RU29438U1 - Forage harvester - Google Patents

Description

. Forage harvester. The utility model relates to agricultural machinery, in particular, to the production of fodder harvesting equipment, and can be widely used to equip forage harvesters designed for harvesting stem crops such as corn, sunflower, sugarcane, etc. Known corn harvester containing brook reaper, equipped with guide capes, rotary gun cutting device with rigidly fixed cutting elements, which are two discs rotating in a horizontal plane and mounted on vertical rollers at the level of the cut height of the plants, each of which has six one-sided segments having an edge on only one side and cutting along with a proto-cutting plate, as well as a containing stem-raising mechanism, in the form of a chain floor brazed feeding devices, during the movement of which the legs of one branch enter the inter-web spaces of the other branch. located in the same plane on both sides of the channel (see book. N. E. Reznik "Forage harvesters. Moscow, publishing house" Engineering, 1980, pp. 99,141-145). Despite the fact that this device provides a clean and even cut, has a fairly high reliability, exceptional simplicity in terms of drive kinematics, this forage harvester is not universal and is intended mainly for mowing thick-stemmed crops. Using it for mowing thin-stalked crops leads to an increase in stubble and, consequently, to the loss of green mass. Known corn harvester, selected as the closest analogue, containing a single or multi-row header, equipped with guiding capes, a disk cutting device in the form of two mutually overlapping disks, with counter-rotating, in the horizontal plane, rotation, stem-feeding mechanism, consisting of two circuit loops with paws located in the same plane on both sides of the stream (see the book. "Forage harvesters. Moscow, publishing house" Engineering, 1981, p. 9). Discs Used in a Famous Cutting Machine

equipped with blades located around the circumference of the discs. At the same time, each of the disks simultaneously plays the role of a cutting and anti-cutting elements.

In a known design, the stem-feeding mechanism consists of cape and feed chains.

Cape chains take uncut stalks of corn from the capes and move them to the supply chains of the channel, which take plants from the Cape chains, pinch them by the butt and bring the plants to the cutting apparatus.

This design of the cutting apparatus is capable of working at high speed, which is achieved by a boosting mechanism.

Cutting is carried out by sawing, according to the principle of a circular saw.

To narrow the flow of cut stems in a known design provides a narrowing screw.

The presence of cape chains, raising mechanisms and a narrowing screw significantly complicates the design of the known device and, as a result, reduces its reliability.

-3which this utility model is aimed at, is to simplify the design of the corn harvester and increase its reliability. The specified technical result is achieved by the fact that in the known forage harvester containing a single or multi-row header equipped with guide capes, a disk cutting apparatus in the form of two-sided mutually overlapping disks having counter rotation in the horizontal plane, a stem-feeding mechanism consisting of two circuits chains with paws located in the same plane on both sides of each stream, according to a utility model, the cutting apparatus disks are made in the form of polygonal stars, The chains of at least two external streams of the stem-feeding mechanism are installed with the possibility of narrowing the flow of cut stems transported by them towards the neck of the grinding apparatus and are made in the form of links-paws, during the movement of which the legs of one branch enter the inter-web spaces of the other branch with the possibility of placement in the interval between cut stems, the cutting apparatus is located at the entrance to the stream, and the rotation mechanism of the stem-feeding mechanism is the drive for -4 cutting apparatus. The implementation of the disks of the cutting apparatus in the form of polygonal stars, the location of the cutting apparatus at the entrance to the channel and the installation of at least two external circuits of the stem-feeding mechanism with the possibility of narrowing the truncated trunks of the cut stems that they export towards the neck of the grinding apparatus allows to exclude from the design additional complicating structural elements, Tavsie as exciting cape chains and their drive mechanisms, as well as a narrowing auger. The supply of stems in the inventive forage harvester is carried out by the movement of the harvester. And the narrowing of the flow of cut stems to the neck of the chopping apparatus is done by chains of the stem-feeding mechanism. In addition, the cutting process in the claimed design is based on the principle of “scissors, which does not require high speeds of rotation of the disks and, as a result, does not require the presence of additional povyppa mechanisms. The sharpening of the edges of the disks of the cutting apparatus along the entire contour allows, if necessary, to rearrange the disks, changing their places, which greatly simplifies the maintenance of the device. -5

