RU2566020C2 - System of motorless mobile means of alternate aggregation with one power unit for harvesting crops and other works (versions) - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: group of inventions relates to the field of agricultural engineering, in particular to systems of motorless mobile means with their flexible alternate aggregation with one power plant to implement works non-conjugated in agro-technical terms. The system comprises at least two harvesting motorless mobile means of hopper 1 and non-hopper type, as well as a power unit alternately aggregated with them. The motorless harvesting mobile means consist of running chassis 3, frames 4 with main and auxiliary process working bodies for harvesting crops, which drives for movement and rotation are made in different variants: hydraulic and from electric motors. The power plant is made from the driving parts for the aforementioned drives on the frame 4 of each of the motorless mobile harvesting means in the form of an electric motor 16 with a pump station 17 and a power station 15 on the towing carrier chassis 18. The power station 15 consists of an internal combustion engine with a generator of electrical current and a power cable 19 connected to drive parts of the motorless mobile harvesting means.

EFFECT: group of inventions provides enhanced efficiency of the system performance through providing the ability of application at harvesting works of mobile harvesting means with different embodiments of the rotation drives of their technological working bodies.

2 cl, 6 dwg

Description

FIELD OF THE INVENTION

The group of inventions relates to the field of agricultural (agricultural) machinery, in particular to systems of non-motorized mobile devices with flexible alternating their aggregation with one power plant for performing work related to cleaning agricultural crops and other works, mainly in the conditions of agricultural producers with limited material and labor resources.

State of the art

A known system of non-motorized mobile means of alternating aggregation with one power plant to perform the cleaning of agricultural crops and other works as a part of at least two non-motorized harvesting mobile bunker and bunker-type mobile devices, consisting of a running chassis, its frame with main and auxiliary technological working bodies for harvesting crops and a towing device, drives for moving the main technological working bodies in the form of hydraulic lines with hydraulic cylinders and rotation drives of the chassis, the main and auxiliary technological working bodies in the form of hydraulic lines with hydraulic motors, electrical equipment, cabs with control of the operation of the latter and the indicated drives, and a power unit as part of the drive unit for the above drives on the frame of each non-motorized mobile cleaning equipment and power plant in the form of an internal combustion engine with an electric current generator and power cable mounted on a carrier chassis, aggregated alternately with one of the non-motorized mobile harvesting aids by attaching to the towing device of said support chassis and to its drive part a force th power cable, in which idle periods of said motorless mobile harvesting means can be used for lighting equipment and the actuator at a stationary object [Patent №2369077 RU C1, IPC A01D 41/00, A01D 43/00. System of mobile means for harvesting crops / A.I. Dmitrenko, N.I. Agafonov, A.I. Buryanov, S.A. Dmitrenko. - Applicant and patent holder: GNU "VNIPTIMESKH", No.2008120453 / 12; declared 05.22.2007 // publ. 10/10/2009. - Inventions (applications and patents), 2009. - No. 28].

The system allows harvesting of several agricultural products. crops not matched by agrotechnical maturity, in addition, the power plant during periods of downtime of these non-motorized mobile devices can be used to illuminate and drive equipment at a stationary facility.

The main disadvantage of the system is its narrow limitations in the harvesting processes of several agricultural enterprises. crops using technical means on the basis of non-motorized mobile cleaning equipment only with hydraulic drives for moving the main technological working bodies and rotating their chassis, main and auxiliary technological working bodies (in the form of hydraulic lines with hydraulic cylinders and hydraulic motors), which significantly reduces the potential practical use and operational efficiency of the system in the agricultural sector, including excluding the possibility of using other types of performance drives their work sneeze organs (e.g., electrical, and other).

In terms of the set of essential features, this system is closest to the proposed technical solution and adopted as the closest analogue.

Disclosure of invention

The proposed group of inventions solves the technical problem of increasing the efficiency of the system by providing the possibility of using several cleaning versions of their rotation drives in the system of mobile cleaning aids with technological working bodies.

The technical result is achieved by the possibility of sequentially aggregating the power plant with one of the non-motorized mobile harvesting equipment with different options for the execution of displacement and rotation drives of their technological working bodies.

