RU2072765C1 - Forage chopper - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: forage chopper has a body. Mounted on the body are devices for loading and unloading. Inside the body there is a rotor with chopping tools, petal-shaped vanes, and a circular deck with flails. The deck encompasses the rotor so that there is a clearance between their working tools. The chopper is provided with a chopping knife and shear knives located between the loading device and the rotor. Each chopping tool is a row of tooth-shaped rings encompassed in a screen. The rings are mounted on an axle at an angle of 10-45 deg relative to the axle. The vanes are streamline in shape, and their front ends are pointed. An additional loading device is mounted on the body. The device is also applicable for chopping roots and tubers. EFFECT: higher chopping quality. 3 cl, 4 dwg

Description

 The invention relates to agriculture, and in particular to devices for grinding feed, and can be used in farms for preparing feed for feeding animals using a crushed mass of succulent and coarse fodder, cereal mass obtained by grinding corn with cobs, grain, root crops, gourds .

 Known feed crusher of the USSR, as well. from. N 992087, CL B 02 C 13/14, 01/30/83, comprising a housing with a hammer rotor installed therein, a deck and a grooved sieve, the working ends of the hammers being installed at the same distance from the sockets and protrusions of the sieve. The known crusher allows you to grind the grain, however, due to the use of the impact effect and the lack of a clearance adjustment mechanism, it cannot grind other types of feed, such as coarse stalks, root crops, melons, corn cobs, and succulent feeds.

 Known shock reflective crusher, the application of Germany (Germany) N OS 3525101, class. B 02 C 13/09, 15.01.87, consisting of a housing with a rotor equipped with impact hammers interacting with at least one spring-loaded reflective mechanism with a deck mounted to rotate against the action of the spring and to adjust the working clearance using the mechanism, made in the form of a hydraulic cylinder rod pivotally connected to a reflective mechanism with a damping piston, which rests on the crusher body and whose front end position is infinitely adjustable by means of a piston mounted ovary cylinder.

 Impact-reflective crusher allows you to grind grain and due to the device for adjusting the gap of root crops, ears of corn, and does not allow to grind coarse stalked feed. However, when chopping is possible, it does not provide high-quality uniform feed from corn cobs due to the use of hammer impact only, without preliminary cutting the cobs, which necessitates the use of a working gap of 8 10 mm, which does not ensure grinding of the mass between the hammers and the deck: significant the remainder in the mass of unmilled parts of cobs and rods, it is not possible to sift the mass, as well as for root crops and melons, for the same reason It wishes to set up another and uniform in size, and in addition, during grinding there is a significant loss of juice. The grinding hammer elements, in which only the upper one side works, wear out quickly, the working gap increases arbitrarily, which does not provide the possibility of obtaining a high-quality product on all types of feed. The lack of additional means of ejection and the presence of the upper discharge, leads to clogging of the grinding chamber during operation of the grinder.

Also known feed chopper, and.with. N 410733, CL A 01 F 29/00, 01/15/1974, comprising a housing with movable knives fixed and fixed to the shaft, mounted in it, in which the blades of the fixed knives are curved, with a sliding angle of 30.30 ^o when cutting, and the number of fixed knives is less than on one number of movable knives.

 The chopper provides grinding of stalked, coarse and succulent feeds, however, it cannot grind grain, as well as corn with ears and, in addition, knives of a knife device of complex configuration are laborious to manufacture, the absence of additional means of mass ejection leads to clogging of the grinding chamber, and to insufficient quality of grinding .

Known chopper of vegetable feed by and.with. 1665942 c. 5 A 01 F 29/00, comprising a housing with a loading window and an unloading neck, a rotor with grinding elements and an annular deck with pests installed in the housing with the possibility of forming an annular cavity, in which an unloading window is located, located in front of the loading window in the direction of rotation of the rotor, while the deck is installed with the possibility of rotation in the direction from the loading window to the discharge neck against the stroke of the rotor, and the angle between the axis of the discharge window and the vertical axis of the rotor is 45 180 ^o . A crescent-shaped contradiction is installed on the housing cover, and blades located in the annular ejection cavity are fixed on the rotor disk from the outer side of the rotor. Grinding rotor cutting elements.

