JPS6141554Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention is a threshing machine equipped with a combine, etc., in which a handling cylinder and a processing cylinder for second material are arranged in a horizontal direction with their rotational axes parallel or approximately parallel to each other. This invention relates to a power transmission structure in a threshing device.

In the conventional power transmission structure of this type of threshing device, the transmission mechanism for the handling cylinder and the processing cavity were both arranged centrally at one end in the axial direction of the handling cylinder. In order to be able to arbitrarily change the rotational speed of the handling drum for rice threshing and wheat threshing, a transmission mechanism is interposed in the transmission mechanism to the handling drum. Therefore, it is difficult to connect the transmission mechanism to the handling cylinder and the transmission mechanism to the processing cavity, and the space occupied by the entire transmission mechanism at one end of the handling cylinder axis becomes unreasonably large, making it disadvantageous to install it on a combine harvester, etc. I had a configuration problem.

In view of this problem, the present invention focuses on the fact that due to the structure of the threshing device, there is a continuous dead space on the other end of the handling cylinder in the axial direction from the handling cylinder to the processing cavity. The purpose is to reasonably reduce the space occupied by the transmission mechanism at one end in the axial direction.

The power transmission structure in the threshing device according to the present invention is such that, in the above-mentioned structure, a transmission mechanism to the threshing cylinder equipped with a transmission is provided on one end side in the axial direction of the handling cylinder, and a transmission mechanism for transmitting power to the threshing cylinder is provided at one end in the axial direction of the handling cylinder. It is characterized in that a transmission mechanism from the handling cylinder to the processing cavity is provided on the end side.

That is, by providing a transmission mechanism to the processing cavity at the other end of the handling cylinder in the axial direction, the only transmission mechanism to be provided at one end of the handling cylinder in the axial direction becomes sufficient. Regardless of whether the transmission mechanism to this handling cylinder is equipped with a transmission, the space occupied by the transmission mechanism to this handling cylinder, that is, the space occupied at one end in the axial direction of the handling cylinder, cannot be used for a combine harvester or a harvester. It can be configured to be small and compact, which is advantageous for mounting. Moreover, by using the transmission mechanism from the processing cylinder to the processing cavity as the transmission mechanism to the processing cavity, there is no need for a special transmission mechanism from one end of the processing cylinder in the axial direction to the other end for driving the processing cavity. In addition to being able to
Since the transmission mechanism to the processing cavity can now be installed in the dead space continuous from the processing cylinder to the processing cavity on the other end in the axial direction, the transmission mechanism to the processing cavity can be installed in the axial direction of the processing cylinder. Even though it is provided on the other end side, it has become possible to drive the processing cavity in an advantageous space and with a simple structure.

Hereinafter, an embodiment of the present invention will be described based on the drawings.A handling cylinder 2 for grain culms conveyed through a feed chain 1 and a processing cavity 3 for second grains are connected to their rotation axes X ₁ , X ₂ are arranged in parallel to each other in the horizontal direction, and a chamber 4 is provided below both of the cylinders 2 and 3 for transporting and sorting objects falling from these to one side in the axial direction. is disposed in such a manner that its conveying end protrudes beyond both trunks 2 and 3, and is located at the rear of receiving the threshed grain culm (discarded straw) from the feed chain 1, and is located in the processing cavity 3. In a combine-harvester-mounted thresher equipped with a waste straw conveyance chain 5 that conveys waste straw in a diagonal direction to the side, the two barrels 2 and 3 and the waste straw conveyance chain 5 are configured to be driven as follows.

That is, on one end side in the axial direction of both the trunks 2 and 3,
A transmission mechanism 7 with a transmission 6 is provided from the prime mover to the handling cylinder 2, and the handling cylinder is provided at the other end of the cylinders 2 and 3 in the axial direction and above the protrusion of the sorting chamber 4. Transmission mechanism 8 from cylinder 2 to processing cylinder 3
and a transmission mechanism 9 from the handling cylinder 2 to the waste straw conveying chain 5 are provided to drive the three members 2, 3, and 5.

