KR20120035318A - 4wd with front wheel speed up of tractor - Google Patents

Abstract

PURPOSE: A front wheel acceleration device for four wheel drive of a tractor improves the performance of a parking brake by continuous connection of the four wheel drive even if an engine stops during parking. CONSTITUTION: A front wheel acceleration device for four wheel drive of a tractor comprises a drive shaft(1), a front axle connection shaft(3), a large gear(2), a four wheel drive dog clutch(17), a front wheel acceleration wet type hydraulic clutch(16), and a hub gear(11). The drive shaft is installed in a transmission of a tractor. One side of the front axle connection shaft is connected to the driving shaft and the other side is connected to the front axle of a tractor. The large gear is combined on the outer periphery of the mold system driving shaft. The four wheel drive dog clutch is installed on the outer periphery of the end of the front axle connection shaft which is connected the drive shaft. The front wheel acceleration wet type hydraulic clutch is installed on the outer periphery of the front axle connection shaft side by side with the four wheel drive dog clutch. The hub gear connected front wheel acceleration wet type hydraulic clutch is installed on the outer periphery of the front axle connection shaft.

Description

Front wheel speed 4-wheel drive of tractor {4WD WITH FRONT WHEEL SPEED UP OF TRACTOR}

The present invention relates to an all-wheel drive 4-wheel drive device of a tractor that is automatically connected to the four-wheel drive when the engine is stopped, in detail, the front wheel speed increase device does not operate without shifting by a lever or the like even when the engine of the tractor is stopped and hydraulic pressure is not supplied. At the same time, the four-wheel drive device for four-wheel drive is automatically connected by the restoring force of the four-wheel drive spring, so that the connection of the four-wheel drive device when the tractor is parked improves the performance of the parking brake to increase safety. A front wheel speed four wheel drive of a tractor.

Tractors working on farmland, etc., are usually four-wheel drive, so the front and rear wheels overslip about the same speed, exactly the front wheel is slightly faster than the speed of the rear wheels. It is necessary to rotate with minimum rotation radius.

For such a minimum rotation radius, a tractor may be provided with a front wheel speed increaser that increases the rotation speed of the front wheel by making the speed of the front wheel greater than that of the rear wheel during four-wheel drive.

Figure 4 shows a conventional four-wheel drive device equipped with a front wheel speed increaser as described above.

As shown in FIG. 4, in the conventional four-wheel drive device in which the front wheel speed increaser is installed, the front axle connecting shaft 30 connected to the front axle and the driving system drive shaft 111 installed in the transmission are connected to each other in a straight line. The front wheel speed hydraulic wet clutch 160 and the four-wheel drive hydraulic wet clutch 170 are coupled side by side on the front axle shaft coupling shaft 30.

The front wheel speed hydraulic wet clutch 160 is formed by the front wheel speed clutch piston 80, the front wheel speed clutch pressure plate 90, and the front wheel speed clutch disc 100 disposed in the clutch housing 70, and the clutch disc 100. ) Is coupled to the front wheel speed hub gear 110a coupled to the front axle coupling shaft 30, and the front wheel speed spring 180 is installed between the hub gear 110a and the clutch piston 80.

The four-wheel drive hydraulic wet clutch 170 is in the clutch housing 70 jointly used with the front wheel-speed hydraulic wet clutch 160, the four-wheel drive clutch piston 30a, the four-wheel drive clutch disc 40, the four-wheel drive clutch pressure plate 50 is disposed, the clutch pressure plate 50 is coupled to the four-wheel drive hub gear 110b coupled to the front axle connecting shaft 30, between the hub gear (110b) and the clutch piston (30a) Four-wheel drive spring 60 is installed in the.

