ATTACHMENT SYSTEM FOR AGRICULTURAL EQUIPMENT

Abstract

The invention relates to lifting and adjusting devices for agricultural equipment. The attachment system includes a mounting frame with fastening means for its attachment to the vehicle, and an implement bearing frame capable of vertical movement relative to the mounting frame under the action of lifting devices fixed on the sides of the mounting frame; and a framework located in front of the agricultural implement for installing at least one safety device. By all the design features of the invention, the attachment system enhances the operational efficiency of agricultural equipment by reducing the probability of its damage at obstacle collision, improving operator safety, and preserving the environment.

Claims

1. An attachment system for agricultural equipment including a mounting frame with fastening means for its attachment to the vehicle, and an implement bearing frame capable of vertical movement relative to the mounting frame under the action of lifting devices fixed on the sides of the mounting frame; and a framework located in front of the agricultural implement for installing at least one safety device.

2. The attachment system as per claim 1, wherein the mounting frame is equipped with electric connectors for supplying power from the vehicle to lifting devices and agricultural implements.

3. The attachment system as per claim 1, wherein the supporting framework is fixed on the implement bearing frame.

4. The attachment system as per claim 1, wherein a safety device is installed on the supporting framework.

5. The attachment system as per claim 1, wherein safety sensors are installed on the supporting framework.

6. The attachment system as per claim 1, wherein the implement bearing frame additionally contains two levers turnable in the vertical plane with the ends of said levers pivotally connected to a horizontal beam, which is connected to the support framework of an agricultural implement by means of a damper.

7. The attachment system as per claims 1 and 6, wherein the implement bearing frame further comprises a cable system configured to lift and lower the rear part of the supporting framework of the agricultural implement.

8. The attachment system as per claim 1, wherein the supporting framework additionally contains a hinge element enabling the rotation of agricultural implement in the vertical plane when an obstacle is encountered.

9. The attachment system as per claims 1 and 8, wherein the hinge element is connected through a cable with tension spring dampers installed vertically on the implement bearing frame.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 shows a view of the attached system in operating position.

[0020] FIG. 2 shows a view of the attachment system in traveling condition.

[0021] FIG. 3 shows a view of the attachment system installed at the front end of a vehicle.

[0022] FIG. 4 shows a design of a cable system for lifting and lowering the rear part of agricultural implement support framework.

[0023] FIG. 5 shows a pivotal device for supporting agricultural implements mounted at the front end of a vehicle.

[0024] FIG. 6 shows a kinematic diagram of the pivotal device from FIG. 5.

[0025] FIG. 7 shows a view of the implement attachment system installed at the rear end of an agricultural vehicle.

[0026] FIG. 8 shows an embodiment of a motion control system for implement bearing frame.

[0027] FIG. 9 shows a view of the attachment system with a rotary tiller in operating position.

[0028] FIG. 10 shows a view of the attachment system with a rotary tiller encountering an obstacle.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

EMBODIMENTS OF THE INVENTION

[0029] The attachment system for agricultural equipment includes (FIG. 1-FIG. 2) mounting frame 1 attached to a vehicle at its front and/or rear end. Mounting frame 1 includes two vertical supports 5, horizontal support 6 and mounting plate 7 featuring elements for fastening to a vehicle. In the embodiment shown in FIG. 2, the above-mentioned fastening elements are made in the form of holes 8 (vehicle is not shown in the Figure). Lifting devices 3 are installed on vertical supports 5 of mounting frame 1 for lifting and lowering implement bearing frame 2. This embodiment features electric lifting devices 3 powered from the vehicle. Implement bearing frame 2 can move up and down along rolling or sliding elements of vertical supports 5 under the action of lifting devices 3 driven either electrically or hydraulically. The attachment system also contains framework 4 with pads 9 located in front of the agricultural implement and used for installing at least one safety device. In the present embodiment, framework 4 is fixed to implement bearing frame 2. Pads 9 of framework 4 can accommodate safety devices actuated upon contact with an obstacle, or non-contact safety sensors that warn of obstacles. Different collision protection systems can be simultaneously used to provide safety of agricultural implements, personnel, and environment.

