RU204688U1 - UNIVERSAL WHEEL TRACTOR - Google Patents

Abstract

The utility model relates to the field of agricultural mechanical engineering, mainly tractor construction. The universal wheeled tractor contains a rigid frame, a power plant, a gearbox with a transfer case, front and rear axles with controlled driving replaceable wheels for performing various types of work, a cab with life support systems and controls, with front and rear linkage mechanisms. To increase the productivity of the tractor by increasing the traction and coupling properties of the tractor, reducing the compacting effect of the tractor's running wheels and slipping, brackets are made on the rear axle housing of the tractor for attaching an additional frame with a transverse horizontal hinge, on which a drive axle with wheels of the same standard size is installed, connected to the transfer case. a box of driving axles of the tractor through the cardan shaft, which ensures synchronous rotation of the wheels and the transmission of constant torque, and the additional driving axle is made with the ability to turn off the transmission of torque when the tractor is operating with low tractive resistance, and the additional frame is equipped with a linkage mechanism, a trailing device, a power take-off shaft connected to the tractor power take-off shaft through the cardan shaft, and a platform for placing technological containers for seeds, mineral and liquid fertilizers or a body for transporting various types of goods. When the tractor performs inter-row cultivation and harvesting of industrial crops, the additional frame with the drive axle is removable, which makes it possible to reinstall the hitch mechanism and the hitch on the tractor and install narrow-profile tires to perform various types of work on the cultivation of row crops. The proposed utility model expands the technological capabilities of the existing one. universal tractor by increasing the tractive effort on the hook of the tractor, which, when performing general-purpose work, transfers it to the next traction class, increasing its productivity, reducing fuel consumption per unit area and speeding up field work.

Description

The utility model relates to the field of agricultural engineering, mainly tractor engineering.

Various methods are known for reducing the compacting effect on the soil and increasing the tractive effort on the hook of wheeled tractors by increasing their traction and coupling properties. The most common methods are twinning wheels, installing low-pressure tires, installing on the rear axle of caterpillar tracks. However, all these methods do not reduce the compacting effect of the front axle of wheeled tractors on the soil. These disadvantages are eliminated in three-four-axle variants of the tractor layout, when the load on the front axle of the tractor is redistributed to the other axles of the tractor, which leads to an increase in the productivity of the tractor.

There is a known option for increasing the traction and coupling properties and reducing the specific pressure on the ground of the tractor of a high-class traction T-860 of the company "DTI" by assembling it on four axles with two controllable front axles. The tractor engine power is 600 hp, the tractor weight is 20 tons, the length is 18 m, the width is 2.55-3.0 m, the load on the wheels is leveled, the traction efficiency increases to 0.80-0.85, the tractive effort is hook reaches 10-15 tons.

The tractor can be used for field work with high tractive resistance. [URL: https://www.agrobase.ru/catalog/machinery/machinery_6b8fb4c4-f6e1-4fe0-8a75-64b349b8d44f].

The disadvantages of this tractor are low maneuverability and versatility, it is intended only for energy-intensive field work on the main soil cultivation.

The prototype of the proposed utility model is the universal tractor RT-M-160 manufactured by Uralvagonzavod. Universal tractor RT-M-160 of traction class 2 with an engine power of 160 hp. designed for the cultivation and harvesting of sugar beets, vegetables, potatoes and high-stemmed row crops as part of wide-cut, single-operation and combined units mounted on the back and front, for plowing with mounted plows to a depth of 30 cm, continuous cultivation of crops and harvesting grain and other crops, and also loading and unloading, transportation and other general work. [URL: https://tractorreview.ru/traktory/uvz/traktor-rtm-160-tehnicheskie-harakteristiki.html].

The RTM-160 tractor contains a rigid frame, a power plant, a gearbox with a transfer case with an operating speed of 0.09 to 16.0 km / h and a transport speed of up to 35 km / h, front and rear axles with controlled driving removable wheels of the same size for various types of work, a cab with life support systems and controls, with a front and rear linkage mechanism, the track is adjustable from 1460 to 2060 mm, the turning radius is 4.5 m, the tractor length is 5.1 m, the tractor weight is 5575 kg, has rear and side power take-off shafts, creeper.