 In the known grinder, the grinding process has been improved due to the design of the deck and the location of the discharge window, the presence of discharge blades, however, with this grinder it is impossible to produce high-quality grinding of coarse and succulent feed, because the chopper is equipped with only sickle-shaped knives in the loading neck, there are no active movable knives in this zone and the neck will clog during operation, which is also facilitated by the absence of vanes that take and feed to the grinding elements. In addition, on the specified grinder it is impossible to produce high-quality grinding of grain, because it is equipped only with cutting elements, and for the same reason it is impossible to qualitatively grind corn cobs.

Known feed chopper and.with. N 539552, A 01 F 29/00, 02.02.1977, comprising a housing with loading and unloading necks, a deck with a hammer rotor, a knife chopper, fixed knives and a feeding device, and the blades of fixed knives are made curved with a sliding angle of 30 40 ^o and the number of fixed knives is less than one number of movable knives, and the blades of movable knives are located at an angle of 10 15 ^o to the radius of their rotation.

 This grinder can grind stalked feed and grain, however, it does not provide crushing of root crops, melons and gourds due to clogging of the grinding chamber when unloading the grinding product without additional means of discharge through the upper neck.

 As in previous known grinders and crushers, the rectilinear shape of the hammer leads to its rapid wear, rearrangement of the hammers, arbitrary change in the working gap when they wear out. In addition, the versatility of the grinder without selecting the parameters and working elements necessary for each type of crushed feed, leads to a low-quality grinding product for all types of feed.

 The closest in technical solution and selected as a prototype is a feed chopper 1748728 cells 5 A 01 29/00 07/23/1993, comprising a housing with loading and unloading necks, inside of which there is a grinding chamber with a rotor equipped with grinding elements and blades, located between the feed loading device and the rotor of the knife chopper.

 In the known grinder, the opposing knives are mounted obliquely in the direction of rotation of the rotor at an angle to its radius equal to 0.28 radians, and the working surface of the sieve is made in the form of zigzag slots alternating with round holes, while a sieve chamber is formed behind the sieve, in which shoulder blades. Such a constructive implementation of the grinder allows you to achieve the required quality of grinding certain types of feed, such as grain-kernel mixture and stalks of corn with ears, also grain.

 The disadvantages of the known grinder include the fact that it is impossible to grind silage, melons and root crops with a high moisture content due to the frequent clogging of the grinding chamber, the inability to unload them through the upper discharge window.

 The disadvantages of the known chopper also include the fact that the straight blades of the knife chopper do not facilitate the movement of the material to be chopped directly to the chopping elements, do not create the required ventilation pressure, and the chopper does not provide the selection of operating parameters for each type of feed and, like in previous grinders, grinding elements of the rotor-thresher working with one top face.

 The basis of the invention is the task of creating a feed mill, in which, due to new, unknown from previously described and other sources of fame technical solutions of grinding elements, devices for setting operating parameters, all types of feed are crushed on one grinder with the achievement of the required quality for each product.

 The problem is solved in that in a feed chopper containing a housing with loading and unloading devices, inside of which there is a grinding chamber with a rotor equipped with chopping elements and blade-shaped blades, a feed loading device placed between the feed loading device and the rotor with a knife chopper and counter-knives, according to the invention, the grinding elements of the rotor are made in the form of gear-shaped rings, mounted obliquely with respect to their axes at an angle equal to the With the working planes of the gear-shaped rings and covered by the screens, the petals of the rotor blades are streamlined with a pointed front end, and the body is equipped with a second unloading device, that the knife chopper knives are made with double-sided sharpening of the blades, the working clearance adjustment mechanisms made in the form of axes, passing through the housing, from its two sides, lugs connected to a spring-loaded screw, placed in the stop and bushings and limited by nuts, and also by the fact that the seat nests of the rings chatoy shaped as two truncated cones vertices directed towards each other.