As shown in FIGS. 3 and 4, the transmission mechanism 7 to the handling cylinder 2 has a shaft 11 at one end equipped with an input pulley 10 at the other end, and a rotating shaft 2A of the handling cylinder 2 at one end. The transmission 6 is interposed between the shaft 14 and the other end of the shaft 14 which are interlocked via bevel gears 12 and 13, and the shafts 11 and 14, the transmission 6 and the bevel gear 12 are
It is housed in a case 16 attached to the outer surface of a front wall 15 that supports one end of the rotating shafts 2A and 3A of No. 3. The transmission device 6 is a gear transmission device capable of shifting into two high and low stages, and the bevel gear 1
2 and 13 are bevel gears 13 on the handling cylinder rotation shaft 2A side.
The front side wall 1 with respect to the other bevel gear 12
The part 16a of the case 16 corresponding to the bevel gear 13 is interlocked in a state where the interlocking action can be released by moving away from the case 16.
is configured as a removable lid to allow insertion and removal of each bevel gear 13 of the handling cylinder rotating shaft 2A. In the figure, reference numeral 17 indicates a safety cover that covers the outer surface of the case 16, and reference numeral 18 indicates a swingable opening/closing thresher which is in a closed position with its operating portion protruding beyond the upper end of the safety cover 17. This is the operation lever of the transmission 6 which is supported by the case 16 in a state covered by the plate A, and the portion of the safety cover 17 corresponding to each operation position of the operation lever 18 has holes 17a for lever confirmation, 17b is formed.

The transmission mechanism 8 for the processing cylinder 3 includes an intermediate transmission shaft 20 that is interlocked with the processing cylinder rotation shaft 2A via a belt 19, and is provided near the rotation shaft 3A of the processing cylinder 3. Torso rotation axis 3A
are interlocked via a pair of gears 21 and 22, and
The belt 19 is provided with a tension roller 23 that can switch the tension transmission state to a relaxation non-interlocking state. The intermediate transmission shaft 20 and the pair of gears 21 and 22 are connected to a case 2 attached to the outer surface of a rear wall 24 that supports the other end of the processing cylinder rotation shaft 3A.
It is equipped with 5.

The transmission mechanism 9 to the waste straw conveying chain 5 is as follows:
A shaft 27 interlocked with the handling cylinder rotating shaft 2A via a belt 26 and a drive sprocket shaft 28 of the straw removal conveyance chain 5 located at the conveyance start end are interlocked via bevel gears 29, 30, and the A tension roller 31 that can switch the belt 26 between a tension transmission state and a relaxation non-transmission state is provided.

In the figure, 32 is a swinging sorting plate, 33 is a winnowing machine for generating sorting air, and 34 and 35 are respectively the recovered material conveying screw 3.
4a, 35a are the first sorting material collecting section and the second sorting material collecting section, and 36 is a cross-flow fan for removing dust.

[Brief explanation of the drawing]

The drawings illustrate embodiments of the power transmission structure in the threshing device according to the present invention, with FIG. 1 being a longitudinal sectional front view of the threshing device, FIG. 2 being a schematic plan view showing the power transmission system, and FIG. 3 showing the main parts. Fig. 4 is an enlarged sectional view taken along the line of Fig. 3, Fig. 5 is an enlarged side view of the main part, and Fig. 6 is an enlarged sectional view taken along the line of Fig. 5. be. 2... Handling cylinder, 3... Processing cylinder, 6... Transmission device,
7, 8...Transmission mechanism.

Claims (1)

[Scope of Claim for Utility Model Registration] A handling cylinder 2 and a processing cylinder 3 for a second object are arranged side by side in the horizontal direction with their rotational axes X ₁ and X ₂ being positioned parallel or almost parallel to each other. This is a power transmission structure for a threshing device, in which a transmission mechanism 7 to the threshing cylinder 2 equipped with a transmission 6 is provided at one end in the axial direction of the handling cylinder 2, and A power transmission structure in a threshing device characterized in that a transmission mechanism 8 from a handling cylinder 2 to a processing cavity 3 is provided on the other end side. A transmission mechanism 8 from the handling cylinder 2 to the processing cavity 3,
A utility model constructed by interlocking a rotating shaft 2A of the handling cylinder 2 and an intermediate transmission shaft 20 interlocking with the rotating shaft 3A of the processing cavity 3 via a belt 19 via a pair of gears 21 and 22. A power transmission structure in a threshing device according to claim 1.