RU178454U1 - Device for connecting a tractor to a tillage implement - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to devices for connecting a tractor with tillage implements, and can be used in machine processing of soil with subsoilers, semi-mounted reversible plows and other types of agricultural machinery. The technical result of the proposed utility model consists in simplifying the design and manufacturability of the device for connecting a tractor with a tillage implement, increasing reliability, functionality and reducing the metal consumption of the device. The technical result is achieved by the fact that in the device for connecting the tractor with a tillage implement, including a wheel trolley of a longitudinal structure with support wheels, means for coupling and adjusting the position of the tillage implement in height, according to a utility model, the wheel trolley of a longitudinal design contains reinforced lifting frame, rectangular in plan, and the main frame in the form of a longitudinal box-section rod with a transverse beam, which is supported by mounted on the axial assembly of the support wheels and has a swivel connection with a lifting frame, a vertical bracket for swiveling with a turnbuckle adjustable in length is installed on the longitudinal rod, the free end of which and two coupling brackets on the lifting frame are made with the possibility of adjustable swiveling with a tillage implement three-point hitch system, and the elements of the lifting and main frames are reinforced with Y-shaped stiffeners, and hydraulic power cylinders are placed along the the new sides of the lifting frame and are pivotally connected to it by one end, and the second end - with protruding brackets above the transverse beam of the main frame with the ability to rotate the lifting frame by an angle in the range from -35 ° to + 20 ° relative to the horizontal plane. and the stiffening ribs of the main and lifting frames can be made mainly of rectangular pipes, the ratio of the lengths of these frames in the longitudinal direction can be in the range of 2.5-4.5, and the elongated part of the longitudinal rod of the main frame s can be configured to adjust the distance from the axis of the support wheels to the coupling head in changing tillage orudiya.Krome of power unit hydraulic cylinders may be provided with adjustable throttles and check valves to control the speed unstressed raising and lowering the tilling implement. 4 of FIG.

Description

The utility model relates to agricultural engineering, in particular to devices for connecting a tractor with tillage implements, and can be used in machine processing of soil with deep-rippers, semi-mounted reversible plows and other types of agricultural machinery.

Widely known are devices for connecting a tractor to tillage implements made in the form of tractor attachments (ed. St. SU No. 677698, No. 808020, No. 1207409, patent RU No. 2241322).

A typical attachment for connecting a tractor to a tillage implement includes upper and lower longitudinal links, braces, a lifting mechanism with a power hydraulic cylinder, a bracket mounted on the implement frame and connected to the upper link, and an axis passing through the lower link eyes connected to the implement frame, the front part of the implement’s frame is equipped with an inclined downward facing stand, having vertically spaced holes for the axis passing through the eyes of the lower links, and the central rod and vertical p Askos have grooves for the fingers of the mating elements (ed. St. SU No. 337085, publ. 05/05/1972).

The disadvantages of the known and similar devices are the relatively low reliability of the tractor’s mounted hitch due to the large number of levers, hinges and components in it, as well as the difficulty in regulating the direction of the thrust when moving the tillage implement on uneven field surfaces.

Known controlled agricultural device with balanced rotary force for connecting the tractor with a tillage implement, containing a towed unit, a supporting frame, the first and second wheel units and at least one drive. The trailer assembly is adapted to connect the device to the tractor. The supporting frame is connected to the trailer assembly. Each wheel assembly is rotatably coupled to a support frame with a corresponding articulated joint. The drive is configured to rotate the wheel assemblies around the swivel joints in a first direction, applying a first torque, and to rotate the wheel assemblies around the swivel joints in a second direction opposite to the first direction, applying a second torque. The first and second wheel assemblies are rotatably connected to the support frame by first and second articulated joints, respectively. The device also contains the first and second hydraulic cylinders between the first and second wheel units and the supporting frame and is configured to rotate the first and second wheel units around the first and second articulated joints (patent RU No. 2541392, publ. 02.10.2015).

To solve the problem of reducing traction resistance by copying the relief of the field surface in the transverse direction and ensuring an even depth of soil cultivation, the known device contains a trailed unit, relatively complex in design and kinematics, carrying a frame, first and second wheel units equipped with articulated joints for two directions of movement.

The closest technical solution to the proposed one is a device for connecting a tractor with a tillage implement, including a wheeled trolley of a longitudinal design with support wheels, means for coupling and adjusting the height of the tillage implement (patent RU No. 2532453, publ. 10.11.2014 - prototype).

