JPS623566Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a rotary drive device that allows a rotary tilling member to be switched between forward and reverse directions.

2. Description of the Related Art As a drive device for a rotary tillage device for cultivating a field, there is one that can perform upcut tillage and downcut tillage by switching the rotary tillage member between forward and reverse directions.

This rotary drive device that can freely switch between forward and reverse rotations is configured such that a transmission case with a built-in forward and reverse switching mechanism is attached to a gear case that has a built-in bevel gear mechanism, and the forward and reverse switching mechanism is interlocked with the output shaft side of the bevel gear mechanism. There is.

Conventionally, the output shaft was supported across the gear case and the transmission case, and the transmission case containing the switching mechanism could not be assembled without disassembling the gear case side containing the bevel gear mechanism, and the assembly and disassembly was done by the manufacturer. This can be a very troublesome task depending on the side, so we manufacture dedicated rotary drive devices with a built-in forward/reverse switching mechanism and rotary drive devices exclusively for forward rotation without a forward/reverse switching mechanism. In this case, although other parts and members other than the rotary drive section could be used in common, they could not be used in common.

Therefore, in the present invention, the output shaft of the bevel gear mechanism and the transmission shaft of the switching mechanism are composed of two shafts divided in the axial direction, each shaft is individually supported in a corresponding case, and the shaft end is a cylindrical shaft. By connecting with a joint, the switching mechanism can be assembled and disassembled on the output shaft side of the bevel gear mechanism without disassembling the bevel gear mechanism inside the gear case.
The present invention is a rotary drive device in which a switching case 8 with a built-in forward/reverse switching mechanism 9 is detachably installed on the output shaft 15 side of a bevel gear mechanism 7 built into a gear case 2, and the output of the bevel gear mechanism 7 is A bearing mounting hole 2A is formed in the gear case 2 on the shaft 15 side, and the output bevel gear 12 and output shaft 15 in the bevel gear mechanism 7 are supported through the bearing 14 fitted in the bearing mounting hole 2A.
An engaging portion 26 is formed on the outer back of the forward/reverse rotation switching mechanism 9, which includes a forward rotation bevel gear 24 that engages the engaging portion 26 in the transmission direction, and an intermediate bevel pinion 2 corresponding to the bevel gear 24.
Reversing bevel gear 27 interlocked via 9
and a transmission shaft 21, the clutch sleeve 23 is built into the switching case 8, and is fitted onto the transmission shaft 21 so as to be slidable in the axial direction, so as to be able to freely engage and disengage the forward and reverse bevel gears 24 and 27. The output shaft 15 of the gear case 2 and the transmission shaft 21 of the forward/reverse switching mechanism 9 are connected via a cylindrical shaft joint 20 that can be freely inserted and removed in the axial direction, and in the connected state, a bevel gear for forward rotation is connected. 24 is the output bevel gear 12
through the occlusal part 26 and the bearing mounting hole 2A
When the switching case 8 containing the forward/reverse switching mechanism 9 is removed from the gear case 2, the rotating body 37 that interlocks and connects the output bevel gear 12 and the output shaft 15 in the bevel gear mechanism 7 is It is characterized by being attached to the output shaft 15 by being engaged with the engagement portion 26 and being fitted onto the output shaft 15 from the axial direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a rotary tilling device, in which a rotary tilling member 3 is rotatable around a horizontal horizontal axis via a drive device built into a gear case 2, and the tilling member 3 is covered with a rotary cover 4. Become.

Furthermore, the rotary tiller 1 has a lower link attachment pin 5 at a position where the pitches P ₁ and P ₂ which are symmetrical from the center are the same, and are connected to a tractor (not shown) by a three-point link mechanism so as to be able to rise and fall freely. There is.

In addition, a transmission case 6 is provided downward in the gear case 2, and the tilling member 3 can be transmitted through a winding transmission body in the case 6, which is illustrated as a center drive type in this example. .

Referring to FIG. 2, a bevel gear mechanism 7 is built into the gear case 2, and a forward/reverse switching mechanism 9 is built into the switching case 8, which is detachably attached to one side of the gear case 2. .