Distinctive features of the feed chopper are that the chopping elements of the rotor are made in the form of gear rings, set obliquely with respect to their axes at an angle equal to the bevel angle of the working planes of the gear ring and covered screens, and the petals of the rotor blades are streamlined with a pointed the front end, and the body is equipped with a second unloading device, the knife chopper with two-sided sharpening of the blades and the fact that the body is equipped with a mechanism for adjusting the working clearance, new in the form of bosses mounted on axes passing through the housing from two sides of the boss, connected by a spring-loaded screw, placed in an abutment and bushings and limited by nuts, is new and significant, since they have a causal relationship with the achieved technical result, which consists in the possibility of grinding all types of feed on one grinder with the achievement of the required quality of each grinding product, as well as its individual characteristics:
the implementation of the grinding element in the form of obliquely mounted gear-shaped rings with an angle of inclination of their installation with respect to their axes by an angle equal to the bevel angle of the working planes of the gear-shaped rings, provides directed feed supply along their lateral surfaces for final grinding between the surfaces of the scourges and the working planes of the rings gear-shaped, self-sharpening of the side cutting edges, gear-shaped bushings, and therefore, a constant set gap without arbitrary increase during their wear, parallel NOSTA pests deck surfaces and working planes form a toothed ring, and as a result of quality on the final grinding stage, all kinds of feed;
the implementation of the gear-shaped rings covered by the screens, and the petals of the rotor blades made streamlined and the pointed front end - provides directional feed of pre-crushed feed to the gear-shaped rings, enhances the air flow in the grinding chamber, helps to remove feed from it and prevents clogging of the rotor;
the chopper body is equipped with a second unloading device, which provides a direct discharge of insufficiently volatile feed particles, for example, particles of root crops, moist roughage, while the first ensures the removal of easily removable grain particles;
the chopper is equipped with a clearance adjustment mechanism made in the form of bosses mounted on the axes passing through the housing from two sides of the boss connected to a spring-loaded screw placed in the support and the sleeve and limited by nuts, which ensures the rigidity of the deck installation with the possibility of its departure when simplicity of design upon ingestion of inclusions such as stone, as well as the ability to set the required clearance depending on the type of processed feed;
knives of a knife chopper with double-sided sharpening, which ensures their self-sharpening and the duration of operation of the knives, and therefore the quality of the cut.

 Thus, the inventive feed chopper is distinguished by new and significant features that provide a solution to the problem and achieve a technical result, and meets the requirements of the invention - "inventive step".

 The inventive feed chopper will find application in agriculture, as it provides high-quality processing of all types of feed on one machine, machines of this class in Ukraine are not mass-produced.

 The produced feed chopper IU-F-10 is intended for chopping straw, grain and corn cobs, does not provide high-quality grinding of these feeds due to clogging of the grinding chamber, and does not provide grinding of root crops and melons. Compared with IU-F-10, the proposed feed chopper according to the invention will provide: high-quality chopping of feed, reduction of energy consumption by 15-30% due to the selection of optimal operating parameters, increasing the reliability of operation. The economic effect of using one feed chopper according to the invention in an economy will be 70 85 million kb. in year.

 Figure 1 shows a feed chopper (longitudinal section); figure 2 is the same side view; in Fig.3 a portion of the grinding chamber with gear-shaped rings and a deck; in Fig.4 the clearance adjustment mechanism.

 The possibility of carrying out the invention is confirmed by the description of the feed chopper.

 The feed chopper consists of a housing 2 mounted on frame 1 with a loading device 3 and devices for unloading 4 and 5, a rotor 6 and a ring sectional deck 7. A knife chopper 8 with one pair of knives 9 s is located between the feed loading device 3 and rotor 6 two cutting ends each and with two pairs of opposing knives 10.

