RU2387119C1 - Agricultural machine (versions) - Google Patents

Abstract

FIELD: agriculture. ^ SUBSTANCE: machine comprises traction transport device and monaxonic machine connected to its by means of connecting rod hingedly attached to facility. Wheel tractor or crawler tractor is used as traction transport device. Monaxonic machine is connected to tractor with the help of connecting rod, front part of which is fixed to tractor frame at the bottom, near base middle, with the help of hinged joint having three degrees of rotary motion. ^ EFFECT: improved efficiency of building block approach, simplified control of soil treatment depth. ^ 10 cl, 5 dwg

Description

The invention relates to the field of engineering and can be used in agricultural machine-tractor units.

Known combined tillage sowing unit, consisting of a towing vehicle on the basis of an agricultural tractor and tillage sowing complex (PPC), described and shown in the abstract [Berezhnov N.N. Justification of the rational layout and operation modes of energy-saturated soil-cultivating sowing complexes: abstract of thesis. Cand. tech. Sciences: 18.04.07 / Berezhnov N.N. - Barnaul, 2007 .-- 24 p. (Annex 1)]. This unit, Fig. 1, Appendix 1, consists of a tractor 1, uniaxial 4 or 2-axle 3 trailers with a container for seeds and fertilizers - hereinafter “the hopper", machines 2 for simultaneous tillage, sowing of grain, fertilizing and rolling - in hereinafter referred to as the “cultivator”, connected by means of a standard towing device TSU-1-G GOST 3481-79, then TSU.

The weight of the complex is commensurate with the weight of the tractor. The total weight of the unit is unevenly distributed on the supporting surfaces of the chassis of the tractor and the complex, which leads to increased soil compaction and additional energy costs for moving the unit.

The specific pressure of the movers of wheeled tractors with double wheels, and especially caterpillar tractors, is significantly less than the specific pressure of the support wheels of the hopper. Therefore, uniaxial trailers (bunkers), which allow part of the weight to be transferred to the tractor propulsion, are becoming more common. The value of “tractor loading” is limited not by the load capacity of the running system, but by the maximum allowable pressure on the soil of the rear wheels. In a caterpillar tractor, it is limited by the maximum allowable pressure on the rear track rollers.

The closest in its technical essence is a towing vehicle with a rotary drawbar fixed in the center of rotation of the frame (Technique and equipment for the village, No. 8, 2007, p. 38). Machines with a rotary drawbar, mainly of foreign manufacture, have a number of well-known advantages in comparison with a hitch by means of a towing device. However, they do not provide the transfer of a part of the weight of the machine to be aggregated to the front drawbar attachment point.

The problem solved by the invention is to increase the efficiency of aggregation of tractors with tillage sowing complexes equipped with a uniaxial hopper, as well as with trailed uniaxial implements (machines).

This task is achieved by:

1) reducing the sealing effect of the running systems of the towing vehicle (tractor), tillage sowing complex or trailed uniaxial implements on the soil by a more rational distribution of pressure on the supporting surface between the supports;

2) reduce the slippage of the tractor propulsion;

3) reducing the resistance to rolling the unit;

4) increasing the uniformity of the depth of tillage and sowing by a tillage sowing complex or a trailed uniaxial implement by reducing the angular vibrations of the frame of a uniaxial trailed machine in a longitudinally vertical plane.

The technical essence of the invention is to reduce the maximum pressure of the chassis of the towing vehicle on the soil q _max (Fig.1, 3) due to the approach of the center of pressure (point D) to the middle of the supporting surface (point O) and, as a result, a more rational load distribution , a decrease in the resistance forces to rolling of the aggregate P _cr and an increase in the uniformity of the course of the tillage sowing complex.

