TR2023016591U2 - Rotor for agricultural biomass cutting machine. - Google Patents

Abstract

The invention refers to agricultural machines for cutting and shredding biomass and which can be used especially in horticultural application. A rotor for an agricultural biomass cutting machine with radial hammers on its surface, wherein said rotor is constructed as separate sections mounted for rotation and interconnected by means of adapters containing movable couplings. The technical result of the invention consists in reducing the rotor weight and making rotor balancing easier.

Description

DESCRIPTION ROTOR FOR AGRICULTURAL BIOMASS CUTTING MACHINE FIELD OF THE INVENTION The invention refers to agricultural machines for cutting and chopping biomass and can be used in particular in horticultural applications. BACKGROUND OF THE INVENTION Various agricultural chopper designs are currently known, in which the operating elements are mounted on a rotating horizontal shaft and are arranged perpendicular to the direction of movement. Radial hammers with cutting edges are used as cutting and breaking operating tools. For example, in the patent EP3515165 for a cutting tool for cultivating and breaking soil, the cutting tools are mounted in sockets for tool mounting and inserted into the machine rotor. The design of the chopping-cutting machine described in October 2020) represents the closest similar solution. A rotor with holders for a set of cutting and chopping tools of the machine is mounted on a frame so that the possibility of rotation is provided. Vibrations due to imbalance resulting from the operation of solid tools mounted on the rotor represent one of the problems in the manufacture of shredding machines with rotors equipped with chopping and cutting tools. To eliminate this drawback, engineers must increase the weight of the rotor shaft and perform high-precision balancing of the rotor with mounted tools. SUMMARY OF THE INVENTION The technical result achieved by the present invention is to reduce the rotor weight and facilitate the rotor balancing process. A rotor for an agricultural biomass cutting machine with radial hammers on its surface, wherein said rotor is constructed as separate sections mounted for rotation and interconnected by means of adapters comprising movable couplings. The technical result mentioned above is achieved due to the separation of the rotor into sections that are connected to each other by means of moving couplings. In this case, the rotor sections can be made as lower weight sections. The vibrations occurring in each section are transmitted to the adjacent section due to the use of moving coupling to transmit the rotation to each other. Even though some of the energy of these vibrations is transmitted, the vibrations are partially compensated during the composition of the vibrations. In particular, when the rotor is mounted inside a housing, the rotor sections are rotatably fixed in compartments rigidly fixed to the inner surface of the housing. Furthermore, said rotor sections are fixed to said sections by means of bearing assemblies. Furthermore, said rotor sections are made hollow and have adapters mounted inside the rotor sections to connect said rotor sections. In addition, the rotor sections are made of individual plates that are rigidly fixed together. Due to the fastening of the rotor sections in the form of partitions on the inner surface of the housing using adapters, the rotor as a whole is fixed at several points, which contributes to the attenuation of vibrations of the rotor sections and reduces the weight of the rotor. Additionally, the size reduction process has been improved as each episode takes place in a separate location. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a general cross-sectional view of the agricultural machine for cutting biomass. Figure 2 shows one option of radial hammer configuration. Figure 3 shows a general cross-sectional view of the agricultural machine for cutting biomass with hollow rotor sections. Figure 4 shows a design of two rotor sections mounted in housing baffles. Figure 5 shows an adapter design with a movable coupling. Figure 6 shows the option of fixing an adapter in the compartment. DETAILED DESCRIPTION OF THE ARRANGEMENTS The rotor (1) of the agricultural biomass cutting machine (Figure 1) is made of separate sections (2) connected to each other by means of movable couplings (3). Rotor sections (2) can be made as monolithic shafts (Figure 1) or lightweight structures (Figure 3 - Figure 4). The radial hammers (6) (Figure 1) are shown in only one section (2) of the rotor (1), the second on the right. The ends of the sections (2) of the rotor (1) are mounted so that they can rotate in the sections (5) fixed to the housing (4) of the agricultural machine. The rotation in question is provided by the bearing assemblies (16) fixed to the partitions (5) (Figure 1, Figure 3, Figure 4). The end sections (2) of the rotor (1) are mounted on bearing assemblies (16) mounted on the ends of the housing (4). The inlet section (2) of the rotor (1) is fixed to the pulley (10) of the belt transmission (9) from the electric motor (8) of the agricultural machine. Movable couplings 3 may be constructed as one of several types of couplings, for example as a cam coupling, as a hinge, or as some other type of rotation-transmitting connection. Figures 5 and 6 present an example arrangement of the movable coupling (3) in the form of a simple clutch coupling. Figure 2 shows a view of the radial hammer (6) with the cutting edge (7). Each of the sections (2) of the rotor (1) can be made hollow, and in this case, the adapter (11) is mounted inside the section (2) of the rotor (1) (Figure 3 - Figure 4). The hollow sections (2) of the rotor (1) can be made cylindrical or made of separate plates (15) securely fixed together. By the use of plates (15), it is possible to make the section (2) of the rotor (1) of any shape - for example, box-shaped (as shown in the Figures) or polygonal. Making the sections (2) of the rotor (1) hollow further reduces the total weight of the rotor (1). Adapters 11 contain movable couplings in the form of a cam clutch (12) that transmit rotation from one part (2) of the rotor (1) to the other (Figure 5, Figure 6). The fastening elements (13), on which the radial hammers (6) are fixed, are mounted on the surface of the sections (2) of the rotor (1). Figure 4 shows the fixing elements (13) welded to the surface of the section (2) of the rotor (1) to which the radial hammers (6) are fixed by means of the bolt connection (14). The rotor (1) of the agricultural machine works as follows (Figure 1 - Figure 6). The rotation torque is transmitted from the electric motor (8) to the pulley (10) mounted on the rotor (1) via belt transmission (9). The first part (2) of the rotor (1) starts to rotate. The rotation from the first section (2) of the rotor (1) is transmitted to the next section (2) of the rotor (1) through the movable couplings (3) of the adapters (11). Radial hammers (6) mounted on sections (2) of the rotor (1) also rotate and cut a biomass. In this process, the vibration occurring during the operation of each section (2) of the rotor (1) is practically NOT transmitted to the next section (2) of the rotor (1). At the same time, the cut and shredded biomass does not go beyond the compartments (5) of the housing (4), which ensures a lower degree of aggregation of the biomass exiting the machine. INDUSTRIAL APPLICABILITY The proposed rotor design is primarily designed for cutting and shredding biomass and can be used in horticultural applications, especially for agricultural intermediate tillage machines. This rotor design can also be used in stationary biomass cutting machines. TR

Claims (1)

1.STEMS . A rotor for an agricultural biomass cutting machine with radial hammers on its surface, wherein said rotor is constructed as individual sections mounted for rotation and interconnected by movable couplings. . The rotor according to claim 1, wherein said rotor is mounted within a housing while portions of the rotor are rotatably fixed within partitions rigidly fixed to the interior surface of the housing. . The rotor according to claim 1, wherein said rotor sections are fixed to said sections by means of bearing assemblies. . The rotor according to claim 1, wherein said rotor sections are hollow and have adapters mounted inside the rotor sections to connect said rotor sections. . The rotor according to claim 1, wherein the rotor sections are made of individual plates rigidly fixed together. TR