The rotor 6 is made of front 11 and rear 12 discs, on which the axles 13 are mounted with grinding elements in the form of gear rings 14. The rear disc 12 is mounted on a conical hub 15, which is mounted on the shaft 16, and the front disc 11 is attached to the rear 12 by means of connections 17. The bushings of the gear shape 14 are separated from each other by the bushings 18 and from the disks 11, 12 by the bushings 19 and are placed at an angle to the axis 13, and their working planes are beveled in relation to the rings of the gear shape 14 by an angle equal to the angle of inclination ring gear 14 in relation to the axes and it is 10 45 ^o and in the working position the working planes are parallel to the working surface of the deck 7. The angle of inclination of the toothed rings 14 to 10 45 ^{o is} optimal for creating a sliding effect of pre-crushed feed particles hitting the side surfaces for directed feeding into the final grinding zone between the working planes the rings of the gear shape 14 and the surface of the deck 7. The installation of the rings of the gear shape 14 obliquely to the axis 13 is provided by a seat socket made in the form of a hole, the inner surface of which sets two truncated cones directed vertices towards each other.

 On the rear disk 12, screens 20 are fixed, which are fastened to the front disk 11 at a certain distance from the rings of the gear shape 14 and covering them.

 On the hub 15 of the rotor 6 there are petals of streamlined blades with a pointed front end 21, and on the shaft 16 of the rotor 6 and the adapter sleeve 22 between the loading device 3 and the rotor 6 there is a knife chopper 8, consisting of a pair of movable knives 9, the ends of which have such the same kind as the opposing knives 8 interacting with the opposing fixed knives 8, forming a scissors-like solution during their interaction.

 The movable knives 9 of the knife chopper 8 are removable, each of their pairs is equipped with a groove running along their transverse axis and parallel to it, equal to the width of the knife, and at least half its thickness over the groove section, which ensures ease of assembly and reliability of their fixation.

 The flat knives 9 have a double-sided sharpening of the blades intersecting at the end of the knife. Section deck 7 consists of four sections, fixed in the housing 2 by means of axles 23 and equipped with pests 24 installed with an adjustable clearance relative to the toothed rings 14 of the rotor 6. The clearance is adjusted by the working clearance adjustment mechanism 25, which includes bosses 26, screw 27 s nuts 28, 29, 30; bushings 31, 32; stops 33, springs 34. Lugs 26 are mounted on two sides of the axles 23 passing through the body of deck 7, body 3 and the chopper, at their ends and on both sides of the chopper body 2. Screws 27 are screwed into the bosses 26 perpendicular to the axes 23 and parallel to the surface of the body, passing through the stops 33 fixed to the body 2 of the chopper. On the screws 27 between the stops 33 and the bushings 31 and 32, springs 34 are placed to allow the sections of the deck 7 to escape when stones or other foreign bodies get into the chopping feed and to protect the chopping elements 14 and the scourges 24 of the deck 7 from damage.

 Section deck 7 has a window 35 for mounting a removable sieve 36 or a shutter therein, occupying 3/16 of its circumference therein.

 The window 35 alternately connects the grinding chamber, depending on the material being ground, with one of the discharge devices 4 or 5, one of which (4) is made on the side of the housing 2, and the other (5) on top of it. A nozzle 37 with a deflector 38 and a cyclone 39 is attached to the upper unloading device 5. The unloading device 4 and 5 are equipped with a shutter 40 for blocking one of them depending on the type of processed feed.

 The feed loading device 3 includes a hopper 41 with an inclined plane on which magnets 42 are mounted to trap metal inclusions. When working with grain, an additional hopper 43 with a shutter 44 is installed at the inlet of the hopper 41. The feed chopper drive provides the rotor 6 with two-sided rotation and is implemented by V-belt drive 45 and pulleys 46 and 47 from the tractor engine or PTO.

 The feed chopper operates as follows.