The bevel gear mechanism 7 is mainly composed of a power receiving shaft 10 that is interlocked with the tractor PTO shaft via a joint shaft, a bevel pinion 11 is formed on the power receiving shaft 10, and a bevel gear 12 that meshes with the pinion 11. The bevel gear 12 has its rear outer peripheral boss portion supported via a bearing 14. An output shaft 15 is inserted into the bevel gear 12, and one end is supported via a bearing 16, while the other end is supported via a bearing 16. The end is supported by the gear case 2 via a bearing 17. A sprocket 18 is fixedly fitted onto the output shaft 15, and a chain 19 is wound around the sprocket 18, which is located inside the transmission case 6 and interlocks the tilling member 3.

In the switching mechanism 9, the other end of a transmission shaft 21 connected to the axis of the output shaft 15 via a cylindrical shaft joint 20 is supported by the switching case 8 via a bearing 22, and the transmission shaft 2
1 has a clutch sleeve 23 that is slidable in the axial direction.
The inner periphery of the sleeve 23 is engaged with the cylindrical shaft joint 20 by a key or a spline.

Furthermore, a bevel gear 24 is provided with a bearing 25 on the gear case side corresponding to the bevel gear 12 of the bevel gear mechanism 7.
A spline that engages with the clutch sleeve 23 is formed on the inner periphery of the bevel gear 24, and a bevel gear mechanism 7
The bevel gears 12 and 24 are arranged in parallel in the axial direction and are rotatable together by a dog clutch-shaped engagement part 26.

Further, a bevel gear 27 is supported by the switching case 8 via a bearing 28 at a position corresponding to the bevel gear 24, and a spline 27A with which the clutch sleeve 23 engages is formed on the inner periphery of the gear 27.

Further, the bevel gears 24 and 27 facing each other are interlocked via an intermediate bevel pinion 29, and the pinion 29 is rotatably supported by a support shaft 30 of the switching case 8.

That is, the clutch sleeve 23 is operated in the axial direction by sliding the shifter 31, and the sleeve 23 is moved to a position where it engages with the bevel gear 24 that rotates together with the output bevel gear 12 of the bevel gear mechanism 7, and via the intermediate bevel pinion 29. The output shaft 15 of the bevel gear mechanism 7 can be freely switched between forward and reverse directions by switching to the position where it engages with the interlocked bevel gear 27, and the switching mechanism 9 is assembled into the switching case 8 as a unit. be.

A switching case 8 is attached to one side of the gear case 2.
are assembled so that they can be assembled and disassembled from the axial direction, and are fastened with bolts 32 in this example.

Note that the outer periphery of one end of the opposing portion of the output shaft 15 and the transmission shaft 21 is stepped, and the shaft joint 20 is fitted here with a key spline, and a female screw hole 33 is provided at the center of the shaft end of the output shaft 15. is formed. Furthermore, a lower link mounting bracket 34 is attached to the switching case 8, and a support arm 35 is extended via a flange to the gear case 2 on the opposite side of the switching case 8, and the other lower link mounting bracket is attached to the arm 35. 36 is installed. Furthermore, the switching case 8 is removable from the gear case 2 as shown in FIG. By screwing together the bolt 38, when the forward/reverse switching mechanism 9 is not provided here, the drive device can be used exclusively for the forward rotation direction via the bevel gear mechanism 7. Note that at this time, the other support arm 35A can be attached to the gear case 2 as shown by the chain line.

To explain the operation of the embodiment of the present invention, the clutch sleeve 23 is connected to the bevel gear 24 in FIG.
(in the state shown), the bevel gear mechanism 7
bevel gear 12 of and bevel gear 24 of switching mechanism 9
rotate together, and the result is the same as if the output shaft 15 and the transmission shaft 21 were integrated through the shaft joint 20. Here, the output shaft 15 is rotated in the forward direction, and the tilling member 3 is up-cutted through the chain 19, etc. It will be driven as follows.

On the other hand, when the clutch sleeve 23 is switched and slid to the right in FIG. 2 and engaged with the bevel gear 27 for reverse rotation, the bevel gear 12 of the bevel gear mechanism 7 and the bevel gear 24 of the switching mechanism 9 rotate together, and the intermediate Since the reversing bevel gear 27 is being rotated by the bevel pinion 29, by engaging the inner circumferential side of the clutch sleeve 23 with the shaft joint 20, the output shaft 15 rotates in the opposite direction. 19 etc., the rotary tilling member 3 is driven to downcut tillage. If the clutch sleeve 23 is placed in a position where it does not engage with either of the bevel gears 24, 27, the output shaft 15 becomes neutral.

