MD964Z - Vegetal biomass and/or cereal grain chopper - Google Patents

Abstract

The invention relates to the biomass and/or cereal grain processing equipment and can be used in zootechny for chopping vegetal biomass and/or cereal grain used in the production of combined feeds.The vegetal biomass and/or cereal grain chopper comprises a main frame (1), on which is mounted a drum (2) with a cover (20), connected to a tunnel, in which is mounted a vegetal biomass pressing and pushing mechanism (33), formed by a toothed roller (37). On the frame (1) are mounted an infeed conveyor (3) and a countercut (46). In the drum (2) on axles (5, 8, 9) are mounted a large rotor (4), consisting of discs with pins and hammers (12), and two small rotors (6, 7), consisting of discs with knives (14). To the drum (2) is attached a sieve with two toothed plates (18, 19), and in its lower part is made a chopped biomass and/or cereal grain outlet hole (29). On one end of the axle (5) is fixed a fan, and on the other - a driving wheel. To the cover (20) is attached a removable toothed plate, and above it is mounted a hopper (24) for cereal grain.

Description

The invention relates to biomass and/or cereal processing equipment and can be used in animal husbandry for chopping vegetable biomass and/or cereals used in the production of compound feed.

A vegetable biomass shredder is known, intended for shredding straw bales including those with high humidity, as well as for shredding corn, sunflower, Jerusalem artichoke stalks, etc., which contains a main frame, on which a drum is mounted and a feed conveyor with a frame. A large rotor and two small rotors on shafts are installed in the drum. The rotors consist of discs, installed on their shafts, with knives being radially fixed on the discs. In front of the small rotors there is a tunnel, in which a mechanism for pressing and pushing the vegetable biomass towards the small rotors is mounted, with a roller, located on the levers, fixed to the side walls of the tunnel. The feed conveyor with the frame, on which the anti-knife and the tunnel are fixed, is mounted on the main frame of the shredder by height-adjustable supports [1].

The disadvantage of the chopper is that the working element does not ensure the crushing of the grains. Knives rigidly mounted on the shafts cannot effectively crush the grains. In addition, the manufacture of knives is expensive, which leads to an unjustified increase in the price of the equipment. When chopping straw bales, the biomass is largely pre-chopped by the knives of the small rotors, and the working elements of the large rotor only have to complete the crushing process, for which there is no need for knives rigidly mounted on the shafts.

The technical problem that the invention solves consists in creating the possibility of shredding not only straw bales even with high humidity, corn stalks, sunflowers, Jerusalem artichokes, etc., but also cereals, obtaining in a single pass through the chopper combined fodder with the necessary proportions and high homogeneity.

The shredder for vegetable biomass and/or cereals, according to the invention, eliminates the above-mentioned disadvantage by containing a main frame, on which a drum with a cover is mounted, connected to a tunnel, in the drum, on two bearings, a horizontal shaft with a large rotor is mounted, formed by discs, fixed on its axis, on the discs being fixed rods, on which are fixed movable with longitudinal deflection hammers. In front of the rotor are mounted two horizontal shafts with a small rotor each, placed with the possibility of their rotation in opposite directions outwards. The small rotors are formed by discs, installed on their shafts, on the discs being fixed radially knives. In the lower part of the drum is made an outlet for the biomass and/or chopped cereals. A fan is fixed on one end of the shaft, and on the other - a drive wheel. A sieve is fixed to the drum, in front of the mouth, to the top and bottom of which a serrated plate is fixed. A removable serrated plate is fixed to the cover by means of a flange and two bars for separating the large rotor from the small rotors, the ends of which are joined to the free ends of the serrated plates. A grain feeding hopper is mounted above the cover by means of two slides, which communicates with the rotor and is equipped with a flap and an adjustable handle. A frame is placed on the main frame by means of height-adjustable supports, on which a conveyor for feeding vegetable biomass, an anti-knife and the tunnel are mounted, in which a mechanism for pressing and pushing vegetable biomass is mounted, consisting of a serrated roller, the shaft of which is joined to the ends of some levers, and their opposite ends are movably fixed to the walls of the tunnel by means of shafts. The roller is driven from the feed conveyor axis by means of chain wheels.

The particularity of the invention lies in the fact that the chopper, in addition to chopping vegetable biomass and/or cereals, also performs homogeneous mixing of the chopped biomass and/or cereals, which excludes the use of a special mixer in the process of preparing the combined feed.