A feature of the known device is that the front end of the longitudinal structure of the wheeled trolley contains a coupling head made with the possibility of connection with the tractor hitch, and the rear end of the longitudinal structure is made with the possibility of connection with a semi-mounted plow, and the plow contains a hinge of the cardan type with horizontal and vertical hinge axes , the trolley comprises a connecting structure connected by a front end to a longitudinal structure, and the rear end of the connecting structure is made with the ability to connect with one of the axles of the universal joint and with the ability to move in height using the control.

Known wheeled trolley is designed to connect a semi-mounted reversible plow with a tractor that does not contain a three-point coupling system that allows you to raise and lower the semi-mounted plow relative to the ground. Moreover, to ensure that in the known device for moving the plow parallel to the ground, it is necessary that the existing rods rotate together around their respective reference point, which implies the corresponding simultaneous action of both power cylinders in the extension direction and in the reduction direction.

The disadvantages of the known device include the relatively complex construction of the composite wheeled trolley with primary and secondary support wheels and means such as a cardan for adjusting the position of the tillage implement in height, as well as the difficulty of controlling and regulating the direction of the thrust when moving the semi-mounted reversible plow parallel to the ground while the existing power cylinders in different directions to rotate the respective rods together around its respective Porn point.

The objective of the utility model is to eliminate the aforementioned drawbacks and create a device that is simpler in design, reliable and not difficult to control in the form of a wheeled trolley for connecting the tractor with various types of tillage implements.

The technical result of the proposed utility model is to simplify the design and manufacturability of the device for connecting the tractor with a tillage implement, increase reliability, functionality and reduce the metal consumption of the device.

The specified technical result is achieved by the fact that in the device for connecting the tractor with a tillage implement, including a wheel trolley of a longitudinal construction with support wheels, means for coupling and adjusting the position of the tillage implement in height, according to a utility model, the wheeled trolley of a longitudinal construction contains a rectangular reinforced lifting frame and the main frame in the form of a longitudinal box-shaped rod with a transverse beam that rests on the axial assembly of the support wheels and has articulated with a lifting frame, a vertical bracket for swiveling with a turnbuckle adjustable in length is installed on the longitudinal rod, the free end of which and two coupling brackets on the lifting frame are made with the possibility of adjustable articulation with a tillage implement using a three-point coupling system, and the elements of the lifting and main frames are reinforced with Y-shaped stiffeners, and hydraulic power cylinders are placed along the sides of the lifting frame and pivotally with connected with it at one end, and the second end with protruding brackets above the transverse beam of the main frame with the possibility of rotation of the lifting frame at an angle in the range from -35 ° to + 20 ° relative to the horizontal plane.

In addition, the power elements and stiffeners of the main and lifting frames can be made mainly of rectangular pipes, the ratio of the lengths of these frames in the longitudinal direction can be in the range of 2.5-4.5, and the elongated part of the longitudinal rod of the main frame can be configured to adjust the distance from the axis of the support wheels to the coupling head when changing the type of tillage implement.

In addition, the power hydraulic cylinders of the device can be equipped with adjustable throttles and hydraulic locks for shock-free regulation of the speed of raising and lowering of the tillage implement.

This embodiment of the utility model ensures the achievement of the indicated technical result — a significant simplification of the design and manufacturability of the device due to a drastic reduction in the number of parts and assemblies, as well as welded and articulated joints, in comparison with known products of a similar purpose. Simplification of the design of the wheeled trolley is also associated with a decrease in metal consumption and the cost of the device. Pilot tests of the proposed device at the enterprises of NPO SUR LLC show its high efficiency, operability and reliability when used as a device for connecting a tractor with tillage implements, such as deep-rippers, plows, semi-mounted reversible plows, etc.

The indicated ratio of the length of the main and lifting frames in the longitudinal direction in the range of 2.5-4.5 and the possibility of turning the lifting frame by an angle in the range from - 35 ° to + 20 ° relative to the horizontal plane were found as a result of using the device for connecting tractors 2, 3 , 4 classes with various types of tillage tools. The characteristic implementation of such a device ultimately increases its functionality, making it possible to effectively regulate the depth of the soil layer processing, the uniform distribution of the load between the axle of the bogie and the tractor hitch under various conditions and with various tillage implements, eliminates cases of slipping of its wheels and facilitates the conditions for transporting the tillage implement.

