JPS6242102Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of industrial application) This invention relates to an engine control device for a harvester.

That is, the accelerator lever is interlocked and connected to the threshing clutch lever so that when the threshing clutch lever is turned on, the engine rotation becomes the rated rotation.

(Prior Art) Conventionally, in a threshing machine, when the threshing clutch is engaged and the threshing clutch is engaged, there is no direct relationship between the threshing clutch lever and the accelerator lever that controls the rotation of the engine.

(Problems to be Solved by the Invention) In the case of the above-mentioned threshing machine, it was necessary to control the engine rotation using the accelerator lever each time the threshing clutch was engaged.

(Means for solving the problem) The present invention was devised in order to eliminate the above-mentioned trouble, and when the threshing clutch lever is turned on, the engine rotation becomes the rated rotation.
The problem is solved by interlocking the accelerator lever with the threshing clutch lever.

That is, in the present invention, the threshing clutch lever, which is tilted by a leaf spring, is configured to engage with the forked portion of the rotation switching lever linked to the accelerator lever. The engine is designed to reach its rated speed when

(Example) The embodiments shown in the drawings will be described below.

The first illustration shows a combine harvester, which is a harvesting machine. Such a combine 1 has a pre-processing section equipped with a hoisting device and a reaping device at the front of a chassis 3 having crawlers 2 as usual. 4, and behind the preprocessing section 4, an operating section 5 for controlling various operations of the machine body and a threshing section 6 are arranged in parallel.

The operating section 5 is connected to the engine 7 mounted on the chassis 3, and is equipped with an accelerator lever 8 that can freely rotate and stop, and which can adjust the output as desired. The threshing clutch lever 9 is also rotatable and can be stopped.

Here, when the threshing clutch lever 9 is turned on, the rotation of the engine 7 is set to the rated rotation.
To explain how the accelerator lever 8 is interlocked and connected to the threshing clutch lever 9, the threshing clutch lever 9 is connected to a transmission pulley 10 that transmits the output from the engine 7 and a threshing pulley 11 that drives each rotating part of the threshing machine 6. It is connected via a wire 14 to a tension device 13 configured to tension and loosen the wound threshing belt 12.

In addition, 15 is a tension roller, 16 is an arm of the tension roller 15, 17 is a spring, 18 is an outer wire, and 19 is a connecting fitting for connecting the threshing clutch lever 9 and the wire 14.

On the other hand, the accelerator lever 8 is attached to a regulator lever 21 of the engine 7 via a wire 20.

The regulator lever 21 and the wire 20 are
The pin 22 of the regulator lever 21 is connected to the wire 2
They are connected to each other by engaging with the through hole 23a of the connecting rod 23 connected to the connecting rod 23.

Also, threshing clutch lever 9 and accelerator lever 8
are interlocked and connected via a wire 24.

Specifically, the pin 27 of the regulator lever 21 of the engine 7 is engaged with the through hole 25a of the connecting rod 25, and the wire 24 is connected to the connecting rod 25. It is attached to the bracket 9a of the threshing clutch lever 9 via an adjuster joint 26.

The effects of the above will be explained.

First, when the threshing clutch lever 9 is turned on, the wire 14 is pulled through the connecting fitting 19 to operate the tension device 13 and tension the threshing belt 12, so that the power generated by the engine 7 is transferred from the transmission pulley 10. It is transmitted to the threshing pulley 11 to drive each rotating part of the threshing machine 6.

At this time, the wire 24 is also pulled, and the regulator lever 21 is rotated toward the high output side due to the engagement between the through hole 25a of the connecting rod 25 and the pin 27.

Since the length of the wire 24 is regulated by the adjusting joint 26 at the rated rotational speed, the engine 7 rotates at the rated rotation. Therefore, when working with the threshing clutch lever 9 engaged, there is no need to set the engine rotation using the accelerator lever each time.

Next, the present device shown in FIGS. 2 and 3 will be explained.

This device is a further improvement of the device shown in FIG. 1, and the improved parts will be explained as follows.

That is, the threshing clutch lever 9 is connected to the leaf spring 28.
It is normally engaged with the forked portion 29a of the switching lever 29. The accelerator wire 20 is attached to its switching lever 29, and when the threshing clutch lever 9 is moved from the off to on direction, the switching lever 29 swings about the pivot shaft 30, and the accelerator wire 20 is moved. It will be stretched.

The accelerator wire 20 is attached to a connecting fitting 31, and a pin 33 of an arm 32 that rotates together with the accelerator lever 8 is engaged with a through hole 31a of the connecting fitting 31.

The connecting fitting 31 also includes an accelerator wire 20.
a is connected to the regulator lever 21 of the engine 7.

Therefore, the threshing clutch lever 9 is connected to the leaf spring 2.
When the threshing clutch lever 9 is engaged with the forked portion 29a of the rotation switching lever 29 at 8, the wire 20,
20a is pulled, causing the regulator lever 21 to rotate toward the high output side. Further, when the accelerator lever 8 is rotated to the low output side, the threshing clutch lever 9 is pulled by the accelerator wire 20 and is turned off.

When the threshing clutch lever 9 is also pulled up against the leaf spring 28 in a direction perpendicular to the paper plane of FIG.
When the threshing clutch lever 9 is disengaged from the fork 26a, the threshing clutch lever 9 can be freely set in the on direction independently of the wire 20.

The threshing clutch lever 9 has its base rotatably attached to a metal fitting 35 fitted to a pivot 34, and a leaf spring 28 and a connecting metal fitting 19 are attached to the metal fitting 35.

(Effects of the invention) In the present invention, when the threshing clutch lever is used in conjunction with the accelerator lever via the rotation switching lever, by inserting the threshing clutch lever, the engine is at the rated rotation. There is no need to set the rotation using the accelerator lever each time, and by removing the threshing clutch lever from the rotation switching lever against the leaf spring, the threshing clutch lever can be freely set in the on direction. Furthermore, the threshing section can be operated at a low rotation speed when applying oil or checking the operation of the threshing section using the accelerator lever.

[Brief explanation of the drawing]

Fig. 1 is a side view of the combine, and Figs. 2 and 3 are main part connection diagrams. 8... Accelerator lever, 9... Threshing clutch lever.

Claims (1)

[Scope of utility model registration request] By configuring the threshing clutch lever, which is tilted by a leaf spring, to engage with the forked portion of the rotation switching lever linked to the accelerator lever,
An engine control device for a harvester that allows the engine to reach its rated speed when the threshing clutch lever is turned on.