RU2267903C2 - Apparatus for grinding of plant undergrowth and mechanism for joining to adapters - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: apparatus has frame mounted on vehicle wheel axles and consisting of two side members. Grinding drum is provided on front part of frame. Header or pickup type adapter is attached through joining mechanism to feeding unit equipped with upper and lower rolls. Axes of lower row of rolls are aligned at an angle of 10-25 deg to axis of grinding drum. Diameters of rolls are continuously reducing toward grinding drum. Feeding unit is joined to adapter in vertical plane. Joining mechanism is made in the form of traverse disposed forward of feeding unit and having length exceeding width of feeding unit. Traverse is fixed on lever whose other end is disposed in pivotal support secured on feeding unit bottom. Traverse is spring-loaded by means of flexible members.

EFFECT: decreased weight of apparatus and reduced specific pressure applied to soil.

3 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to units for mowing green and picking dried sown and natural grasses from maths, mowing corn and other high-stem crops with simultaneous grinding and loading of chopped mass into vehicles, for preparing silage, granular and briquetted feeds, grass flour, silage, preparation of crushed hay and straw.

Known trailed forage harvester model KPKU - 75, containing a frame with vehicles mounted on the frame with an adapter in the form of a reaper with a reel and auger, feeding the cut mass to the feeder with the upper and lower rows of rollers, then to the grinding machine in the form of a drum with a knife and counter beam and in the discharge pipe. The upper row of rollers is spring-loaded, the axes of the lower row of rollers are located at a steep angle of elevation, and this angle between adjacent rollers is not the same. This kinematic design makes the vegetation longer from the header auger to the rollers, which complicates the transportation and prepressing of the cut or picked mass, its flow is intermittent, and inversion and return is possible, leading to clogging of the header auger, pick-up and requires the harvester to stop. In addition, the intermittent supply of vegetation makes the prepress uneven, pulsating in thickness, which ultimately affects the quality of grinding or reducing the speed of the combine [1].

Known for another self-propelled forage harvester "DON-680", which is a self-propelled chopper, including a frame that is mounted on axles of transport wheels. Above the base of the frame, on the braces holding the cab, a chopping drum is mounted, with a feeding apparatus and a transport pipeline docked to it.

The feeding apparatus consists of a frame with side walls in which five rotating rollers are mounted: two upper and three lower. The axes of the lower rollers are mounted to the axis of the drum of the grinding apparatus at a steep angle of elevation, and this angle between adjacent rollers is not the same. The upper row of rollers is spring-loaded.

The grinding apparatus has knives in the form of blades and an opposing beam. The drum receives rotation from the drive and is kinematically connected to the rollers of the feeding apparatus. The harvester is docked with adapters, which can be screw pick-ups, rotary and screw headers [2].

Due to the considerable distance of the axis of rotation of the drum from the soil surface, a negative angle of the plane of docking of the feeding apparatus with the adapter is created. To eliminate it, an intermediate link has been introduced - a docking mechanism in the form of a transition frame and spacers, interconnected by a central hinge and spring blocks [3].

The transition frame itself consists of a welded frame, removable spring blocks and permanent springs. On the racks of the frame there are catchers for hanging adapters, stops for fixing the adapters, ears for connecting with a spacer to the feeder. The rear beam has stops and a central hinge bracket. The spacer to the feeder consists of a welded frame in the form of a triangular pyramid, a beater, an adapter drive shaft, tension sprockets, sidewalls, leashes and hooks. A beater is a cylinder with blades and end disks. The bracket of the central hinge is installed on the lower beam of the frame. The spacer is mounted on the feeder, the adapter is hung on the adapter frame.

This grinder has the drawbacks of the previous one: intermittent feeding of the feeding apparatus due to the large steepness of the trajectory of repulsion of the crop, turning it back to the beater and then onto the auger of the header or pick-up, as a result of which the winding is wound on the auger. This requires the chopper to stop. A beater spacer increases the speed of vegetation movement and with a short and medium cutting length the feeder does not have time to repulse it. In front of the feeder, a short is formed. To adjust the processing speed, it is necessary to reduce the speed of the chopper moving across the field. A spacer beater is an additional unit weighing about 300 kg, which requires a counterweight to be installed on the opposite rear end. This as a whole increases even more the total weight of the unit and the increased specific pressure on the soil, requires an additional flow adapter by 25-30% of the power consumption.

