engages with the gear 42 and transmits rotation (reverse rotation) in the direction opposite to the forward direction (reverse rotation) to the rotary 16.

At this time, depending on the vertical movement of the operation lever 1, only the bolt pin 3 is rotated so that the shifter interlocking shaft 2 is rotated.
Is not affected and is in the travel stop position. Then, with the operation lever 1 moved up or down, the operation lever 1 is moved laterally along the guide groove 10 to the forward first speed position F ₁ . Then, similarly to the above, the traveling shifter gear 6 is shifted through the shifter interlocking shaft 2, the shift arm 22 and the shift fork 27 so as to be engaged with the gear 35, and the low speed rotation suitable for the work is transmitted to the traveling wheels 15. To do. As a result, the cultivator 11 moves forward while the rotary 16 rotates in the normal or reverse direction, and the cultivating work is performed.

[0021]

As described above, according to the present invention, the traveling wheel and the rotary are supported by the one projecting tip end portion and the other projecting tip end portion of the eight-character transmission case which are integrally formed. Therefore, the supporting strength of the traveling wheels and the rotary can be improved.

Further, since the substantially semicircular rotary cover that covers the rotary is attached to the other protruding portion, the other protruding portion can also serve as a support member of the rotary cover, and can reliably support the rotary cover.

[Brief description of drawings]

FIG. 1 is a perspective view showing a main part of a shift operating device for a tiller according to the present invention.

FIG. 2 is a side view of FIG.

3 is a sectional view taken along line III-III in FIG.

4 is a sectional view taken along line IV-IV in FIG.

FIG. 5 is a front view showing a guide groove of the operation panel.

FIG. 6 is a front view in which a guide groove of the operation panel is changed.

FIG. 7 is a side view showing a bearing holder attached to a mission case.

FIG. 8 is an overall side view showing the tiller of the present invention.

[Explanation of symbols]

 1 Operation Lever 12 Mission Case 12b One Projecting Part 12d Other Projecting Part 13 Engine 15 Running Wheel 16 Rotary 18 Rotary Cover

Claims (1)

[Claims] 1. A tiller in which an engine is mounted in front of a body having traveling wheels and a mission case, and a rotary is mounted in the rear of the body, wherein the mission case is formed into an eight-shape in a side view, An input shaft for transmitting rotation from the engine is supported on the top portion, and the traveling wheel is supported on the tip end portion of the one-eight-shaped protruding portion, and the rotary is supported on the other end portion of the protruding portion, A rotary cover that covers the rotary has a substantially semicircular shape in a side view, and the rotary cover is attached to the other projecting portion of the mission case.