In addition, the driven shaft 120 is gear-coupled to the front wheel speed hub gear 110a and the four-wheel drive hub gear 110b, and the front wheel speed hub gear 110a is geared to the front wheel speed gear 130 by the gear coupling. A front wheel speed oil passage 140 is formed in the shaft connecting shaft 30 and is connected between the clutch housing 70 and the current speed clutch piston 80 to supply hydraulic pressure, and the four wheel drive oil side by side with the front wheel speed oil passage 140. A passage 150 is formed to lead between the clutch housing 70 and the four-wheel drive clutch piston 30a to supply hydraulic pressure.

Looking at the operation of the conventional four-wheel drive device equipped with such a front wheel speed increaser, the process of four-wheel drive is carried out as follows.

When the hydraulic pressure is supplied between the clutch housing 70 and the four-wheel drive clutch piston 30a through the four-wheel drive oil passage 150 formed on the front axle shaft 30, the four-wheel drive clutch piston 30a is driven by the hydraulic pressure. Advance while compressing the wheel drive spring (60). Thereafter, the four-wheel drive clutch disc 40 and the clutch pressure plate 50 are brought into close contact with each other by the forward movement, and the four-wheel drive hub gear 110b is connected. Four-wheel drive is achieved.

Next, when the driver rotates the steering wheel at a certain angle in the driver's seat while driving in four-wheel drive, the process of automatically increasing the front wheels is performed as follows.

Hydraulic supply is cut off to the four-wheel drive oil passage 150 formed on the front axle shaft 30, and the hydraulic pressure is supplied between the clutch housing 70 and the front wheel speed clutch piston 80 through the front wheel speed oil passage 140. When the front wheel speed clutch piston 80 is advanced by compressing the front wheel speed spring 180 by the hydraulic pressure. Thereafter, the front wheel speed clutch disk 100 and the clutch pressure plate 90 are brought into close contact with each other to rotate the front wheel speed hub gear 110a.

Therefore, the rotational force of the driving system drive shaft 111 is sequentially the four-wheel drive hub gear 110b, driven shaft 120, front wheel speed gear 130, front wheel speed hub gear 110a, front wheel speed clutch disc 100 ), The front wheel speed clutch pressure plate 90, the clutch housing 70, and the front axle coupling shaft 30 is transmitted, the front axle coupling shaft 30 is in a driving state of the front wheel acceleration compared to the driving system drive shaft 111. .

However, in the conventional tractor of the four-wheel drive device equipped with the front wheel speed increaser, when the engine is stopped and parked, the hydraulic power is not operated through the four wheel drive and the front wheel speed oil passage, so the four wheel drive and the front wheel speed clutch piston retreat. The four-wheel drive and front wheel speed springs restored by this retraction are restored, and the four-wheel drive and front wheel speed clutch pressure plates and the clutch disk are separated to block power transmission to the drive system drive shaft and the driven shaft.

As such, when the power transmission of the four-wheel drive is blocked, the tractor is only connected to the two-wheel drive, so when the parking brake is operated, only the rear wheel is braked.

In addition, even if the conventional tractor of the four-wheel drive device with a different type of front wheel speed increaser is installed, an additional configuration such as a separate gearbox and a lever is required, resulting in a large number of parts, thus occupying a lot of installation space.

The present invention has been made in order to improve the above-mentioned problems, the object is to set the driving shaft drive shaft and the front axle connecting shaft connected to the front axle to be installed in a straight line, the driving system drive shaft and the front axle connection The front wheel speed hydraulic wet clutch and the four wheel drive dog clutch are installed side by side on the shaft, and the front wheel speed hydraulic wet clutch and the front wheel speed driven shaft are gear-coupled to the four wheel drive dog clutch. With this configuration, when the engine is stopped, hydraulic pressure is not supplied through the front wheel acceleration and four wheel drive oil passages formed on the front axle shaft, and the front wheel speed hydraulic wet clutch does not operate, and the four wheel drive dog clutch operates with a spring force. It is to provide a four-wheel drive of the front wheel speed increase of the tractor to automatically perform four-wheel drive. Accordingly, even when the engine of the tractor is stopped and hydraulic pressure is not supplied through the front wheel acceleration and the four wheel drive oil passage formed on the front axle shaft, the four wheel drive dog clutch is automatically connected to the driving shaft drive shaft as the four wheel drive dog clutch operates. Since the connection of the four-wheel drive is always maintained, the connection of the four-wheel drive serves to improve the performance of the parking brake.