The basis of the present invention is the task of increasing the productivity and reliability of the unit, simplifying the design, reducing the metal consumption of the whole unit, thereby reducing the unit specific pressure on the soil and energy consumption per unit of production.

The problem is solved in that the unit for grinding vegetative growth contains a frame, transport wheels, a drive, a hanging mechanism for adapters such as a header or pick-up and a feeding apparatus with upper and lower rollers kinematically connected to the drive, a grinding drum and an unloading pipe. In this case, the front end of the frame from the axis of the transport wheel is elongated by at least half the diameter of the grinding drum, and its shaft is mounted in supports located at the front ends of the frame spars, the axes of the lower row of rollers are located on the same line at an angle α equal to 10 25 °, to the axis of the grinding drum, the diameters of the rollers gradually decrease towards the grinding drum, and the plane of docking of the feeding apparatus with the adapter is made vertical.

Another problem is solved by changing the design of the mechanism for adapting the adapters to the feeding apparatus of the plant for grinding vegetation containing elastic elements, a hinge support, stops restricting the turn of the adapter, which is equipped with a lever, a traverse placed in front of the feeding apparatus and by means of the said lever associated with the possibility of limiting rotation in vertical and horizontal planes, with a hinged support located on the bottom of the feeding apparatus and spring-loaded with elastic elements, the connection one ends with the traverse, and the other with the upper part of the side walls of the feeding apparatus.

Lengthening the front of the frame made it possible to make it flat instead of spatial, reduce the diameters of the transport wheels, lower the chopping drum shaft and frame to a level close to the axis of rotation of the transport wheels, place the roll axes in one line at a gentle angle to the drum axis α equal to 10-25 ° , the docking plane of the feeding apparatus with the adapter is plumb and simplify the hanging mechanism. Due to these improvements, to shorten the path and align the path of movement of the plant mass from the adapter to the chopping drum, to practically eliminate the tucking of the plant mass, clogging of the adapter screw and rollers, and to ensure a uniform prepressing, which positively affects the quality of cutting.

In addition, in the kinematic chain, the adapter - the feeding apparatus - the chopping drum excludes intermediate links, such as spacer beater, chain drives, which reduced power consumption by up to 30%, reduced the weight of the whole chopper by 1.5 tons, and as a result reduced specific the pressure of the aggregate on the soil, and due to this, to maintain the soil structure at an agrobiological level, since the lower the pressure on the soil, the more favorable the conditions for the life of bacteria, worms (orderlies and land plowmen), i.e. for the microflora of the earth.

Figure 1 schematically shows the unit, with local breakouts, side view.

Figure 2 schematically shows the mechanism of docking with a feeding apparatus, top view.

Figure 3 is a side view of the feeding apparatus and the drum with the geometric arrangement of the rollers and the axis of the drum.

The plant for grinding the vegetation strip includes a frame 1, transport wheels 2 mounted on the front part 3 of the frame 1 in bearing bearings 4, a grinding drum 5, to which the discharge pipe 6 and the feeding apparatus are docked 7. Adapters 8 of the header or picker type are connected to the feeding apparatus 7 by means of the docking mechanism 9. The frame 1 is at least a pair of longitudinal spars 10 connected by cross members and is mounted directly on the bridges 11 of the transport wheels 2. On the frame 1, electric and hydraulic official drives (not shown). Raising and lowering the adapter 8 is carried out together with the feeding apparatus 7 by means of a hydraulic cylinder 12. The grinding drum 5 consists of a housing 13, a shaft 14, disks 15, knives 16 and an opposing beam 17. The front part 3 of the frame 1 is elongated and protrudes from the axis of the transport wheel 2, at least half the diameter of the drum 5, the bearing bearings 4 of the shaft 14 are placed in the end part 18 of the side members 10 at an optimal height from the soil level, based on the estimated diameter of the drum. The feeding apparatus consists of a frame 19 of a frame structure, in the side walls 20 in the supports two upper 21 and 22 spring-loaded rollers and three lower 23, 24 and 25 rollers are mounted. The axes of the lower rollers 23, 24 and 25 are located on the same line at an angle α equal to 10-25 ° to the axis of the shaft 14 of the drum 5. The angle α is determined by the structural arrangement of the shaft 14 on the frame 1. The diameters of the rollers 23, 24 and 25 gradually decrease to the side chopping drum 5. The plane of the docking 26 of the feeding apparatus 7 is made vertical. The adapter 8 by means of leashes 27 is fixed with the apparatus 7. The docking mechanism 9 consists of a beam 28, which is longer than the width of the feeding apparatus 7 and connected with it via a lever 29 and elastic elements 30 and 31, made in the form of tension springs. At the bottom of the apparatus 7, a hinge support 32 is fixed. The lever 29 is fixed at one end in the middle of the yoke 28, and the other pivotally with the support 32, with the possibility of copying the soil profile with the yoke 28. The springs 30 and 31 are fixed at one end along the edges of the yoke 28, and others are connected with the upper part of the side walls of the apparatus 7, in particular by means of brackets 33 and 34 with eyes secured to the upper side rails of the frame 19 or by any other known method. The tension of the springs 30 and 31 is adjustable. The mechanism 9 is equipped with stops 35 and 36, fixing the position of the adapter from a turn during movement. The drive of the feeding apparatus 7 and adapters 8 includes a belt drive 37, a shaft 38, a reducer 39 of the drive of the adapters 8 and a reducer 40 of the feeding apparatus 7.

