JPH0671364B2 - Rotary cultivator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention projects an input shaft outward from a transmission case, and flange-connects a bearing holder supporting the input shaft and the transmission case together. The present invention relates to a rotary cultivator in which an upper part of the input shaft is covered with a semi-cylindrical shaft cover.

[Conventional technology]

In this type of rotary tiller, a bearing holder that supports the input shaft is flange-joined to the input side open end of the molded transmission case to form the outer shell of the input section. Also, in order to protect the connecting part of the input shaft from rainwater and dust, a shaft cover that covers the upper part of the input shaft is attached to the bearing holder in a cantilevered manner (Shokai Sho 61-4715).
No. 4).

[Problems to be solved by the invention]

However, in the rotary tiller cited above,
Since the joint between the bearing holder and transmission case is exposed to the outside, it is often exposed to rainwater and dust, and the seal provided at the joint will be damaged or deteriorated within a relatively short period of time. It was easy.

Also, since the shaft cover has a semi-cylindrical shape,
It is easily bent in the radial direction by an external force, and there is a problem that it is deformed when it is mounted on the bearing holder.

The present invention was created in view of such circumstances, and its purpose is to eliminate the adverse effects of rainwater and dust on the joint between the bearing holder and the transmission case, and to utilize a structure therefor. In order to improve the strength of the shaft cover.

[Means for solving problems]

A characteristic configuration of the present invention for achieving the above-mentioned object is that a shaft cover is integrally provided with a flange cover portion that covers a joint portion between a bearing holder and a transmission case, and the flange cover portion is provided in an axial direction of the shaft cover. In view, it is a semi-cylindrical shape along the peripheral edge of the shaft cover, and the cross-sectional shape in the direction along the axial direction is a protruding shape that bulges outward. Its action and effect are as follows. Is.

[Action]

In other words, the flange cover portion integrally provided with the shaft cover covers the joint between the bearing holder and the transmission case and prevents water and dust from acting on the seal.

Further, the flange cover portion has a three-dimensional shape including a three-dimensional curved surface, and has high strength including the shaft cover.

〔The invention's effect〕

As a result, the seals at the joints are prevented from being damaged or deteriorated early under the influence of rainwater or dust as much as possible, and have high corrosion resistance.

In addition, the shaft cover is reinforced by using the flange cover part that protects the seal at the joint, and when mounting the shaft cover,
It is possible to avoid accidentally deforming the shaft cover in the radial direction by an external force.

〔Example〕

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

As shown in FIG. 5, a rotary tiller (4) is connected to the rear part of the traveling machine body via a link mechanism (3) including a top link (1) and a pair of left and right lower links (2), and A pair of left and right lift arms (6), which are vertically swingable by a hydraulic cylinder (5), and a pair of left and right lower links (2) are connected via a lift rod (7), and the hydraulic cylinder (5) is used. Rotary tiller (4)
Is configured so that it can be moved up and down with respect to the traveling body, and a power take-off shaft (9) protruding rearward at the rear of the traveling body and an input case (1 for the rotary tiller (4).
An input shaft (11) projecting forward from (0) is interlockingly connected via a transmission shaft (12) equipped with a universal joint, thereby constructing a riding type cultivator.

The rotary tiller (4) will be described below.
As shown in the figure, the pipe-shaped support arms (13A) and (13B) are fixed to the left and right lateral sides of the input case (10), and the side frame (14) is fixed to the tip of the right support arm (13B). The left support arm (13
A chain case (15) is fixed to the tip of (A), and a tillage claw shaft (16) is laid across the lower part of these side frames (14) and the lower part of the chain case (15). Further, one end of the bevel gear shaft (17) penetratingly supported in the left support arm (13A) is bevel-connected to the input shaft (11) in the input case (10), while the other end is connected to the chain case (15). In (), a chain is connected to the tiller shaft (16) to form a side drive type.

Inside the input case (10), as shown in FIG. 1, two driven bevel gears (18) are attached to the bevel gear shaft (17).
A) and (18B) are loosely fitted to these driven bevel gears (18
A) and (18B) are engaged with the drive bevel gear (19) fixed to the rear end of the input shaft (11). Furthermore, 2
A spline (17a) is formed on a bevel gear shaft (17) located between two driven bevel gears (18A) and (18B), and a shift gear (20) is externally fitted on the spline (17a). As the shift gear (20) slides in the axial direction, it meshes with the driven bevel gears (18A) and (18B), and the driving force of the driving bevel gear (19) is driven by the driven bevel gear (18).
A or 18B) and a shift gear (20) are transmitted to the bevel gear shaft (17).

In addition, the driven bevel gears (18A) and (18B) are engaged by changing the sliding direction of the shift gear (20).
A so-called forward / reverse switching device (21) is configured so that one of the two can be selected to change the direction of the driving force transmitted to the bevel gear shaft (17).

The input case (10) includes a driven bevel gear (18A),
A bevel gear case (10a) as a transmission case for housing (18B) and a split type bearing holder (10b) for supporting the input shaft (11) form an outer shell portion thereof. More specifically, a flange (22) is formed on the input side open end of the bevel gear case (10a), and the flange of the bearing holder (10b) is fastened to this flange (22) with a bolt (25) through a seal. In order to join and connect and to protect the joining part from invasion of water and dust, especially the upper half of it is an arcuate flange cover part, that is, the shaft cover (24) when viewed from the axial direction of the input shaft (11).
It is covered with a semi-cylindrical shape along the peripheral edge of the shaft, and the flange-shaped flange cover part (23) of which the cross-sectional shape in the direction along the axial direction bulges outward, and is tightened together with the bolt (25). I am doing it. Further, a protective shaft cover (24) surrounding the upper half of the input shaft (11) is provided along the front inner edge of the flange cover (23).

As shown in FIG. 3, the shaft cover (24) is divided into left and right parts along the front and rear lines, and the left cover (24A) is fixed to the flange cover part (23) and the right cover (24B) is fixed.
Is hinged to the left cover (24A) and can be opened and closed with the dividing line as the axis. Further, as shown in FIG. 2, a left and right laterally long guide hole (27) is formed in the front portion of the left fixed side cover (24A), and the forward / reverse switching device (21) is provided from this guide hole (27). ) The operation lever (26) is pierced upward.

It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the structures of the accompanying drawings by the entry.

[Brief description of drawings]

The drawings show an embodiment of a rotary tiller according to the present invention,
FIG. 1 is a horizontal cross-sectional plan view of a transmission case and a bearing holder, FIG. 2 is a vertical side view of the same, FIG. 3 is a perspective view of the same, FIG. 4 is a plan view, and FIG. It is a figure. (10a) …… Transmission case, (10b) …… Bearing holder, (11) …… Input shaft, (23) …… Flange cover,
(24) …… Axis cover.

Claims (1)

[Claims] 1. An input shaft (1) extending outward from the transmission case (10a).
The bearing holder (10b) supporting the input shaft (11) and the transmission case (10a) are flange-joined and connected, and the upper part of the input shaft (11) is a semi-cylindrical shaft cover. In the rotary cultivator covered with (24), the shaft cover (24) is integrally provided with a flange cover part (23) for covering a joint between the bearing holder (10b) and the transmission case (10a), and The flange cover portion (23) has a semi-cylindrical shape along the peripheral edge of the shaft cover (24) when viewed in the axial direction of the input shaft (11), and has a cross-sectional shape that is outward in the direction along the axial direction. A rotary tiller with a protruding shape that bulges out.