Next, if you want to drive only forward rotation, gear case 2
and the switching case 8 attached to its side with bolts 32.
The entire unit including the bevel gear forward/reverse switching mechanism 9 along with the bearing 25 is pulled out axially outward, and the cylindrical shaft joint 20 is removed.
is removed, and the rotating body 37 is replaced with the bolt 3.
8 to the output shaft 15. Conversely, to attach the forward/reverse switching mechanism 9, loosen the bolt 38, remove the rotating body 37, and then attach the shaft joint 20 to the output shaft 15. , with the bearing 25 fitted onto the boss of the bevel gear 24, the switching case 8
The switching case 8 and the rotary cover 3 can be fixed together with a bracket 39 shown in FIG.

In summary, in the present invention, the output shaft of the bevel gear mechanism is supported by the gear case, the transmission shaft of the switching mechanism is supported by the switching case, and the shaft, which was conventionally one real shaft, is made into a split type and connected with a cylindrical shaft joint. There is an advantage that the switching case having the switching mechanism can be attached to or removed from the gear case from the axial direction without disassembling the mechanism. In addition, when a switching case is attached to the output shaft side of the gear case for forward/reverse switching, the bevel gear for forward rotation is engaged with the engagement part on the outer back of the output bevel gear, and the bevel gear for forward rotation is inserted into the bearing mounting hole formed in the gear case. Since it is supported via a bearing, the switching case having the forward/reverse switching mechanism can be stably attached to the gear case, and the forward/reverse rotation power can be transmitted reliably and stably.

Although the illustrated example shows a center drive type drive device, the output shaft 15 of the bevel gear mechanism 7 is inserted and supported by one of the support arms 35, and a side transmission mechanism (chain, etc.) is attached to the end of the output shaft 15.
Of course, it is also applicable to a side drive type with a gear).

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention; FIG. 1 is a schematic rear view of the entire rotary tilling device, FIG. 2 is a cross-sectional view of the main parts of the present invention, and FIG. 3 is a cross-sectional view when the switching mechanism is removed. 2... Gear case, 7... Bevel gear mechanism, 8
...Switching case, 9...Switching mechanism, 15...Output shaft, 20...Shaft joint, 21...Transmission shaft.

Claims (1)

[Claims for Utility Model Registration] A rotary drive device in which a switching case 8 with a built-in forward/reverse switching mechanism 9 is detachably installed on the output shaft 15 side of a bevel gear mechanism 7 built into a gear case 2, A bearing mounting hole 2A is formed in the gear case 2 on the output shaft 15 side of the bevel gear mechanism 7, and the output bevel gear 12 and the output shaft 15 of the bevel gear mechanism 7 are supported via the bearing 14 fitted in the bearing mounting hole 2A. , the output bevel gear 12
An engaging portion 26 is formed on the outer back of the forward/reverse rotation switching mechanism 9, which includes a forward rotation bevel gear 24 that engages the engaging portion 26 in the transmission direction, and an intermediate bevel pinion 2 corresponding to the bevel gear 24.
Reversing bevel gear 27 interlocked via 9
and a transmission shaft 21, the clutch sleeve 23 is built into the switching case 8, and is fitted onto the transmission shaft 21 so as to be slidable in the axial direction, so as to be able to freely engage and disengage the forward and reverse bevel gears 24 and 27. The output shaft 15 of the gear case 2 and the transmission shaft 21 of the forward/reverse switching mechanism 9 are connected via a cylindrical shaft joint 20 that can be freely inserted and removed in the axial direction, and in the connected state, a bevel gear for forward rotation is connected. 24 is the output bevel gear 12
through the occlusal part 26 and the bearing mounting hole 2A
When the switching case 8 containing the forward/reverse switching mechanism 9 is removed from the gear case 2, the rotating body 37 that interlocks and connects the output bevel gear 12 and the output shaft 15 in the bevel gear mechanism 7 is A rotary drive device characterized in that it is attached to the output shaft 15 by being engaged with the engagement portion 26 and being fitted onto the output shaft 15 from the axial direction.