The schematic drawing (Fig. 1) shows a General view of the device in conjunction with a tractor and tillage implement, in Fig. 2, 3 show side and top views of the proposed device, in FIG. 4 shows his photograph in conjunction with a PSKu-10 plow.

In accordance with the author’s intention, the device (Fig. 1, 2) for connecting the tractor 1 with a tillage implement 2 includes a wheeled trolley 3 of a longitudinal design with support wheels 4 and means for a three-point coupling system and adjusting the position of the tillage implement 2 in height. The wheeled trolley 3 of a longitudinal construction contains a rectangular reinforced lifting frame 5 and the main frame 6 in the form of a longitudinal box-shaped rod with a transverse beam, which rests on the axial assembly of the support wheels 4 and is articulated with a lifting frame 5. On the longitudinal rod of the main frame 6 a vertical bracket 7 is mounted for swiveling with a turnbuckle rod that is adjustable in length 8. The free end of the turnbuckle rod 8 and two coupling brackets on the lifting frame 5 are made with the possibility of articulating th connection with tillage implement 2 using a three-point coupling system. The lifting elements 5 and the main 6 frames are reinforced with Y-shaped stiffeners. Hydraulic power cylinders 9 are placed along the lateral sides of the lifting frame 5 and are pivotally connected to it by one end, and the second end - with protruding brackets 10 above the transverse beam of the main frame 6 with the possibility of rotation of the lifting frame 5 by an angle in the range from -35 ° to + 20 ° relative to the horizontal plane (in Fig. 1, the angle is about + 5 °).

In accordance with the technical solution adopted, the power elements of the main and lifting frames 6, 5 are made mainly of rectangular pipes, and the ratio of the lengths of the frames 6 and 5 in the longitudinal direction is about 3, which is in the specified range of 2.5-4.5 . The elongated portion 11 of the longitudinal rod of the main frame 6 is configured to adjust the distance from the axis of the support wheels 4 to the coupling head 12 when changing the type of tillage implement, for example, by using a telescopic connection or by using additional overhead elements with bolt fastening. In FIG. 1, 2 poses 13, hydraulic hoses of high pressure are indicated for connecting the control hydraulic system of the tractor 1 with hydraulic cylinders 9. At the same time, the power hydraulic cylinders 9 of the device are equipped with adjustable throttles and hydraulic locks (not shown) for shock-free regulation of the speed of raising and lowering of the tillage implement 2.

In a plan view (Fig. 3), the above-mentioned nodes and elements of the device are indicated in more detail. The main frame 6 is made in the form of a longitudinal box-section rod with a transverse beam 14, which is supported by the axial assembly 15 of the support wheels 4 and has hinges 16 with a lifting frame 5. A vertical bracket 7 is mounted on the longitudinal rod of the main frame 6 for swiveling in the assembly 17 with a turnbuckle thrust adjustable in length 8. The free end of the turnbuckle thrust 8 and two coupling brackets 18 on the lifting frame 5, as indicated, are made with the possibility of adjustable articulation with a tillage implement 2 in three-point Second scheme. Elements of the lifting frame 5 and the main frame 6 are reinforced with Y-shaped stiffening ribs 19, 20. The hydraulic power cylinders 9 are placed along the sides of the lifting frame 5 and pivotally connected to the nodes 21 at one end, and the second end to the protruding brackets 10 with nodes 16 above the transverse beam 14 of the main frame 6.

A device for connecting a tractor to a tillage implement operates as follows.

In the exemplary embodiment shown in FIG. 1, 4 tillage implement 2 is a semi-mounted plow PSKu-10, developed by OOO NPO “SUR” and containing in this case ten plow bodies to ensure the widest plowing width. Before starting work, adjust the proposed device. To do this, the mounted tillage implement 2 is mounted on a horizontal platform and the length of the upper link of the turnbuckle 8 and the adjustable rods of the hydraulic cylinders 9 are adjusted so that the two free ends of the lifting frame 5 equipped with adjustable width brackets 18 coincide with the lower points of the three-point hitching system of the tillage implement 2 and the necessary position of the working bodies in accordance with the specified agrotechnical requirements.