The unit operates as follows.

Depending on the type of work, an adapter 8 is hung on the feeding apparatus 7 through the docking mechanism 9, which can be a header or pick-up.

The adapter 8 narrows the flow of cut or selected mass of plants and directs it to the neck of the feeding apparatus 7. The vegetation is captured by rollers 21-25, pressed and fed into the grinding drum 5, where it is chopped with knives 16 and 17 and sent to the discharge pipe 6, from which into a vehicle moving nearby. The performance of the unit is regulated by changing the speed of its translational motion. The length of cutting vegetation is regulated by changing the number of revolutions of the feeder rollers.

From the main drive through the belt drive 37, rotation is transmitted to the shaft 38 and from it to the reducer 39 of the drive of the adapter 8 and the reducer 40 of the feeding apparatus 7. The cutting mechanisms of the adapter 8 of its beater are turned on.

Information sources

1. Trailed forage harvester KPKU - 75. Technical description and instruction manual. Production association "Gomselmash" Minsk, "Polymya" 1983. Pages 14-23, Fig. 3, 7.

2. Production Association Rostselmash. Self-propelled forage harvester "Don 680". Technical description and instruction manual. Pages 20-26, Fig. 2, 4 - a prototype to claim 1 of the formula.

3. Production Association Rostselmash. Self-propelled forage harvester. Addition to the technical description and operating instructions for the Don-680 combine. Spacer header for harvesting grass RSM-100.58.00.000 - Page 4-5, Fig. 1-5 on pages 19-23 - a prototype to claim 2, 3, 4 of the formula.

4. Pat. USSR No. 310425, A 01 D 43/08, 1969.

5. Auth. testimonial. USSR No. 308708, A 01 D 89/00, 1968.

6. Testimonial. RF for utility models:

No. 15249, 7 A 01 D 41/00, 2000.

No. 15250, 7 A 01 D 41/00, 2000.

No. 15251, 7 A 01 D 41/00, 2000.

7. Reznik N.E. Forage harvesters. M.: Mechanical Engineering, 1980, pp. 216-217.

Claims (3)

1. A plant for grinding vegetative growth, comprising a frame, transport wheels, a drive, a docking mechanism for adapters of the header or pick-up type and a feeding apparatus with upper and lower rollers kinematically connected to the drive, a grinding drum and an unloading pipe, characterized in that the front end of the frame is the axis of the transport wheel is lengthened by at least half the diameter of the chopping drum, while its shaft is mounted in supports located on the front ends of the frame side members, the axles of the lower row of rollers are arranged tsya aligned at an angle α, equal to 10-25 °, to the axis of the grinding drum, the diameters of rollers decrease gradually in the direction of the grinding drum, a feeding device docking adapter is formed with a plane vertical. 2. The mechanism for docking adapters of the header or pick-up type to the feeding apparatus of the plant for grinding vegetation, containing elastic elements, a hinge support, stops restricting the adapter’s turn, characterized in that it is equipped with a lever mounted at one end in a hinged support fixed to the bottom of the feeding apparatus , traverse mounted on the other end of the lever with the possibility of limited rotation in the vertical and horizontal planes and spring-loaded elastic elements, one ends connected with Tsami crosspiece, and others - fastened at the top of the side walls of the feeding apparatus. 3. The adapter docking mechanism according to claim 2, characterized in that the length of the beam is greater than the width of the feeding apparatus.

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