The invention is explained by the drawings in Fig. 1-4, which represent:

- Fig. 1, diagram of the chopper for vegetable biomass and/or cereals;

- Fig. 2, top view of the chopper;

- Fig. 3, diagram of the feed conveyor with the pressing mechanism and small rotors;

- Fig. 4, diagram of the large rotor with the grain feeding hopper.

The shredder for vegetable biomass and/or cereals contains the main frame 1 (fig. 1), on which the drum 2 with the cover 20 and the feed conveyor 3 are mounted. In the drum 2, on two bearings, the large rotor 4 is installed on the shaft 5, in front of the rotor 4 two small rotors 6 and 7 are installed on the shafts 8 and 9.

On the disks 10, installed on the shaft 5 of the rotor 4, are fixed rods 11, on which are fixed movably with longitudinal deflection the hammers 12 (Fig. 2). On the disks 13, installed on the shafts 8 and 9 of the rotors 6 and 7, are fixed radially the knives 14. The scheme of the location of the hammers 12 on the rotor 4 is made so that each of the hammers 12 describes its own circumference and these circumferences do not coincide with each other. On one end of the shaft 5 is fixed the fan 15, and on the other end - the drive wheel 16. The rotor 4 from the back is covered with the sieve 17, at the top and bottom of which two toothed plates 18, 19 are fixed.

Through the hole made in the cover 20, the toothed plate 21 (Fig. 4) is inserted in front of the rotor 4, so that it, together with the toothed plates 18 and 19, completely closes the rotor 4 on the right side. The toothed plate 21 is fixed by two bars 22 and the flange 23 to the cover 20 with screws. Next to the flange 23, another rectangular hole is made in the cover 20, above which the grain feeding hopper 24 is mounted, which communicates with the space of the rotor 4 through two walls 25. The hopper 24 is mounted above the cover 20 by two slides 26, which allow the hopper to be mounted in its place or removed from the cover 20. The size of the hopper hole 24 is adjusted with the flap 27 driven by the adjustable handle 28. In the lower part of the drum 2 of the rotor 4, the outlet 29 for the discharge of biomass and/or chopped cereals is made, connected to the outlet 30 of the fan 15.

In front of the small rotors 6, 7 is the tunnel 31 (fig. 3), formed by the feed conveyor belt 3 and the walls 32. In the tunnel 31 is mounted the mechanism 33 for pressing and pushing the vegetable biomass towards the rotors 6 and 7, formed by the toothed roller 37, the axis of which is connected to the ends of the levers 34, the opposite ends of which are movably fixed to the walls of the tunnel 31 by the axes 35, 36.

The roller 37 is set in motion by the chain wheel 38, mounted on the shaft of the feed conveyor 3. The chain wheels 39, 40, 41 and 38 are connected with chains 42 and 43.

The roller 37 can occupy any position, which depends on the thickness of the plant biomass, which is at the given moment between it and the feed conveyor belt 3.

The feed conveyor 3 together with the mechanism 33 are rigidly mounted on the frame 44 of the feed conveyor 3. In turn, the frame 44 of the feed conveyor 3 is placed on the main frame 1 by the height-adjustable supports 45, which allow the vertical adjustment of the position of the feed conveyor 3 with the counterknife 46.

The chopper for vegetable biomass and/or cereals works in the following way.

When chopping straw bales, the toothed plate 21 is removed from inside the drum 2 together with the bars 22 and the flange 23. The hole formed in the drum 2 is closed with a suitable flange. The hopper 24 can also be removed, the hole being covered with a flange. The bale is placed on the feed conveyor belt. First, the roller 37 is raised to the maximum upper position (Fig. 1). When the conveyor belt 3 moves, the bale is moved towards the small rotors 6 and 7, which, rotating in opposite directions outwards, cut the straw.

The previously chopped straw is thrown towards the rotor 4, which with its hammers 12 prolongs the chopping of the biomass. The straw particles with a size smaller than the holes of the sieve 17 pass through them and are transported by the fan 15 into the accumulator hopper. The large particles, which do not pass through the holes of the sieve 17, continue to be chopped by the blades of the rotor 4 until the sizes, under the action of centrifugal forces and the air flow from the fan 15, are transported into the accumulator hopper. The toothed plates 18 and 19 also contribute to the more intensive chopping of the biomass.