In order to achieve the above object, the front wheel speed four-wheel drive of the tractor of the present invention, the drive system drive shaft is installed in the transmission of the tractor; One side is connected to and separated from the drive system drive shaft and the other side is connected to the front axle shaft of the tractor axle shaft; A standby gear coupled to an outer circumference of the mold drive shaft; A four-wheel drive dog clutch mounted on an outer circumference of an end of a front axle shaft connected to the driving system drive shaft; A front wheel speed hydraulic wet clutch mounted to an outer circumference of the front axle connecting shaft in parallel with the four wheel drive dog clutch; A hub gear connected to the front wheel speed hydraulic wet clutch and mounted to an outer circumference of an electromagnetic shaft connecting shaft; A front wheel speed oil passage extending into the front wheel speed hydraulic wet clutch while penetrating the inside of the electromagnetic shaft connecting shaft; A four-wheel drive oil passage extending into the four-wheel drive dog clutch while penetrating the inside of the front axle shaft; And one side of the front wheel drive gear mounted on the outer circumference of the gear, and the other side of the gear is formed on the outer circumference of the front wheel drive gear shaft is geared with the atmospheric gear; the front wheel speed increase when the engine of the tractor is stopped The front wheel speed hydraulic wet clutch does not operate because the hydraulic supply through the oil passage and the four-wheel drive oil passage is blocked, so that the front wheel speed increase does not work and the front wheel speed is not achieved. The front axle connecting shaft is connected to the dog clutch automatically characterized in that the four-wheel drive is made.

The front wheel speed hydraulic wet clutch may include: a front wheel speed clutch housing mounted on an outer circumference of the front axle shaft; A front wheel speed clutch piston installed in the clutch housing; A front wheel speed clutch pressure plate coupled to a circumference of the clutch housing to be in close contact with the clutch piston; A front wheel speed clutch disc mounted between each clutch pressure plate connected to the hub gear; And a front wheel speed spring installed between the hub gear and the clutch piston.

Further, the front wheel speed oil passage preferably leads to a space between the front wheel speed clutch housing and the front wheel speed clutch piston.

The four-wheel drive dog clutch may further include: a hub mounted to an outer circumference of the front axle connecting shaft or a front wheel speed clutch housing; A dog clutch coupled to an outer circumference of the hub and connected to the air gear; And a four-wheel drive spring installed on one side of the dog clutch and configured to separate and connect the air gear and the dog clutch according to compression and restoration.

In addition, the four-wheel drive oil passage preferably leads to the space between the hub and the dog clutch.

According to the tractor's front wheel speed four-wheel drive device of the present invention, the four-wheel drive and the front wheel speed at the same time in normal use, the four-wheel drive is continuously connected even when the engine is stopped when the tractor parks the effect of improving the performance of the parking brake There is.

As such, the continuous connection of the four-wheel drive improves the performance of the parking brake, thereby preventing the front wheel from rotating on the slope of the slope, thereby actively preventing damage and accidents caused by arbitrary driving of the tractor.

In addition, the number of parts is reduced because there is no need to configure the lever and gear for connecting the four-wheel drive when the engine is stopped, such as a tractor of a four-wheel drive device equipped with another type of all-wheel drive, and the front-wheel-hydraulic wet clutch on the same axis And 4WD dog clutch are arranged to take up less space.