When the device 3 moves along the surface of the field to be treated, the horizontal and vertical components of the traction force of the tractor 1 ensure optimal loading of the tractor engine. The described design of the main and lifting frames 6, 5 and the system of adjustable hydraulic cylinders 9 set a stable position for the tillage implement 2 and its support wheels in working condition. At a given depth of soil treatment, the device 3 provides a reduction in dynamic loads on the tractor 1 and adjusts the direction of the traction force depending on the topography of the field. The proposed device 3 for connecting the tractor 1 with a tillage implement 2 can be used both for transportation and for the operation of a semi-mounted plow and other tillage implements. Raising and lowering the installed tillage implement 2 is carried out using the control means of the hydraulic cylinders 9. To prevent spontaneous lowering of the mounted unit during transportation and in operation on the hydraulic cylinders 9, hydraulic locks are installed. To avoid sharp blows when raising and lowering the mounted implement and to regulate the speed of raising and lowering the frame 5, adjustable throttles are installed in the hydraulic system of tractor 1, and high pressure hoses 13 can be equipped with standard quick-disconnect fittings (not shown).

The constructive implementation in this way of the main and lifting frames 6, 5 and the system of hydraulic cylinders 9 with lanyard 8 provide in the proposed device a uniform distribution of loads that occur during operation between the axis of the trolley of the device 3 and the coupling device of the tractor 1, and eliminates its outweighing by the mounted unit 2 in the process transportation.

The device for connecting the tractor with a tillage implement is adapted to various models of mounted tillage implements for use by tractors of domestic and foreign production, such as Kirovets, DT, MTZ, Case, John Deere, Claas and others more than 150 hp that are not equipped with a rear three-point attachment. The device has a fairly compact size and relatively low weight, which reduces the tractor's additional power and saves fuel consumption. Thanks to the hydraulic control of the device, the tillage unit easily overcomes complex soil relief and provides high-quality plowing, allowing you to quickly transfer agricultural equipment from the operating mode to the transport position.

As a result, the proposed implementation of the utility model allows to increase the operational, economic and technological performance of the device for connecting the tractor with a tillage implement and to achieve a technical result - simplification of the design, reduction of metal consumption and increase of manufacturability of manufacturing of this device in comparison with well-known agricultural products of a similar purpose. The production tests of the PSK and PSKu series multi-body plows and the proposed device when aggregated with tractors of 2, 3, 4 classes that do not have three-point couplings, with tillage implements for various purposes also confirm the achievement of the mentioned technical result carried out in recent years at LLC NPO SUR. It should be noted here that the proposed device was developed by the applicant and manufactured on the production base of NPO SUR LLC, while the device received the technical name "Transitional hydraulic trolley TPG VOLGA - 6000".

As a result of the implementation of the proposed device, the cost of processing agricultural land is further reduced and labor productivity is increased at lower operating costs. The production of such devices for connecting tractors with tillage implements can be established in the conditions of ordinary enterprises for the production of agricultural machinery.

Claims (3)

1. A device for connecting a tractor to a tillage implement, including a wheel trolley of a longitudinal design with support wheels, means for coupling and adjusting the position of the tillage implement in height, characterized in that the wheel trolley of a longitudinal design contains a rectangular reinforced lifting frame and a main frame in the form of a longitudinal box-shaped rod with a transverse beam, which rests on the axial assembly of the support wheels and has a hinge connection with a lifting frame, on a longitudinal head a vertical bracket for swiveling with a turnbuckle adjustable in length was installed, the free end of which and two coupling brackets on the lifting frame are made with the possibility of adjustable articulation with a tillage implement using a three-point coupling system, and the elements of the lifting and main frames are reinforced with Y-shaped ribs stiffness, and hydraulic power cylinders are placed along the sides of the lifting frame and are pivotally connected to it by one end, and the second end - with protruding and brackets on the main frame transverse beam pivotally lifting frame at an angle in the range of -35 ° to + 20 ° relative to the horizontal plane. 2. The device according to p. 1, characterized in that the power elements and stiffeners of the main and lifting frames are mainly made of rectangular pipes, the ratio of the length of these frames in the longitudinal direction is in the range of 2.5-4.5, and elongated part of the longitudinal rod of the main frame is made with the possibility of adjusting the distance from the axis of the support wheels to the coupling head when changing the type of tillage implement. 3. The device according to claim 1, characterized in that the hydraulic power cylinders of the device are equipped with adjustable throttles and hydraulic locks for shock-free regulation of the rate of raising and lowering of the tillage implement.

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