To obtain the specified technical result in the system of non-motorized mobile means of alternating aggregation with one power plant to perform the cleaning of agricultural crops and other works as a part of at least two non-motorized harvesting mobile bunker and bunker-type mobile devices, consisting of a running chassis, its frame with main and auxiliary technological working bodies for harvesting crops and a towing device, drives for moving the main technological working bodies in the form of hydraulic lines with hydraulic cylinders and rotation drives of the chassis, the main and auxiliary technological working bodies in the form of hydraulic lines with hydraulic motors, electrical equipment, cabs with control of the operation of the latter and the indicated drives, and a power unit as part of the drive unit for the above drives on the frame of each non-motorized mobile cleaning equipment and power plant in the form of an internal combustion engine with an electric current generator and power cable mounted on a carrier chassis, aggregated alternately with one of the non-motorized mobile harvesting aids by attaching to the towing device of said support chassis and to its drive part a force the power cable of the power plant, which during periods of downtime of these non-motorized mobile cleaning equipment can be used to illuminate and drive equipment at a stationary object, according to the invention, the rotation drives of part of the main and part of the auxiliary technological working bodies are made electric in the form of electric lines with electric motors, and the drive part of the power plant on each of the non-motorized mobile harvesting aids made in the form of a main electric motor with a pumping station connected to a gy the rotational drives of its chassis and the main and part of the auxiliary technological working bodies, while the electrical equipment of each non-motorized mobile cleaning equipment is connected to the electric lines of the electric motors of the drives of their main part and the auxiliary technological working bodies, and the main electric motors of their power units are equipped with quick disconnect devices for connecting the power cable of the power plant;

according to the invention, the rotation drives of the chassis, all the main and auxiliary technological working bodies are made electric in the form of an electric line with electric motors, and the electrical equipment of each of the non-motorized mobile cleaning equipment is connected to the indicated electric lines, while the drive part of each of the non-motorized mobile equipment is made in the form of a quick disconnect joining their chassis chassis drives, the main and auxiliary technological working bodies - forces Wired power plant cable.

The set of distinctive features implemented in the group of inventions makes it possible to operate non-motorized mobile cleaning equipment with different options for the execution of displacement and rotation drives of their technological working bodies, which will generally contribute to increasing the efficiency of using the entire system in the agricultural sector.

Brief Description of the Drawings

The implementation of the system in the proposed group of inventions is illustrated by the example of the use of non-motorized mobile cleaning equipment of the bunker and bunker type and their alternate aggregation with one power plant for harvesting grain agricultural crops, mainly in the conditions of agricultural producers with limited material and labor resources:

in FIG. 1 shows a diagram of the functioning of the system of non-motorized mobile harvesting equipment of the bunker (a) and bunker (b) type during the next aggregation of the first with a power plant for harvesting agricultural crops. crops, left side view;

in FIG. 2 shows a diagram of a non-motorized mobile bunker-type harvesting device for harvesting grain agricultural crops. crops when implementing drives moving (hydraulic) main technological working bodies and rotating (hydraulic and electric) of its chassis, main and auxiliary technological working bodies, side view on the right (a) and left (b);

in FIG. 3 shows a diagram of a non-motorized mobile bunker-type harvesting device for harvesting grain agricultural crops when implementing drives moving (hydraulic) main technological working bodies and rotating (electric) of its chassis and all the main and auxiliary technological working bodies, side view on the right (a) and left (b).

The implementation of the invention

The system includes (Fig. 1-3), at least two harvesting non-motorized mobile means of hopper 1 and hopper-free type 2 and a power plant that is alternately aggregated with them. Non-motorized mobile harvesting equipment 1, 2 consist of a running chassis 3, frames 4, control cabins 5 and trailed devices 6. The main and auxiliary technological working bodies for harvesting agricultural machinery are placed on frames 4. cultures. The main technological working bodies include, for example, a threshing drum 7, a grain separator 8, a straw separator 9. The auxiliary technological working bodies include, for example, a fan 10, a grain elevator 11, a spike elevator 12, an unloading auger 13, and a harvesting part 14 and others (not shown). The harvesting part 14 is pivotally mounted in front of the frame 4.