1 is a longitudinal sectional view of the front wheel speed four-wheel drive of the tractor according to the A type of the present invention
Figure 2 is a longitudinal cross-sectional view of the front wheel speed four-wheel drive of the tractor according to the B type of the present invention
Fig. 3A is a longitudinal sectional view of the all-wheel drive four-wheel drive when the engine is driven and the tractor is driven on two wheels;
3B is a longitudinal sectional view of the all-wheel drive four-wheel drive when the engine is driven and the tractor is driven by four wheels;
3C is a longitudinal sectional view of the all-wheel drive four-wheel drive when the engine is driven and the tractor drives at all-wheel drive speed;
Figure 4 is a longitudinal cross-sectional view of a four-wheel drive of the front wheel speed increase of the conventional tractor

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the front wheel speed four-wheel drive of the tractor according to the present invention will be described in detail. The present invention is not limited to the embodiments disclosed below, but can be implemented in various different forms, only this embodiment to make the disclosure of the present invention complete and to those skilled in the art to fully understand the scope of the invention It is provided to inform you.

1 is a longitudinal sectional view of the front wheel speed four-wheel drive of the tractor according to the A type of the present invention.

As shown in FIG. 1, the front wheel speed four-wheel drive apparatus of the tractor according to the A type of the present invention includes a traveling system drive shaft 1 and an axle shaft connecting shaft 3 arranged in a straight axis, and the traveling system drive shaft ( 1) and the four-wheel drive dog clutch 17 coupled to each other on the front axle shaft 3, the front wheel speed hydraulic wet clutch 16, the standby gear (2) coupled to the drive system drive shaft (1), Hub gear 11 coupled to the front axle coupling shaft 3 and the front wheel speed driven shaft 12 geared with the atmospheric gear 2 and gear gears coupled to the hub gear 11 through the front wheel speed gear 13; )

The driving system drive shaft 1 is installed at the lower end of the transmission of the tractor to receive the transmission of the transmission, and the driving system driving shaft 1 is a condition in which one side of the front axle connecting shaft 3 is a straight axis. The other side of the front axle connecting shaft 3 is connected to the rear axle (not shown) so that the shifting drive of the tractor is connected to the front axle of the tractor via the driving system drive shaft 1 and the front axle connecting shaft 3. Delivered.

The front wheel speed oil passage 14 and the four wheel drive oil passage 15 are formed side by side in the front axle connecting shaft 3 to the front wheel speed hydraulic wet clutch 16 and the four wheel drive dog clutch 17, respectively. It leads to.

The four-wheel drive dog clutch 17 is a hub 5 coupled to the front axle shaft 3 on the side to which the drive system drive shaft 1 is connected and a dog clutch 4 coupled to the hub 5. And a four-wheel drive spring 6 installed at the rear end of the dog clutch 4, compressing the dog clutch 4 while compressing the four-wheel drive spring 6 when hydraulic pressure is supplied through the four-wheel drive oil passage 15. ), The dog clutch 4 is advanced while restoring the four-wheel drive spring 6, which was compressed at the time of shut off of the hydraulic pressure through the four-wheel drive oil passage 15.

Here, the four-wheel drive oil passage 15 is connected to the space between the dog clutch (4) and the hub (5), one side of the four-wheel drive spring (6) is installed on the rear end of the hub (5) It is in close contact with one annular stopper 5a and the other side is in close contact with the rear end of the dog clutch 4.

The front wheel speed clutch wet clutch 16 is a front wheel speed clutch housing 7 coupled to the front axle coupling shaft 3 from a rear side of the hub 5 to a position to be inserted into the hub 5, the front wheels. The front wheel speed clutch piston 8 installed inside the speed increasing clutch housing 7 is coupled to the inner circumference of the front wheel speed clutch housing 7, and is alternately mounted, and one side is in close contact with the front wheel speed clutch piston 8. A front wheel speed spring installed under the front wheel speed clutch pressure plate 9 and the front wheel speed clutch disk 10 and the front wheel speed clutch pressure plate 9 and the front wheel speed clutch disk 10 to be in close contact with the front wheel speed clutch piston 8 ( 18).

