RU2745962C2 - Method and versions of the device for increasing the weight of milled vegetal materials in the body of a vehicle - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for increasing the weight of milled vegetal materials in a vehicle body, in which sloping or picked up from rolls of grass, passing through a combine equipped with a silo with a shield, hingedly installed with possibility of rotation in vertical plane, and grinding drum, forming into flow and acquiring kinetic energy by means of latter, enter body, wherein plant materials are fed and compacted by energy of flow and layer by layer through the return movement of the shield in the vertical plane through an α angle its stroke, note here that flow energy of every next layer is quenched by previous one, while body homogeneity and density depend on thickness of every compacted layer. Device for increasing the weight of ground vegetable materials in a vehicle body includes a combine, equipped with silo with hingedly installed apron, with possibility of α angle fixation its rotation in vertical plane.

EFFECT: inventions allow increasing the ground vegetal materials mass in the motor-and-tractor facility body during the forage preparation.

5 cl, 5 dwg

Description

The invention relates to agricultural engineering and can be used when loading shredded plant materials into the body of a vehicle operating in conjunction with a forage harvester.

When harvesting swaths of dried plant mass by forage harvesters for haylage, waxy maize for silage, etc., one of the tasks in their transportation is to increase the efficiency of using vehicles by increasing the mass of transported feed.

Known trailed forage harvester KPI-2.4, during the operation of which for the full use of the carrying capacity of the vehicle and the prevention of feed loss, it becomes necessary to build up the sides of the body and install an inclined shield [1]. The energy that the feed stream acquires when passing through the combine is extinguished on the inclined shield, or on the side of the body. After the impact, the food, under the influence of gravitational forces, rolls down at the angle of repose, typical for this type of crushed food, in a loosened state.

The disadvantage of loading vehicles when using such combines is the passive compaction of crushed plant materials in the body under the action of gravitational forces and the absence of layer-by-layer stacking of the mass.

Known self-propelled forage complex PALESSE FS80-2, which loads the mass of crushed plant materials into the body of the vehicle almost vertically due to the two-stage visor mounted on the silage chute, manually operated from the cab of the forage harvester [2]. When steeply unloading into the body, local compaction of the forage occurs and it is poured out at the angle of repose, typical for this type of crushed forage, in a loosened state.

The disadvantage of loading the vehicle body with this device is that the energy of the feed flow is extinguished locally, without ensuring uniform compaction of the feed throughout the body volume, and the absence of layer-by-layer stacking of the mass.

Known mechanized loading of bulk materials into the bunker [3] under the action of gravitational forces by a loading device, for example, a conveyor (belt, scraper, screw, etc.). For uniform distribution of material along the width and length of the hopper, it is necessary that the hopper moves evenly back and forth relative to the loading device, or the loading device - relative to the hopper along its length.

Loading into the hopper is carried out layer by layer over the bottom area, and the required number of layers is determined by the dependence:

where n is the number of layers,

ϑ _с - uneven distribution of material in the layer (technical characteristics of the loading device),%;

ϑ _b - uneven distribution of material in the bunker (technical requirements for the quality of the bunker loading),%.

The disadvantage of this device is that the mass loaded into the vehicle body is passively compacted only under the action of gravitational forces.

The purpose of the invention is to increase the mass of crushed plant materials in the body of an autotractor vehicle during forage procurement.

This goal is achieved by the fact that a method for increasing the mass of crushed plant materials in the body of a vehicle, in which the grass cut or picked up from swaths, passing through a combine equipped with a silage chute with a canopy hinged in a vertical plane, and a chopping drum, is formed in flow and acquiring kinetic energy through the latter, enter the body. Plant materials are supplied and stacked with compaction due to the energy of the flow and layer by layer through the return movement of the visor in the vertical plane at the angle α of its working stroke, and the energy of the flow of each subsequent layer is extinguished against the previous one, and the homogeneity and density of the mass in the body depends on the thickness of each compacted layer ...

A device for increasing the mass of crushed plant materials in the body of a vehicle, including a combine equipped with a silage chute with an articulated visor, with the possibility of fixing the angle of its rotation α in the vertical plane. In the first version, the visor is connected by a flexible connection with an eccentric mounted on the drive shaft and is equipped with a limiter for the angle α of the working stroke of the return movement of the visor, while the limiter is made in the form of an additional flexible connection for controlling the visor.