The disadvantage of the tractor is the inability to fully use the power of the tractor engine for energy-intensive field work (plowing, cultivation, sowing) due to the low weight of the tractor (5575 kg), which leads to greater tractor slipping and soil compaction, which reduces its productivity and increases fuel consumption ...

The objective of the proposed utility model is to increase the productivity of the tractor by increasing the traction and coupling properties of the tractor, reducing the compacting effect on the soil of the running wheels of the tractor and its slipping by pivoting in the longitudinal-vertical plane to the rear axle of the tractor frame with an additional driving axle.

The task is accomplished by the fact that on a universal wheeled tractor containing a rigid frame, a power plant, a gearbox with a transfer case, front and rear axles with controlled driving replaceable wheels for performing various types of work, a cab with life support systems and controls, with front and the rear linkage mechanism, in contrast to the prototype, to increase the productivity of the tractor by increasing its traction and coupling properties, reducing the sealing effect of the tractor's running wheels and slipping on the rear axle body of the tractor, brackets are made for attaching an additional frame with a transverse horizontal hinge, on which an additional driving axle is installed with wheels of the same size, connected to the transfer case of the driving axles of the tractor through the cardan shaft, providing synchronous rotation of the wheels and the transmission of constant torque, and the additional driving axle is made with the possibility of disabling the transmission torque when the tractor is operating with low tractive resistance, and the additional frame is equipped with a linkage mechanism, a towing device, a power take-off shaft connected to the tractor's power take-off shaft through a cardan shaft, and a platform for placing technological containers for seeds, mineral and liquid fertilizers or a body for transportation of various types of goods.

To enable the tractor to perform inter-row cultivation and harvest industrial crops, the additional frame with an additional drive axle is removable, which makes it possible to reinstall the linkage mechanism and the hitch on the tractor and install narrow-profile tires for various types of work on the cultivation of row crops.

The technical result of using the utility model is to increase the productivity of the tractor by increasing its traction and coupling properties by installing a third drive axle behind the tractor and increasing the tractor weight by installing various technological loads on an additional frame, which makes it possible to increase the working width and speed when performing soil cultivation and sowing agricultural crops. the movement of the tractor. This contributes to the full use of the tractor engine power, a decrease in fuel consumption per unit of cultivated area, as well as a decrease in slipping and the compacting effect of wheels on the ground due to the redistribution of loads over three tractor axles.

The technical essence of the proposed utility model is illustrated by figures.

FIG. 1. Universal wheeled tractor with an additional drive axle (side view).

FIG. 2. Universal wheeled tractor with an additional drive axle (top view).

A universal wheeled tractor (Fig. 1 and 2) consists of a frame 1, a power plant 2, a gearbox 3 with a transfer case 4, a front 5 and 6 rear axles with steerable drive wheels 7, a cab 8 with a life support system and controls, with a front 9 and rear linkage mechanisms.

To increase the productivity of the tractor by increasing its traction and coupling properties, fully using the power of the tractor engine and reducing the sealing effect and slipping of the tractor running wheels, brackets 11 are made on the rear axle housing of the tractor 10 for attaching an additional frame 12 with a horizontal hinge 13, on which the leading an axle 14 with wheels 21 of the same size, connected to the transfer case 4 through a propeller shaft 15, providing synchronous rotation of the wheels.

The additional frame 12 has a linkage mechanism 16, a hitch 17, a power take-off shaft (PTO) 18 connected to the PTO of the tractor via a cardan transmission, a platform for placing technological containers 19 or a body 20 for transporting various types of goods.

For the tractor to perform inter-row cultivation and harvest industrial crops, the additional frame 12 with the drive axle 14 is removable.

A universal wheeled tractor with an additional drive axle performs work on the main, additional and pre-sowing soil cultivation and sowing agricultural crops with mounted, semi-mounted and trailed machines.