The front wheel speed clutch wet clutch 16 installed as described above moves forward and backwards the front wheel speed clutch piston 8 by hydraulic pressure so that the front wheel speed clutch pressure plate 9 and the front wheel speed clutch disc 10 are in close contact with or separated from each other. do.

The standby gear 2 is coupled to the drive shaft 1 to face the dog clutch 4, and when the dog clutch 4 moves forward, the standby gear 2 is connected to the standby gear 2 to connect the standby gear 2. When the dog clutch 4 is retracted and separated from the standby gear 2, the operation of the standby gear 2 is stopped.

The hub gear 11 is coupled to the front axle coupling shaft 3 so that one side of the hub gear 11 is inserted into the center of the front wheel speed clutch pressure plate 9 and the front wheel speed clutch disk 10 and the front wheel speed clutch disk 10. The front wheel speed spring 18 is positioned inside the bottom thereof.

Here, the front wheel speed oil passage (16) passes through the front wheel speed clutch housing (7) and is connected to the space between the front wheel speed clutch housing (7) and the front wheel speed clutch piston (8), the front wheel speed spring 18 is in close contact with another ring-shaped stopper 7a formed inside the front wheel speed clutch housing 7 and the other side is in close contact with the front wheel speed piston 8.

The front wheel drive shaft 12 is equipped with a front wheel speed gear 13 on the outer peripheral surface of one side and the gear 12a is formed on the outer peripheral surface of the other side, the front wheel speed gear 13 is a hub gear ( The gear 12a geared to 11 and formed on the outer circumferential surface is geared to the standby gear 2.

Figure 2 shows a longitudinal cross-sectional view of the front wheel speed four-wheel drive of the tractor according to the type B of the present invention.

As shown in Figure 2, the overall configuration is not different from the front wheel speed four-wheel drive of the tractor according to the A type of the present invention, the shape is slightly different in some configurations.

That is, in the front wheel speed four-wheel drive of the tractor according to the B type of the present invention is installed in front of the front wheel speed clutch housing (7) to the end of the front axle connecting shaft (3) to which the drive system drive shaft (1) is connected. On the front of the clutch housing 7, a dog clutch 4 and a four-wheel drive spring 6 are installed together with a hub 5 having a height lower than that of the A type.

In addition, one side of the four-wheel drive spring (6) is directly in close contact with the outer side of the front wheel speed clutch housing (7) without the ring-shaped stopper (5a) formed in the A-type four-wheel drive device, the other side It is in close contact with the rear end of the dog clutch 4 similarly to the A-type four-wheel drive device.

For other slightly different parts, the detailed description of the slightly different shape will be omitted since the four wheel drive is automatically affected even when the engine of the tractor is stopped. Since they are of the same construction, the same codes as those of the A-type all-wheel drive 4-wheel drive are given.

Referring to the operation state of the front wheel speed four-wheel drive device of the tractor of the present invention configured as described above are as follows.

First, the driving of two-wheel drive, four-wheel drive, and front wheel speed increase in driving a general tractor will be described.

FIG. 3A shows a longitudinal cross-sectional view of a front wheel drive four-wheel drive when the engine is running and the tractor drives two wheels. FIG.

As shown in FIG. 3A, when hydraulic pressure is supplied between the dog clutch 4 and the hub 5 through the four-wheel drive oil passage 15 when the engine of the tractor is operating, the dog clutch 4 is driven by the hydraulic pressure. Is retracted to compress the four-wheel drive spring (6), by the retraction of the dog clutch 4 such that the dog clutch (4) and the idler (2) is disconnected, the idler drive shaft (1) rotates only State, that is, a state of two-wheel drive 2WD.

At this time, since the hydraulic pressure is not supplied to the front wheel speed oil passage 14, the front wheel speed spring 18 pushes the front wheel speed piston 8 by the spring elastic force, and thus the front wheel speed clutch pressure plate 9 and the clutch disc 10 If the) is separated, the operation of the front wheel speed is in the OFF state.

