JPS6324801A - Side drive type up-cut plowing working machine - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a side drive type seven-prong rotary tilling machine, and more particularly to improvements in a side transmission case and a side support frame that support a tilling shaft.

[Prior art] A tilling shaft equipped with tilling claws is mounted between a side transmission case and a side support frame of a side drive type rotary tilling machine, and this tilling shaft is rotated in the down cutting direction. In addition, the side transmission case and the side support frame are each configured by an upper transmission case, a lower transmission case, an upper support frame, and a lower support frame, and the lower transmission case and the lower support frame are arranged inside with a step. For example, the one protruding from the
It is known from the publication No. 8-6242. This conventional side transmission case A has an upper transmission case B and a lower transmission case C, as shown in FIG. The tilling shaft protruding horizontally from the transmission case C was provided so that its axis E was located on the vertical line F (the side support frame also has a similar configuration). In this case, the soil tilled by the tilling shaft rotating around the axis E of the first tilling shaft is transferred to the transmission case A (
Since the lower transmission case C) is thrown backward from below, there was no problem even if the shape of the lower transmission case C and the position relative to the upper transmission case B were set as shown in FIG. Problem 1 to be Solved by the Invention By the way, the applicants of the present application have developed an up-cut rotary tiller for deep tillage by locating the axis of the tilling shaft downward from near the ground surface, and by positioning the tilling claws in the vertical blade section. Bent at a right angle (L-shape) to one side of the tip of the blade to form a horizontal blade part,
We have proposed a structure with a smooth arc-shaped rake face. In this case, the soil that has been tilled by the tilling claws is thrown backwards through the top of the tilling shaft without leaving any tilled soil at the bottom of the rotary action area of the tilling claws, so that the soil of the same amount is thrown backwards into the lower transmission case C. Since it will be thrown backwards through the vicinity of the upper step, the shape of the lower transmission case C (or lower support frame) and its relative position with the upper transmission case B (or upper support frame) are as shown in Fig. 5. In the situation shown in Fig. 2, the tilled soil thrown backward collides with the upper end of the lower transmission case C, which is inconvenient and interferes with the tilling work. [Means for Solving the Problems] Therefore, the present invention has the following features: (1) A tilling shaft equipped with tilling claws is mounted between a side transmission case and a side support frame of a side drive type rotary tiller. , the tilling shaft is rotated in the up-cut direction, and the side transmission case and the side support frame are configured by an upper transmission case and a lower transmission case, and an upper support frame and a lower support frame, respectively, and the lower transmission case and the lower In a support frame having a stepped part and protruding inwardly, the tilling claw is bent into an L-shape near right angle to one side of the tip of the vertical blade part to form a horizontal blade part. A smooth arc-shaped rake surface is formed on the side blade part, and the lower transmission case and the lower support frame have a gentle slope on the upper front edge side so that the tilled soil thrown backward by the tiller claws does not collide with the lower transmission case and the lower support frame. ,
It is characterized by being formed in a parabolic shape. (2) Further, the lower transmission case and the lower support frame are tilted toward the front in the direction of movement of the machine body so that the tilled soil thrown backward by the tilling claws will not collide with them.

[For production]

With this configuration, in the present invention, the tilled soil thrown backward by the tilling claws is prevented from colliding with the lower transmission case and the lower support frame, and upcut deep tilling can be performed smoothly.