The implementation of the chains of the stem-feeding mechanism in the form of links-paws, during the movement of which the paws of one branch enter the inter-web spaces of the other branch with the possibility of placing cut stems between them, provides a high and reliable supply of cut stems to the neck of the combine at a speed significantly exceeding the speed of movement of the combine, moreover, without congestion and clogging, in addition, such an implementation of the stem-feeding mechanism provides a good orientation of the stems fed into the neck of the combine. The use of a rotation drive of the stem-feeding mechanism as a drive for the cutting apparatus further simplifies the design of the inventive device and, as a result, increases its reliability. In addition, such a constructive implementation of the stem-feeding mechanism ensures reliable uniform supply of cut stems to the neck of the combine, without clogging or clogging. The inventive device is illustrated by drawings. FIG. 1 is a diagram of a trailed corn harvester; figure 2 is a top view separately on the working body

crop header (with the lining of the working channels removed); in Fig. 3 is a bottom view separately of the working body - the corn header, the Corn harvester contains a chopper 1, a silo 2 mounted on the chassis equipped with pneumatic wheels 3, the bale 4, as well as a mounted working body - a corn-cutter. The three-strand corn header is equipped with guide capes 5, a disk cutting device in the form of two mutually reefing ones having oncoming, carried out in the horizontal plane, rotation of octagonal sprockets 6 and 7 located in each brook 8 of the header, a stem-feeding mechanism, consisting of two contours of chains 9 with tabs 10 (links-paws) located in the same plane on both sides of each stream 8. The paws 10 of one branch of the chain 9 are in the inter-web spaces of the other branch of the chain 9 with a gap 11, which makes it possible the fact of placing cut stems in them. Chains 9 of stem-feeding mechanisms of each of the streams 8 are installed in them with the possibility of narrowing the streams of cut stems transported by them in the direction of the neck 12 -7 of the neck 12 of the grinding apparatus 1. The octagonal sprockets 6 and 7 of the cutting apparatus are located at the entrance to the stream 8. The guide capes 5 represent a multifaceted welded structurally, In plan and in profile, the faces of capes 5 form a triangle directed by an acute angle in the direction of movement of the corn harvester. The chain 9 of the stem-feeding mechanism is worn on the buzzwheel sprocket 13, the driven sprocket 14, the guide sprocket 15 and the tension sprocket 16. The axis 17 of the driven sprocket 14 is the axis of rotation of the octagonal sprocket 6 (7) of the disk cutting apparatus. The drive sprocket 13 is located on the rear side of the frame (not indicated) of the kukffuzooborny harvester. The driven sprocket 14, the guide 15 and the tensioner 16 sprockets are located respectively on the base 18 and plate 19 of the combine frame. The inventive corn harvester operates as follows. When moving the corn harvester along the rows of corn stalks, the movement of the combine is directed to the working channels 8 and fed into the cutting zone. In the cutting zone, due to -8 oncoming, carried out in the horizontal plane, rotation of two mutually overlapping disks in the form of octagonal stars 6 and 7, the stem is cut. Cut corn stalks from the cutting zone are sent to the stem-feeding mechanism, in which they are captured by the tabs 9, are located in the gaps 11 between the tabs 9 of the chains 10 and between the chains 10 and are moved to the neck 12 of the chopping apparatus 1. Chains 8 of the stem-feeding mechanism narrow the transported stream of cut stems according to the alphabet to the neck 12 of the chopping unit 1. The narrowed stream of cut stems is fed into the neck 12 of the chopping 1, where it is chopped and fed by a silo 2 to the conveying means in (not indicated). The movement of the stem-feeding mechanism and the rotation of the cutting apparatus is carried out from the tractor drive through a system of cardan shafts and chain gears (not shown) to the conical sprockets 20 of the header shaft (not indicated). From the conical sprockets 20, the rotation is transmitted to the leading sprockets 13 of the stem-feeding mechanism and through the chains 10 to the driven sprockets 14, from where the rotation is communicated to the octagonal sprockets 6 (7) of the disk cutting apparatus through the axis 17. -9 In this case, the mechanism of sprockets 6 and 7.

transmission provides counter-rotation -10t

Claims (1)

A forage harvester containing a single or multi-row header, equipped with guide capes, a disk cutting device in the form of two mutually overlapping disks, with a counter-rotating, in the horizontal plane rotation, a stem-feeding mechanism, consisting of two circuits of chains with tabs located in the same plane on both the sides of each stream, characterized in that the disks of the cutting apparatus are made in the form of polygonal sprockets, the edges of which are sharpened along the entire contour, chains of at least two outer streams of the stem-feeding mechanism are installed with the possibility of narrowing the streams transported by them, cut stems in the direction of the neck of the grinding apparatus and are made in the form of links-paws, during the movement of which the legs of one branch enter the inter-web spaces of the other branch with the possibility of placing cut stems between them the apparatus is located at the entrance to the stream, and the rotation mechanism of the stem-feeding mechanism is the drive for the cutting apparatus.