 When grinding coarse fodder such as hay, straw, haylage, grass, the hopper 43 is removed from the neck of the hopper 41, the upper unloading device 5. is blocked by the shutter 40. The unloading device 4 is open. Sieve 36 is missing. Window 35 is closed by a shutter. The mechanism for adjusting the working gap 25 sets the optimum working gap for this type of feed, which is 4 ± 1 between the inner surface of the scourges 24 of deck 7 and the outer working planes of the gear-shaped rings 14.

 The clearance is set as follows: after stop 33 nut 30 is released, screw 27 is locked in boss 26 by turning nut 28, by turning nuts 29, deck 7 is moved on axles 23 until the scourges stop 24 into the outer plane of the toothed rings 14. By turning nuts 30, deck 7 is retracted at a given distance, forming a given working gap. The position of the nuts 30 is fixed with locknuts. The size of the gap is set on the calibrated one of the sides of the stop 33. The mass of coarse stalk feed to be chopped by a feeder or a mobile feed distributor (not shown) is fed to the hopper 41 and fed to the loading device 3 along its inclined surface. The rotor 6 and knife chopper drive is turned on. When moving the mass along the inclined surface of the hopper 41, permanent magnets 42 pick up metal inclusions. The feed coming from the loading device 3 is preliminarily chopped by the knives 9 of the knife chopper 8 and the opposing knives 10, fed to the petals of the streamlined blades with a pointed front end 21, and on one side they are fed to the screens 20, directing this feed to the side surface of the gear-shaped rings 14 and then directly into the final grinding zone between the scourges 24 of deck 7 and the outer working planes of the gear-shaped rings. The flow of air created by the petals of streamlined blades with a pointed front end 21 and screens 20 and serrated rings, the crushed feed is removed from the grinding chamber through the discharge device 4 to the conveyor, and then to the vehicle (not shown).

 When grinding juicy feed such as root tubers or gourds using the adjustment mechanism 25, the working gap between the pests 24 and deck 7 and the working planes of the ring gears 14 is set to 10 ± 1.5 mm. Reduce the rotational speed of the rotor 6 by half by changing the pulleys. Remove, with the exception of one, fixed opposing knives and one knife 9 of the knife chopper 8, which ensures the grinding of root crops without over-grinding. The rotor 6 rotates in the same direction as before. The process of grinding root crops is similar to the process of grinding coarse stalked fodder.

 When grinding corn cobs in dry form, the deck adjustment mechanism 25 sets the working gap 3 5 mm in the window 35, the sieve 36 is placed, the unloading device 4 is closed, the direction of rotation of the rotor 6 is reversed by switching the motor connection, the deck 7 is reset, the rotor speed is increased to the previous one quantities. The process of mass feeding and grinding is similar to the above, but other surfaces of the petals of streamlined blades with a pointed front end 21, screens 20 work, and the crushed feed enters the sieve 36, is sifted and unloaded through the unloading device 5, pipe 37, deflector 38 and is fed to cyclone 39, and from cyclone 39 to a vehicle (not specified).

 Grain grinding occurs similarly to cobs, but an additional grain hopper 43 is installed and all knives 9 of the knife chopper 8 and fixed contradictions 10 are removed. The amount of grain supply is regulated by the shutter 44 of the hopper 43.

Claims (3)

1. A feed shredder comprising a housing with a loading device and an unloading device mounted on it and a rotor placed inside it with chopping elements and blade-shaped blades fixed on it and an annular deck with pests covering the rotor with the formation of a gap between their working elements, and located between the device for loading and the rotor of the knife chopper and counter knives, characterized in that each grinding element is made in the form of a series of gear rings covered by a screen forms mounted on the axis at an angle of 10 45 ^o to it, and the blade petals are streamlined with a pointed front end, while an additional loading device is mounted on the body.  2. The chopper according to claim 1, characterized in that the knives of the knife chopper are made with double-sided sharpening of the blades.  3. The chopper according to claim 1, characterized in that it is equipped with a mechanism for regulating the gap between the working elements of the rotor and the deck, made in the form of bosses mounted on axles passing through the housing from two sides thereof, connected to a spring-loaded screw placed in an emphasis and a sleeve and limited by nuts.

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