[0030] The mounting frame also features electric connectors for supplying lifting devices 3 and agricultural implements with power from the vehicle.

[0031] FIG. 8 shows an embodiment featuring sliding elements 26 of vertical supports 5 for lifting and lowering implement bearing frame 2 by means of lifting devices 3 comprising a linear electric drive with electric motor 23 and rod 24.

[0032] The application of agricultural equipment attachment system is demonstrated by two examples: with agricultural implements installed at the front end of a vehicle (FIG. 3-FIG. 6) and with the implements located at its rear end (FIG. 7-FIG. 10). The difference between the two applications is, mainly, as follows: for agricultural implements located at the front end of a vehicle the mounting system acts predominantly as a push-type system, while for agricultural implements located at vehicle rear end predominantly as a pull-type system.

[0033] FIG. 3 shows an example of how a mower attachment system located at vehicle front end operates.

[0034] Damping device 10 is installed on implement bearing frame 2 to maintain the mower in required position relative to soil surface. The main elements of damping device 10 are shown in FIG. 5. Damping device 10 includes two levers 11 mounted on axis 12 and capable of turning in the vertical plane. The ends of levers 11 are connected by means of hinges 13 to horizontal beam 14, which is attached to support framework 15 of the mower (FIG. 3) through an additional damper (not shown). The kinematic diagram of damping device 10 is shown in FIG. 6. Furthermore, the matching of mower movement to soil relief is assisted by dollies 16 located on both sides of the mower and fixed on its support framework 15. The supporting, lifting and lowering of the rear part of framework 15 of the mower is achieved through the use of cable system 17 mounted on implement bearing frame 2 (FIG. 3-FIG. 4).

[0035] FIG. 7 shows an example of how the agricultural implement attachment system is used when installed at the rear end of a vehicle. Herein, hinge element 18 installed on axis 19 of implement bearing frame 2 enables the rotation of the agricultural implement in the vertical plane when an obstacle is encountered. In FIG. 7, hinge element 18 has rod 20 fixed thereon, which enables the movement of agricultural implements in transverse direction. FIG. 9 and FIG. 10, show an example of how rotary tiller 21 can be attached.

[0036] Hinge element 18 is connected by cable 25 with tension spring dampers 22 mounted vertically on implement bearing frame 2.

[0037] The attachment system for agricultural equipment operates as follows:

[0038] The system is attached to a vehicle by means of fastening elements made on plate 7 of mounting frame 1. When traveling on the vehicle, the attachment system has its implement bearing frame 2 hoisted together with the attached agricultural equipment. With the start of operation, implement bearing frame 2 is lowered to operational position (FIG. 1) by synchronous action of lifting devices 3. Lifting devices 3 are also used to adjust the position of agricultural implements over the soil surface. When the vehicle moves, supporting framework 4 with pads 9 carrying a safety device and/or safety sensors precedes the agricultural equipment. Thus, the operational efficiency of the agricultural equipment is enhanced by reducing the frequency of breakdowns and improving human safety in the operational area.

[0039] The attachment system can be used for agricultural equipment installed at the front and/or rear end of a vehicle. In the first case, damping device 10 mounted on implement bearing frame 2 is used to maintain the equipment in required position relative to soil surface.

[0040] In the second case, hinge element 18 is used to permit turning of agricultural equipment in the vertical plane if an obstacle is encountered. In FIG. 9 and FIG. 10, rotor 26 of tiller 21 moves below soil surface 27 in the direction of the arrow. When it encounters obstacle 28 (FIG. 10), rotor 26 together with hinge element 18 deflects, but after the obstacle is passed spring dampers 22 through cable 25 return it to the previous position.

[0041] Other systems for installing agricultural equipment on implement bearing frame 2 can also be used.

INDUSTRIAL APPLICABILITY

[0042] The attachment system for agricultural equipment is intended primarily for use on multi-purpose vehicles configured for attaching agricultural implements at the front and/or rear end of a vehicle. The system enhances the operational efficiency of various agricultural implements by providing their accurate matching to soil relief, thus reducing the possibility of implement breakdown, in general, and damage to the mounting system, in particular. The system is the most efficient when operating on electricity, since electrical equipment features a higher response speed than hydraulic one.