In the second version, the limiter of the angle α of the working stroke is mounted on the upper part of the visor from the eccentric side and is made in the form of a hydraulic cylinder and a swivel wheel, and a flexible connection connected at one end with the eccentric, bending around the wheel, is attached to the hydraulic cylinder rod by the other end so that the length of the rod changes the hydraulic cylinder and the tension of the flexible connection leads to a change in the angle of the working stroke of the visor.

In the third version, the limiter of the angle α of the working stroke of the visor is made in the form of a tensioning device for flexible connection installed on the silage pipe, containing a hydraulic cylinder with a tension wheel on its rod, fixed on the silage pipe, and changing the length of the hydraulic cylinder rod with a tension wheel leads to a change in the tension of the flexible connection and the angle α working stroke of the visor.

In the fourth version, the travel stop is made in the form of a drive and a hydraulic cylinder pivotally mounted on the silage pipe and connected by a hinge, and changing the position of the drive by means of the hydraulic cylinder leads to a change in the angle α of the working stroke of the visor.

FIG. 1 is a top view of a forage harvester and vehicle; in fig. 2 - distribution of feed in the body of the vehicle when the combine is operating with an active visor; in fig. 3 is a view of the travel stop mounted on the top of the visor; in fig. 4 - the same for the travel stop made in the form of a tensioning device for flexible connection; in fig. 5 - the same for the travel stop mounted on the silage pipe.

The proposed method is carried out in the following sequence. Grass mowed or picked up from the rolls, passing through the harvester 1, equipped with a silage chute 2 with a canopy 3, hingedly mounted with the ability to rotate in a vertical plane at an angle α, and a chopping drum, forming into a stream and acquiring kinetic energy through the latter, enter the body 4. Plant materials are supplied and stacked with compaction due to the energy of the flow and layer by layer through the return movement of the visor 3 in the vertical plane at the angle α of its working stroke, and the energy of the flow of each subsequent layer is extinguished against the previous one, and the homogeneity and density of the mass in the body 4 depends on the thickness of each compacted layer.

The device for increasing the mass of crushed plant materials in the vehicle body contains a combine 1 equipped with a silage chute 2 with a hinged visor 3, with the possibility of fixing the angle α of its rotation in the vertical plane.

In the first version, the visor 3 is connected by a flexible connection 5 with an eccentric 6 mounted on the drive shaft 7, and is equipped with a limiter for the angle α of the working stroke of the return movement of the visor 3, while the limiter is made in the form of an additional flexible connection 8 for controlling the visor 3.

In the second version, the limiter of the angle α of the working stroke is mounted on the upper part of the visor 3 from the side of the eccentric 6 and is made in the form of a hydraulic cylinder 9 and a swivel wheel 10. Flexible connection 5, connected at one end with the eccentric 6, bends around the wheel 10, and at the other end is attached to the rod hydraulic cylinder 9. Changing the length of the rod of the hydraulic cylinder 9 and the tension of the flexible connection 5 leads to a change in the angle α of the working stroke of the visor 3.

In the third version, the limiter of the angle α of the working stroke of the visor 3 is made in the form of a tensioning device installed on the silage pipe 2 for flexible connection 5, containing a hydraulic cylinder 11 fixed on the silage pipe 2 with a tension wheel 12 on its rod, and changing the length of the rod of the hydraulic cylinder 11 with a tension wheel 12 leads to change the tension of the flexible connection 5 and the angle α of the working stroke of the visor 3.

In the fourth version, the travel stop is made in the form of a drive 7 and a hydraulic cylinder 13 pivotally mounted on the silage pipe and connected by a hinge. A change in the position of the drive 7 by means of a hydraulic cylinder 13 leads to a change in the angle α of the working stroke of the visor 3.

In the last three versions, the flexible link 5 in the working position will always be taut, the visor 3 is constantly in motion, and the feed is evenly distributed over the width of the body 4.

The technological process of the method and device for increasing the mass of crushed plant materials in the body of a vehicle is carried out as follows. During the operation of the combine, the mowed or grasses picked up from the rolls are crushed by the cutting drum, formed into a stream and, acquiring kinetic energy through the latter, are transported through the silage duct 2 with a canopy 3, hingedly mounted with the ability to rotate in a vertical plane at an angle α into the body 4 of the vehicle. Plant materials are supplied and stacked with compaction due to the energy of the flow and layer by layer through the return movement of the visor 3 in the vertical plane at the angle α of its working stroke. The extreme upper position of the visor 3 is provided by the flow of the crushed mass, and the extreme lower position is provided by the drive 7 with the eccentric 6 and the flexible connection 5. In this case, the flow energy of each subsequent layer is extinguished against the previous one, and the homogeneity and density of the mass in the body 4 depends on the thickness of each compacted layer.