Fig. 3B shows a longitudinal sectional view of the all-wheel drive four-wheel drive when the engine is driven and the tractor is driven by four wheels.

As shown in FIG. 3B, if the hydraulic pressure is cut off between the dog clutch 4 and the hub 5 through the four-wheel drive oil passage 15 when the tractor engine is running, the four-wheel drive that has been compressed by the hydraulic pressure is blocked. As the spring 6 is restored, the dog clutch 4 is moved forward, and the dog clutch 4 and the standby gear 2 are connected to each other by the advancement of the dog clutch 4 and at the same time the driving system drive shaft 1 ) And the front axle connecting shaft 3 are also connected to each other to form a four-wheel drive (4WD).

At this time, since the hydraulic pressure is not supplied to the front wheel speed oil passage 14, the front wheel speed spring 18 pushes the front wheel speed piston 8 by the spring elastic force, and thus the front wheel speed clutch pressure plate 9 and the clutch disc 10 Front wheel acceleration is off.

3C is a longitudinal sectional view of the all-wheel drive four-wheel drive when the engine is running and the tractor drives at all-wheel drive speed.

As shown in FIG. 3C, when the engine of the tractor is operated, hydraulic pressure is supplied between the front wheel speed clutch housing 7 and the clutch piston 8 through the front wheel speed oil passage 14, and the four wheel drive oil path ( If the hydraulic pressure is also supplied between the dog clutch 4 and the hub 5 through 15), the front wheel speed is connected.

That is, while the front wheel speed clutch piston 8 is pushed by the hydraulic pressure supplied through the front wheel speed oil passage 14 to compress the front wheel speed spring 18, the front wheel speed piston 8 is the front wheel speed clutch pressure plate 9. The front wheel speed clutch pressure plate 9 and the clutch disk 10 rotate by simultaneously compressing and connecting the clutch disk 10 and the hub gear 11 connected to the front wheel speed clutch pressure plate 9 and the clutch disk 10. ) Rotates integrally.

In addition, the dog clutch 4 is retracted by the hydraulic pressure supplied through the four-wheel drive oil passage 15 to compress the four-wheel drive spring 6, the dog clutch by the retraction of the dog clutch (4). The connection between (4) and the standby gear (2) is broken so that it is not connected only by four-wheel drive.

Accordingly, the rotational force of the traveling system drive shaft 1 is sequentially applied to the standby gear 2, the front wheel drive shaft 12, the front wheel drive gear 13, the hub gear 11, the front wheel drive clutch disk 10, the front wheel drive It is transmitted to the clutch pressure plate 9, the front wheel speed clutch housing 7, and the front axle connecting shaft 3, wherein the front axle connecting shaft 3 is in a state of front wheel speed increase as compared to the driving system drive shaft (1).

Next, with reference to FIGS. 1 and 2, the four-wheel drive is automatically connected when the engine of the tractor stops after the two-wheel drive, four-wheel drive, and front-wheel drive when the engine operates as described above.

For example, when the engine is stopped by parking the tractor, the hydraulic pressure supplied between the front wheel speed clutch housing 7 and the clutch piston 8 through the front wheel speed oil passage 14 is cut off, and at the same time, the four wheel drive oil path 15 is closed. The hydraulic pressure supplied between the dog clutch 4 and the hub 5 is cut off.

Therefore, when the supply of hydraulic pressure through the front wheel speed oil passage 14 is cut off, the driving state of the front wheel speed increase is in the OFF state by the above-described process, and at the same time, the hydraulic pressure through the four wheel drive oil passage 15 is maintained. When the supply is cut off, the driving state of the four-wheel drive is in the ON state by the above-described process. When the engine is stopped, the supply of hydraulic pressure is cut off and automatically connected to the four-wheel drive.