The role of rotors 6 and 7 is to increase the uniformity of the loads for rotor 4 by feeding it with as equal portions of straw as possible. This is achieved due to the fact that each small rotor 6, 7 acts on the bale layer with forces directed in opposite directions outwards, which leads to the breakdown of the layer into two parts. Obviously, these parts will not be equal, but each time they will be smaller than the entire layer and, therefore, the engine load will be more constant than in the case when the bale will be directly chopped by rotor 4.

The chopping of sunflower stalks, corn, Jerusalem artichoke, Sakhalin buckwheat, etc. begins with the adjustment of the feed conveyor 3. However, it is necessary to first remove the toothed plate 21 with the bars 22 and the flange 23 from the front of the large rotor 4. Using the supports 45, the feed conveyor 3 with the tunnel 31 and the mechanism 33 are moved vertically to the position when the counterknife 46 coincides with the horizontal plane passing through the center of the small rotor 6, as shown in Fig. 3. The stalks, for example, corn, are placed on the feed conveyor 3 and the chopper motor is started. The stalks pressed by the roller 37 and the feed conveyor belt 3 move towards the small rotor 6, which with its knives 14 and the counterknife 46 pre-chops the transported stalks. Further, centrifugal forces move the biomass towards the hammers 12 of the rotor 4, where the working process proceeds analogously, as when chopping bales.

The biomass will be in the area of the knives until the straw particles can pass through the holes of the sieve 17 under the action of centrifugal forces and the air flow and will be evacuated by the fan 15 through the mouth 29 and the space between the drum body 2 and the sieve 17.

The grain chopping is performed starting with the assembly of the hopper 24 and the installation of the toothed plate 21 with the bars 22 and the flange 23. Before pouring the grain into the hopper 24, the flap 27 is closed, the rotor 4 is started and the flap 27 is gradually opened with the handle 28. The grain, hitting the area of action of the hammers 12, is crushed and, passing through the sieve 17, will be evacuated by the fan 15 and transported to the accumulator hopper.

If combined feed - biomass is prepared with a grain mill, the serrated plate 21 with the bars 22 and the flange 23 are removed from the drum 2, which allows the biomass (straw bales, hay, etc.) and the grains to be chopped simultaneously, obtaining combined feed.

The advantage of this chopper is the ability to grind not only many types of biomass, but also cereals, which allows you to obtain combined feed in the necessary proportions.

1. MD 874 Y 2015.02.28

Claims (1)

A shredder for vegetable biomass and/or cereals, comprising a main frame (1), on which a drum (2) with a cover (20) is mounted, connected to a tunnel (31), in the drum (2), on two bearings, a horizontal shaft (5) is mounted with a large rotor (4), formed by discs (10), fixed on its shaft (5), on the discs (10) being fixed rods (11), on which are fixed movable with longitudinal deflection hammers (12), at the same time in front of the rotor (4) are mounted two horizontal shafts (8, 9) with a small rotor each (6, 7), placed with the possibility of their rotation in opposite directions towards the outside; the rotors (6, 7) are formed by discs (13), installed on their shafts (8, 9), on the discs (13) being fixed radially knives (14); In the lower part of the drum (2) there is a mouth (29) for discharging the biomass and/or chopped cereals; a fan (15) is fixed on one end of the shaft (5), and on the other - a drive wheel (16); a sieve (17) is fixed to the drum (2), in front of the mouth (29), to the top and bottom of which a serrated plate (18, 19) is fixed; a removable serrated plate (21) for separating the large rotor (4) from the small rotors (6, 7) is fixed to the cover (20) by a flange (23) and two bars (22), the ends of which are joined to the free ends of the serrated plates (18, 19), at the same time, above the cover (20) a grain feeding hopper (24) is mounted by two slides (26), which communicates with the rotor (4) and is equipped with a flap (27) and an adjustable handle (28); on the main frame (1) is placed by means of height-adjustable supports (45) a frame (44), on which a feed conveyor (3) with vegetable biomass, an anti-knife (46) and the tunnel (31) are mounted, in which a mechanism (33) for pressing and pushing the vegetable biomass is mounted, consisting of a toothed roller (37), the axis of which is connected to the ends of levers (34), and their opposite ends are movably fixed to the walls of the tunnel (31) by means of shafts (35, 36); the roller (37) is driven from the axis of the feed conveyor (3) by means of chain wheels (38, 39, 40, 41).