RU2176859C2 - Basic tillage unit - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: basic tillage unit has section with active working tools and subsurface rippers. At least one additional module with similar working tools and subsurface rippers is connected to basic tillage unit through compensating device. Such construction allows known basic tillage apparatus for different pulling-type power units to be unified and width of unit to be changed by connecting or disconnecting additional module (modules) during basic tillage process depending on working conditions. EFFECT: wider operational capabilities and simplified construction. 6 cl, 2 dwg

Description

 The invention relates to agriculture, in particular to devices for primary tillage.

 A device for primary tillage is known, comprising a frame with a support wheel mounted on it, a section with active working bodies, subsoil cultivators, bevel and drive gears connected by a telescopic cardan transmission (RF Patent, N 2137329. Bull. N 26 from 20.09 .99).

 The main disadvantage of this device is the need to produce a design series of these devices with a different number of working bodies for existing classes of energy means and the inability to quickly change the width of the cultivated area depending on the physicomechanical properties of soils and parameters of energy means.

 The elimination of these drawbacks is achieved by the fact that in the claimed technical solution containing a frame with a supporting wheel mounted on it, a section with active working bodies, cultivators of the subsoil layer, bevel and drive gearboxes connected by a telescopic cardan drive, coaxially to the frame and section of the working bodies connected with the possibility of rotation relative to the upper edge of the frame, at least one additional module, including a frame with a mounted section of the working bodies and rippers subsoil, wherein the basic and additional shafts sections working bodies are interconnected via a compensation device for a shaft coupling only in the operating position. A drive for transferring an additional module from the working position to the transport one and vice versa is installed on the frame of the main device. More than one additional module can be connected to the device, moreover, on the frame of each additional module, except the last one, a drive is installed to transfer subsequent modules from the working position to the transport one, and vice versa, and the frames of adjacent modules are pivotally connected. The translation drive can only be installed on the frame of the main device and connected with the frame of the last module, and the translation of the modules into the working position is carried out sequentially from the main device only after the translation of the previous module is complete and its fixation in the working position, and the translation is carried out in the reverse position okay. The frames of the additional modules are equipped with a clamp for the working and transport position.

 The claimed technical solution differs from the prototype by the implementation of the frame and section of the working bodies with coaxial connection with the possibility of rotation relative to the upper edge of the frame of at least one additional module, including a frame with a mounted section of the working bodies and cultivators of the subsoil layer, while the shafts of the sections the working bodies of the main and additional (s) modules are interconnected via a compensation device for connecting shafts only in the working position. In addition, the translation drive may perform an inherent function of a power loader. The combination of distinctive design features allows you to unify the known device for basic tillage for various traction classes of energy and provides the ability to vary the width of the device by turning on or off the additional module in the tillage depending on the working conditions. These same features distinguish the claimed technical solution from the known in the prior art solutions that we discovered in the search process.

 In FIG. 1 shows the inventive device for primary tillage with additional modules; in FIG. 2 - the same, with one drive mounted on the frame of the main device.

 The inventive device includes a frame 1, on which are installed: at an angle to the direction of movement, a section with active working bodies 2 in the form of continuous spherical disks or a set of sectors; supporting wheel 3, cultivators of the subsurface layer 4, mounted behind the section of active working bodies 2, while behind each active working body 2 there is a cultivator 4 (the number of cultivators 4 is equal to the number of active working bodies 2); and drive of working bodies. The drive is made in the form of a bevel gear 5 mounted on the frame 1, the output shaft 6 of which is connected through a safety clutch 7 to the shaft 8 of the section of active working bodies 2, and the input shaft 9 is connected to the drive gear 11, coupled with an energy tool, through a cardan telescopic gear 10 (not shown) and associated with the PTO. The drive gearbox 11 is configured to set the nominal value of the rotational speed of the section of active working bodies and with the ability to automatically control the frequency depending on the speed of the energy tool. On the frame 1 of the main device and the frame 12 of the additional module, a drive 13 for transferring the module from the transport position to the working one is installed. Frames 1 and 12 and subsequent modules are interconnected via hinges 14. A shaft 8 and shafts 15 of additional modules are connected through compensation devices 16.

 The device operates as follows. In the process of aggregating the device with an energy tool, the nominal speed of the active working bodies 2 is set by adjusting the gearbox 11 corresponding to a particular type of soil. In the operating position, the torque from the output shaft of the gearbox 11 through the cardan telescopic transmission 10, the bevel gear 5 and the coupling 7 is transmitted to the shaft 8 of the section of the active working bodies 2 and then through the compensation devices 16 to the shafts 15 of the additional modules. The working bodies 2 carry out operations of cutting, wrapping and crumbling the soil layer. Until the completion of the formation wrapping operation, the subsoil layer is loosened by rippers 4, which follow the disk working bodies 2. When the speed of the energy means changes, the frequency of rotation of the active working bodies 2 changes, which allows to keep the intensity of their effects on the soil constant and provide the best agrotechnical requirements.

 In the transport position, the additional module is translated by the drive 13 by rotating the frame 12 relative to the hinges 14 in the vertical plane, while the lifting of the modules starts from the latter until it is fully fixed, and then subsequent. In the working position, the modules are transferred in the reverse order.

 The claimed technical solution allows to unify the known device for basic tillage for various traction classes of energy and provides the ability to vary the width of the device by turning on or off the additional module (s) in the soil processing depending on the working conditions.

 The device for the main tillage is made of standard materials using standard products and can be implemented on standard equipment.

Claims (6)

 1. A device for primary tillage, containing a frame with a supporting wheel mounted on it, a section with active working bodies, cultivators of the subsoil layer, bevel and drive gears connected by a telescopic cardan drive, characterized in that to the frame and section of the working bodies, at least one additional module including a frame with a section of working bodies and subsoil cultivators mounted on it coaxially connected with the possibility of rotation relative to the upper edge of the frame, etc. this working parts shafts sections of the main and additional modules are interconnected via a compensation device for a shaft coupling only in the operating position.  2. The device according to claim 1, characterized in that the drive of the transfer of the additional module from the working position to transport and vice versa is installed on the frame of the main device.  3. The device according to claim 1, characterized in that the device has several additional modules located in series.  4. The device according to any one of claims 1 to 3, characterized in that on the frame of each additional module, except the last one, a drive is installed to transfer the additional module and subsequent modules from the working position to the transport one and vice versa, and the frames of adjacent modules are pivotally connected.  5. The device according to any one of claims 1 to 3, characterized in that the translation drive mounted on the frame of the main device is connected to the frame of the last additional module.  6. The device according to any one of claims 1 to 4, characterized in that the frame of each additional module is equipped with a lock working and transport position.

Images