To perform such work, the linkage mechanism and the hitch are previously removed from the tractor, and an additional frame 12 with a transverse horizontal hinge 13 with an additional drive axle 14 with wheels 21 of the same size installed on it is attached to the brackets 11 made on the housing of the rear axle of the tractor 10. Then the driving axle 14 is connected to the transfer case 4 of the driving axles of the tractor through the cardan shaft 15, which ensures synchronous rotation of the wheels and the transmission of constant torque, while the additional driving axle is configured to turn off the transmission of torque when the tractor is operating with low tractive resistance. At the rear of the additional frame, there are places for attaching the linkage mechanism 16, the towing device 17 and the power take-off shaft 18, which is connected to the tractor power take-off shaft through the cardan shaft. The additional frame provides space for 19 technological containers for seeds, mineral and liquid fertilizers or a body for transporting various types of goods.

The positive effect of using the proposed tractor design is as follows.

It is known that when wheeled tractors are operating, the front axle accounts for about 2/3 of the tractor weight. When an additional third axle is installed on the tractor behind the rear axle, a force G _n acts, which creates a moment that unloads the front axle of the tractor. If in the two-axle version the reaction of the soil to the front wheels R _n is determined as

then when connecting an additional bridge

where R _n is the reaction of the soil to the front wheel, kN;

G _t - tractor gravity, kN;

G _n - force of pressure on the rear axle of the tractor from the side of the additional frame, kN;

a, b, c - shoulders of the action of forces, m.

In turn, the force G _n depends on the gravity of the additional frame G _g , kN, with a load and is defined as:

where e, d are the shoulders of the action of forces, m.

Thus, when installing an additional axle, the loads on the wheels are equalized, which reduces soil compaction and slipping of the tractor wheels, and also increases the traction efficiency η _{T of the} tractor. If in the two-axle version it is η _T = 0.6, then in the three-axle version η _T = 0.8, which increases the tractive effort on the tractor hook P _cr , kN, at a constant tractor engine power, N _e , kW, that is:

where V _a is the speed of the tractor, m / s.

An increase in the tractive effort on the tractor hook at η _T = 0.8 by 33%, respectively, increases the productivity of the tractor by the same amount. In addition, when installing technological tanks during sowing, applying mineral and liquid fertilizers to the frame of the additional axle, the gravity of these machines decreases and their traction resistance decreases, which additionally makes it possible to increase the working width and productivity of the tractors.

For cultivation of row crops, an additional frame with a drive axle can be easily detached from the tractor, and then the linkage mechanism and the towing shackle are installed on the tractor. To carry out inter-row cultivation, narrow-profile tires are installed on the tractor, corresponding to the row spacing of the cultivated crop.

Thus, the proposed utility model expands the technological capabilities of the existing universal tractor by increasing the tractive effort on the tractor hook, which, when performing general-purpose work, transfers it to the next traction class, increasing its productivity.

When cultivating row crops, the tractor is moved to its original position and performs all technological operations for the cultivation of row crops as usual. This increases tractor productivity, reduces fuel consumption per unit area and speeds up field work.

Claims (2)

1. A universal wheeled tractor containing a rigid frame, a power plant, a gearbox with a transfer case, front and rear axles with controlled driving replaceable wheels for performing various types of work, a cab with life support systems and controls, with front and rear linkage mechanisms, differing the fact that in order to increase the productivity of the tractor by increasing the traction and coupling properties of the tractor, reducing the sealing effect of the running wheels of the tractor and slipping, brackets are made on the housing of the rear axle of the tractor for attaching an additional frame with a transverse horizontal hinge, on which a drive axle with wheels of the same standard size is installed, connected to the transfer case of the driving axles of the tractor through the cardan shaft, providing synchronous rotation of the wheels and the transmission of constant torque, and the additional driving axle is configured to turn off the transmission of torque when the tractor is operating at low traction resistance, and the additional frame is equipped with a linkage mechanism, a towing device, a power take-off shaft connected to the tractor's power take-off shaft through a cardan shaft, and a platform for placing technological containers for seeds, mineral and liquid fertilizers or a body for transporting various types of goods. 2. A universal wheeled tractor according to claim 1, characterized in that in order to enable the tractor to perform inter-row cultivation and harvest industrial crops, the additional frame with the drive axle is removable, which makes it possible to reinstall the hitch mechanism and the hitch on the tractor and install narrow profile tires for performing various types of work on the cultivation of row crops.

Images