The present problem is solved in that in an agricultural unit including a towing vehicle and a uniaxial machine attached to it by a drawbar, which is hinged to the means of the vehicle, a wheeled tractor is used as a towing vehicle, and a uniaxial machine is attached to it by means of a drawbar, the front part of which is attached to the skeleton of the tractor from below, near the middle of the base, using a hinge with three degrees of rotational movement. On the frame of the towing vehicle, limiters for the possible drawbar movement in longitudinally-vertical and horizontal planes are installed. The drawbar is attached to the machine frame using a vertical hinge. The drawbar is connected to the frame of the machine by means of a horizontal hinge equipped with a latch for forced regulation of the mutual position of the drawbar, and the frame of a uniaxial machine in the longitudinally vertical plane. The lock is equipped with a fuse.

According to the second option, the present problem is solved by the fact that in an agricultural unit including a towing vehicle and a uniaxial machine attached to it by a drawbar mounted to the means articulated, a caterpillar tractor is used as a towing vehicle, and a uniaxial vehicle is attached to it with using a drawbar, the front of which is attached to the skeleton of the tractor from below, near the middle of the supporting surface, using a hinge with three degrees of rotational movement. On the frame of the towing vehicle, limiters are installed for the possible drawbar movement in the longitudinally-vertical and horizontal planes. The drawbar is attached to the machine frame using a vertical hinge. The drawbar is connected to the frame of the machine by means of a horizontal hinge equipped with a clamp for forcing the mutual position of the drawbar and the frame of the uniaxial machine in the longitudinally vertical plane. The lock is equipped with a fuse.

The present invention is accompanied by drawings.

Figure 1 shows a diagram of the unit, including a wheeled tractor and a single-axle trailer, indicating the external forces acting on the unit in a longitudinally vertical plane (the cultivator is replaced by the force P _m acting on its side at a height of h _m ).

Figure 2 presents a diagram of a wheeled tractor and a single-axle trailer in the horizontal plane.

Figures 3 and 4 show the same as figures 1 and 2, respectively, but for a caterpillar tractor.

Figure 5 presents a diagram of a possible embodiment of the vertical and horizontal hinges of the drawbar.

The agricultural unit consists of a towing vehicle 1 connected to a uniaxial machine 2 by means of a drawbar 3, which is attached to the towing vehicle by a hinge A, mounted under the frame 4 of the towing vehicle 1 above the supporting surface and having three degrees of freedom of rotation. The rotation of the drawbar relative to the frame of the tractor is limited by stops 5 and 6.

To make sharp turns, the drawbar is connected to the frame 7 of the uniaxial machine 2 using a vertical hinge B, and to ensure the movement of the unit along irregularities, it has a horizontal hinge C with a latch 8. The latch is equipped with a fuse 9.

Normal pressure on the soil of the front q _p and rear q _{to the} wheels of the wheeled tractor (Fig. 1), on the supporting surface of the caterpillar tractor mover (Fig. 3) - q and the wheels of a uniaxial machine q _m have different meanings. Their value has a significant effect on soil compaction, the rolling resistance of the front P _fn , rear P _fk tractor wheels, hopper P _fm and slipping tractor movers. The lower the maximum q _max and average q _cp specific pressure on the soil, the less its vertical deformation and depth of track. The more uniform the distribution of weight on the supporting surface of tracked and wheeled tractors with all driving wheels, the less their slipping.

The alignment of pressure plots for a caterpillar tractor (Fig. 3) can be achieved if the drawbar 3 is connected using the hinge A, positioning it between the supporting surface and the frame 4 of the tractor 1 with longitudinal a _m and vertical h _cr coordinates so that the moment of weight G _t with shoulder a ₀ and the moment created by the weight transmitted by the uniaxial trailer ΔG _p with shoulder a _m , the overturning moment arising from the pulling resistance of the aggregate P _cr with the shoulder h _{cr was} balanced. Then the resulting normal soil reaction Y _op will pass through the middle of the supporting surface (point O).

The same will be characteristic of a wheeled tractor (balancing the load on the front and rear wheels), when the resulting normal soil reaction U _op will pass through the middle of the tractor base (point O).