In this way, if the four-wheel drive is continuously connected even when the engine is stopped, the front wheel and the rear wheel are caught by the brake when the parking brake is braked while the tractor is stopped, thereby increasing the performance of the parking brake.

As described above with reference to the drawings illustrated with respect to the four-wheel drive of the tractor according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, the technical spirit of the present invention Various modifications can be made by those skilled in the art within the scope of the course.

1: odometer drive shaft 2: standby gear
3: front axle connecting shaft 4: dog clutch
5: hub 5a, 7a: annular stopper
6: 4 wheel drive spring 7: front wheel speed clutch housing
8: front wheel speed clutch piston 9: front wheel speed clutch pressure plate
10: Front wheel speed clutch disc 11: Hub gear
12: front wheel speed driven shaft 12a: gear
13: Front wheel speed increase gear 14: Front wheel speed oil passage
15: Four-wheel drive oil passage 16: Front wheel speed hydraulic wet clutch
17: 4 wheel drive dog clutch 18: front wheel speed spring

Claims (5)

A traveling system drive shaft installed in a transmission of the tractor;
One side is connected to and separated from the drive system drive shaft and the other side is connected to the front axle shaft of the tractor axle shaft;
A standby gear coupled to an outer circumference of the mold drive shaft;
A four-wheel drive dog clutch mounted on an outer circumference of an end of a front axle shaft connected to the driving system drive shaft;
A front wheel speed hydraulic wet clutch mounted to an outer circumference of the front axle connecting shaft in parallel with the four wheel drive dog clutch;
A hub gear connected to the front wheel speed hydraulic wet clutch and mounted to an outer circumference of an electromagnetic shaft connecting shaft;
A front wheel speed oil passage extending into the front wheel speed hydraulic wet clutch while penetrating the inside of the electromagnetic shaft connecting shaft;
A four-wheel drive oil passage extending into the four-wheel drive dog clutch while penetrating the inside of the front axle shaft; And
One side is a front wheel drive gear is mounted on the outer circumference gear is coupled to the hub gear, the other side gear formed on the outer circumference is a front wheel speed driven shaft geared with the atmospheric gear;
The front wheel speed hydraulic wet clutch does not operate by stopping the hydraulic supply through the front wheel speed oil passage and the four wheel drive oil passage when the engine of the tractor is stopped, thereby preventing the front wheel speed increase, and the four wheel drive dog clutch does not operate. The spring is operated by the four-wheel drive of the tractor, characterized in that the four-wheel drive is achieved by automatically connecting the front axle shaft connected to the drive shaft drive shaft with the dog clutch.
The method of claim 1,
The front wheel speed hydraulic wet clutch,
A front wheel speed clutch housing mounted on an outer circumference of the front axle shaft;
A front wheel speed clutch piston installed in the clutch housing;
A front wheel speed clutch pressure plate coupled to a circumference of the clutch housing to be in close contact with the clutch piston;
A front wheel speed clutch disc mounted between each clutch pressure plate connected to the hub gear; And
A front wheel speed spring installed between the hub gear and the clutch piston;
Front wheel speed four-wheel drive of the tractor, characterized in that consisting of.
The method of claim 2,
Wherein the front wheel speed oil passage leads to a space between the front wheel speed clutch housing and the front wheel speed clutch piston.
The method according to any one of claims 1 to 3,
The four-wheel drive dog clutch,
A hub mounted to an outer circumference of the front axle coupling shaft or a front wheel speed clutch housing;
A dog clutch coupled to an outer circumference of the hub and connected to the air gear; And
A four-wheel drive spring installed on one side of the dog clutch and configured to separate and connect the air gear and the dog clutch according to compression and restoration;
Front wheel speed four-wheel drive of the tractor, characterized in that consisting of.
The method of claim 4, wherein
The four-wheel drive oil passage is a four-wheel drive of the tractor, characterized in that leading to the space between the hub and the dog clutch.

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