【Example】

Embodiments of the present invention will be specifically described below with reference to the drawings. Fig. 1 is a side view of the entire side drive type rotary tiller, and Fig. 2 is a schematic rear view thereof. Reference numeral 1 is an input gear box that also serves as the main body frame, and this gear box 1 has an input gear box that protrudes forward. Rotational power is transmitted to the input shaft 2 from a PTO shaft of a tractor (not shown). Hollow horizontal frames 3.4 protrude from the gear box 1 on both the left and right sides, and the frame 3 of these also serves as a transmission case. A side transmission case 5 and a side support frame 6 are attached to the side ends of the horizontal frame 3.4. The side transmission case 5 consists of an upper transmission case 5a and a lower transmission case 5b, and the side support frame 6 consists of an upper support frame 6a and a lower support frame 6b, and the lower transmission case 5b
and lower support frame 6b are connected and continuous with upper transmission case 5a and upper support frame 6a, respectively, so as to protrude inwardly with stepped portions 5c and 6c. Further, a tilling shaft 7 is mounted between the lower transmission case 5b and the lower part of the lower support frame 6b. This tilling shaft 7 is a transmission shaft 8 inserted into the horizontal frame 3.
The power is transmitted from the upper power transmission case 5a to the upper power transmission case 5a.
The lower transmission case 5 is connected by the chain transmission system 9 provided in a.
The rotational power is transmitted to the lower transmission case 5b by an upper gear 10 and a lower gear 11 that meshes with the upper gear 10, so that the lower transmission case 5b rotates in the up-cut direction. Further, a large number of tilling claws 12, 12... are attached to the tilling shaft 7, and the tilling claws 12 are bent in a shape close to a right angle to an example of the tip of the vertical blade portion 12a, and form a horizontal blade. part 12
b, and a smooth arc-shaped scoop 13 is formed on this horizontal blade portion 12b. A shield cover 14 is provided above the 1+ tiller rotor in which the tiller claw 12 is attached to the tiller shaft 7, an apron 15 is provided at the rear of the shield cover 14, and a side cover 1e and an auxiliary side cover 17 are provided on both left and right sides of the tiller rotor. is installed. In addition, the gear box 1 and the horizontal frames 3 and 4 are equipped with a three-point link hitch mechanism of a tractor (not shown) so that the work machine can be raised and lowered! A pitch mechanism is provided that allows eight positions to be placed. The lower transmission case sb (same as the lower support frame 6b) is
As shown in FIG. 3, the slope of the upper front edge side is gentle and parabolic to prevent the tilled soil from colliding with each other when the tilled soil is thrown backwards through the top of the tilling rotor. ing. In this case, the lower transmission case 5b is connected to the upper transmission case 5a so that the transmission shaft centerline and the axis E of the tilling shaft are arranged vertically so that they are on the vertical line F. As shown in FIG. 4, in this lower transmission case 5b, a line G passing through the transmission axis center and the axis E of the tilling shaft is inclined at an angle of θ with respect to a vertical line F passing through the transmission axis center. It may also be tilted forward in the direction of movement of the aircraft. The side drive type up-cut tilling machine having such a configuration rotates the tilling shaft 12 in the up-cutting direction, and performs tilling work with the axis E of the tilling shaft positioned downward from near the ground surface. Since the tilling claw 12 has a smooth arc-shaped scoop 13 formed on its side blade portion 12b, the tilled soil passes above the tilling rotor without remaining at the bottom of the rotation area of the tilling claw. , is guided by the shield cover 14 and thrown backward, and is leveled by the apron 15. At this time, the lower transmission case 5b and the lower support frame 6b are formed such that the upper leading edge thereof is sloped gently and in a parabolic shape, or the lower transmission case 5b and the lower support frame 6b are formed on the front side in the traveling direction of the aircraft with respect to the upper transmission case 5a and the upper support frame Ga. Since the soil is tilted at an angle of θ, it is possible to avoid collisions with the soil being removed from the rear, allowing for smooth deep plowing. In addition, the cultivated soil may be removed from the lower transmission case 5b and the lower support frame 6b.
Since there is no collision, residual plowing under the lower transmission case 5b and the lower support frame 6b can be smoothly cleared, and the required power is reduced as a whole. Furthermore, the finish of the 11th step work is also better. Effects of the Invention 1 As explained above, according to the side drive type up-cut (rotary) tilling machine of the present invention, the lower transmission case 5b and the lower support frame 6b, which support the tilling shaft 12, are connected to the upper transmission case 5a. , protrudes inward from the upper support frame 6a, and the front edge of the upper part has a gentle slope and is formed in a parabolic shape, so that the tilled soil tilled by the tilling claws 12 and thrown rearward is transferred to the lower transmission case 5a. and lower support frame 6ak
:ffi Collisions can be avoided, and smooth up-cutting and deep plowing work can be performed with less power. In addition, since the lower transmission case 5b and the lower support frame 6b are connected to the upper transmission case 5a and the upper support frame 6a at a θ degree incline toward the front in the direction of movement of the machine, the soil tilled by the tilling claws 12 is It is thrown forward without colliding with the transmission case 5b and the lower support frame 6b, and the up-cut depth v1 can be smoothly performed with less power. Furthermore, the horizontal blade portion 12b of the tilling claw 12 is attached to the lower transmission case 5.
b and the tilling shaft 7 so as to protrude toward the lower support frame 6b side.
By attaching it to the lower transmission case 5b and the lower support frame 6b, residual plowing can be done.

[Brief explanation of drawings]

Figure 1 is a side view of the entire nid drive type up-cut rotary tiller, Figure 2 is a schematic rear view of the same, Figure 3 is a side view of the lower transmission case, and Figure 4 is another implementation of the lower transmission case. An example side view, FIG. 5 is a side view of a conventional lower transmission case. 1... Gear box, 2... Input shaft, 3.4...
Horizontal frame, 5... Side transmission case, 5a... Upper transmission case, 5b... Lower transmission case, 5C... Step part, 6... Side support frame, 6a... Upper support frame, 6b
... lower support frame, 6C ... step section, 7 ... tillage shaft,
8... Transmission shaft, 9... Chain transmission system, 10... Upper gear, 11... Lower gear, 12... Tilling claw, 12
a...Vertical blade part, 12b...Horizontal blade part, 13...Rake face, 14...Shield cover, 15...Apron, 16...Main side cover, 17...Subside side Cover, D...Transmission shaft center, E...M1 shaft center, θ・
...Inclination angle.

Claims (2)

[Claims] (1) A tilling shaft equipped with tilling claws is mounted between the side transmission case and the side support frame of a side drive type rotary tilling machine, and this tilling shaft is rotated in the up-cut direction, The side transmission case and the side support frame are each composed of an upper transmission case, a lower transmission case, an upper support frame, and a lower support frame, and the lower transmission case and the lower support frame have a stepped portion and protrude inwardly. In this device, the tilling claw is bent into an L-shape at right angles to one side of the tip of the vertical blade part to form a horizontal blade part, and this horizontal blade part has a smooth arc-shaped rake surface. The lower transmission case and the lower support frame are formed with a gentle slope on the front edge side of the upper part and a parabolic shape so that the tilled soil thrown backward by the tilling claws does not collide with the lower transmission case and the lower support frame. Drive-type up-cut tilling machine. (2) A tilling shaft equipped with a tilling claw is mounted between a side transmission case and a side support frame of a side drive type rotary tilling machine, and this tilling shaft is rotated in the up-cut direction, The side transmission case and the side support frame are each composed of an upper transmission case, a lower transmission case, an upper support frame, and a lower support frame, and the lower transmission case and the lower support frame have a stepped portion and protrude inwardly. In this device, the tilling claw is bent into an L-shape at right angles to one side of the tip of the vertical blade part to form a horizontal blade part, and this horizontal blade part has a smooth arc-shaped rake surface. A side drive type up cut characterized in that the lower transmission case and the lower support frame are tilted toward the front in the direction of movement of the machine body so that the tilled soil thrown backward by the tilling claws does not collide with the tilled soil. Tillage machine.