Such an arrangement of the attachment of the front end of the drawbar 3 (hinge A) and the large drawbar length, in comparison with the TCU, reduce the angular vibrations of the frame 7 of the uniaxial machine in the longitudinally vertical plane when moving along bumps and improve the quality of soil cultivation and sowing.

The unit operates as follows.

On flat fields, the mutual displacements of the towing vehicle 1 and the uniaxial machine 2 are small and the drawbar 3 vibrations relative to the tractor frame do not exceed the angles ± β ₁ in the horizontal plane until they touch with limiters 6, and in the longitudinal-vertical plane they do not touch with limiters 5 The oscillations of the drawbar 3 are carried out around the hinge A. The position of the axles of the drawbar 3 and the frame 7 of the uniaxial trailer remains unchanged.

In sharp turns, when the angles of rotation of the drawbar 3 relative to the longitudinal axis in the horizontal plane exceed ± β ₁ , it abuts against the stops 6 and then the machine rotates relative to the frame of the tractor around the axis of hinge B (FIGS. 2, 4 and 5).

When moving along irregularities in the longitudinally vertical plane, the drawbar 3 abuts against the stops 5. When it stops against the lower limit, the frame 7 of the uniaxial machine rotates relative to the tractor frame around the hinge C (Figs. 1, 3 and 5). When the stop is in the upper limiter, the rotation occurs after the safety device 9 is activated. The limiters 5 and 6 can be replaced by restrictive chains, braces, etc., and the latch 8 with the fuse 9 can be replaced by a mechanism that provides a force change in the position of the drawbar 3 relative to the frame 7 of the uniaxial machine . This can be done using a screw mechanism, or a power hydraulic cylinder (not shown in the drawings), or other well-known methods of power regulation. This will simplify the design and method of regulating the depth of tillage.

Claims (10)

1. An agricultural unit, including a towing vehicle and a uniaxial machine, attached to it by a drawbar, which is hinged to the means of the vehicle, characterized in that a wheeled tractor is used as a towing vehicle, and a uniaxial machine is attached to it by means of a drawbar, front part of which is attached to the skeleton of the tractor from below, near the middle of the base, using a hinge with three degrees of rotational motion. 2. The agricultural unit according to claim 1, characterized in that on the frame of the towing vehicle, limiters are installed for the possible movement of the drawbar in the longitudinally-vertical and horizontal planes. 3. The agricultural unit according to claim 1, characterized in that the drawbar is attached to the frame of the machine using a vertical hinge. 4. The agricultural unit according to claim 1, characterized in that the drawbar is connected to the frame of the machine using a horizontal hinge equipped with a latch for forced regulation of the mutual position of the drawbar and the frame of the uniaxial machine in a longitudinally vertical plane. 5. The agricultural unit according to claim 4, characterized in that the latch is equipped with a fuse. 6. An agricultural unit, including a towing vehicle and a uniaxial vehicle, attached to it by a drawbar, which is hinged to the means of the vehicle, characterized in that a caterpillar tractor is used as a towing vehicle, and the uniaxial vehicle is attached to it by a drawbar, front part of which is attached to the skeleton of the tractor from below, near the middle of the supporting surface, using a hinge with three degrees of rotational motion. 7. The agricultural machine according to claim 6, characterized in that on the frame of the towing vehicle, limiters are installed for the possible drawbar movement in the longitudinally-vertical and horizontal planes. 8. The agricultural unit according to claim 6, characterized in that the drawbar is connected to the frame of the machine using a vertical hinge. 9. The agricultural unit according to claim 6, characterized in that the drawbar is connected to the frame of the machine using a horizontal hinge equipped with a clamp for forcing the mutual position of the drawbar and the frame of the uniaxial machine in the longitudinally vertical plane. 10. The agricultural unit according to claim 9, characterized in that the latch is equipped with a fuse.

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