The method is implemented in four variants of the device for increasing the mass of crushed plant materials in the body of the vehicle. In this case, in all versions, the deflection of the visor 3 by the angle α of the working stroke is carried out by a drive 7 with an eccentric 6 and a flexible link 5. The limitation of the upper position of the stroke of the visor 3 in the first version is provided by an additional flexible link 8 for controlling the visor 3.

In the last three variants, the limitation of the upper position of the stroke of the visor 3 is carried out by a flexible link 5, which in the working position will always be tensioned.

The use of the proposed method and device will increase the mass of crushed plant materials in the body of the vehicle during forage harvesting due to layer-by-layer stacking with compaction through the return movement of the visor and the energy of the feed flow.

INFORMATION SOURCES

1. Trailed forage harvester KPI-2.4. Technical description and instruction manual. - Kiev: Oblpoligrafizdat, 1986 .-- 162 p.

2. High-performance forage harvester "PALESSE FS80-2" Operation manual KVS-2-0000000-06IE // Electron, dan. Access mode URL https://www.gomselmash.by (date of access 12.03.2019).

3. A. D. Milev. About uniform loading of the bunker of a mobile feed dispenser with crushed feed. V.R. Williams "" Multifunctional adaptive feed production ", issue 5 (53). - M .: OOO "Ugreshskaya Printing House", 2015. - p. 322-324.

Claims (5)

1. A method of increasing the mass of crushed plant materials in the body of a vehicle, in which the grass cut or picked up from swaths, passing through the combine, equipped with a silage chute with a canopy hinged with the possibility of turning in a vertical plane, and a chopping drum, forming into a stream and acquiring a kinetic energy through the latter, enter the body, characterized in that the plant materials enter and stack with compaction due to the energy of the flow and layer by layer through the return movement of the visor in the vertical plane at the angle α of its working stroke, and the energy of the flow of each subsequent layer is extinguished against the previous one, and homogeneity and density of the mass in the body depends on the thickness of each compacted layer. 2. A device for increasing the mass of crushed plant materials in the body of a vehicle, including a harvester equipped with a silage chute with a hinged visor, with the possibility of fixing the angle α of its rotation in the vertical plane, characterized in that in the first version, the visor is connected by a flexible connection with an eccentric installed on the drive shaft, and is equipped with a limiter for the angle α of the working stroke of the return movement of the visor, while the limiter is made in the form of an additional flexible connection for controlling the visor. 3. A device for increasing the mass of crushed plant materials in the body of a vehicle, including a harvester equipped with a silage chute with a hinged visor, with the possibility of fixing the angle α of its rotation in the vertical plane, characterized in that in the second version the limiter of the angle α of the working stroke is mounted on the upper part of the visor from the eccentric side and is made in the form of a hydraulic cylinder and a swivel wheel, and a flexible connection connected at one end with the eccentric, bending around the wheel, with the other end attached to the hydraulic cylinder rod in such a way that a change in the length of the hydraulic cylinder rod and the tension of the flexible connection leads to a change in the angle of the working stroke visor. 4. A device for increasing the mass of crushed plant materials in the body of a vehicle, including a harvester equipped with a silage chute with a hinged visor, with the possibility of fixing the angle α of its rotation in the vertical plane, characterized in that in the third version the limiter of the angle α of the working stroke of the visor is made in the form of a tensioning device for flexible connection installed on the silage pipe, containing a hydraulic cylinder fixed on the silage pipe with a tensioning wheel on its rod, and changing the length of the hydraulic cylinder rod with the tensioning wheel leads to a change in the tension of the flexible connection and the angle α of the working stroke of the visor. 5. A device for increasing the mass of crushed plant materials in the body of a vehicle, including a harvester equipped with a silage chute with a hinged visor, with the possibility of fixing the angle α of its rotation in the vertical plane, characterized in that in the fourth version the travel stop is made in the form of hinged mounted on the silo and the drive and the hydraulic cylinder connected to each other by a hinge, and a change in the position of the drive by means of the hydraulic cylinder leads to a change in the angle α of the working stroke of the visor.

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