The power plant is made up of drive parts for the above drives for moving and rotating the main and auxiliary technological working bodies and the power station 15. The drive parts are mounted on the frames 4 of each of the non-motorized harvesting machines 1, 2 and are made in the form of a main electric motor 16 with a pump station 17. Power plant 15 is made of an internal combustion engine with an electric current generator mounted on its supporting chassis 18, and is equipped with a power cable 19. The main electric motors 16 drive h stey equipped with quick-release device 20 for attaching the power cable 19 power plants 15.

Chassis 3 motorless mobile cleaning tools 1 and 2, their main and auxiliary technological working bodies are equipped with drives for their movement and rotation.

The drive for moving in the vertical direction of the harvesting parts 14 relative to the frames 4 of non-motorized mobile harvesting equipment 1, 2 is made hydraulic in the form of hydraulic lines 21 with hydraulic cylinders 22, and the drive for rotating the chassis 3 and the main technological working bodies (threshing drum 7, grain separator 8 and straw separator 9) in one embodiment (Fig. 2a) can also be made hydraulic in the form of hydraulic lines 21 and 23 with hydraulic motors 24, 25, 26 and 27. In this case, the drive (Fig. 2a and 2b) of auxiliary working bodies (for example er, fan 10, grain elevator 11, spike elevator 12, unloading screw 13, reaping part 14 and others) are made electric in the form of electric lines 28 with electric motors 29, 30, 31, 32 and 33 with control of their work through the remote control 34 from the control cabin 5. Electrical equipment (headlights and other devices) 35 of each of the non-motorized mobile cleaning equipment 1 and 2 is also controlled using the specified remote control 34.

In another embodiment (Fig. 3a and Fig. 3b), the vertical displacement drive of the harvesting parts 14 relative to the frames 4 of non-motorized mobile harvesting means 1, 2 is also made hydraulic in the form of a hydraulic line 21 with hydraulic cylinders 22, and the drive of rotation of the chassis 3, the main and auxiliary technological working bodies (threshing drum 7, grain separator 8, straw separator 9, fan 10, grain elevator 11, spike elevator 12, unloading screw 13 and reaping part 14) are made electric in the form power line 28 with electric motors 29, 30, 31, 32, 33, 36, 37, 38 and 39 also with the control of their work through the remote control 34 from the control cabin 5. The electrical equipment 35 of each of the non-motorized mobile cleaning equipment 1 and 2 is also controlled using the specified remote control 34.

During periods of downtime of non-motorized mobile means 1-3 (not shown), the power station 15 can be connected via a power cable 19 to carry out lighting or drive equipment at stationary facilities (for example, in animal welfare rooms, currents, warehouses and other industries).

The system of non-motorized mobile means of alternating aggregation with one power plant operates as follows.

To carry out the harvesting of grain agricultural crops aggregation of the power plant 15 with a non-motorized cleaning mobile means 1 of the bunker type (Fig. 2 and Fig. 3).

For this, the machine operator aggregates (constitutes the unit) the carrying chassis 18 of the power plant 15 with the tow hitch 6 of the non-motorized mobile cleaning device 1 with the power cable 19 of the power plant 15 connected to the quick disconnect device 20 of its drive part with the main electric motor 16 and the pump station 17. Then the machine starts up power station 15, the electric current generated by it rotates the main electric motor 16 with the pump station 17 and feeds the electric line 28 of the electrical equipment 25. From the cab control By means of control unit 5, the machine operator, by means of the remote control 34, controls the supply of hydraulic fluid from the pumping station 17 via hydraulic lines 21 and 23 to the vertical displacement drive of the harvesting part 14 by means of hydraulic cylinders 22 and to the rotation drives of the main technological working bodies (threshing drum 7, grain separator 8 and straw separator 9) harvesting non-motorized mobile means 1, and also controls the work of auxiliary technological working bodies (fan 10, grain elevator 11, ear vym elevator 12, the unloading auger 13 and reaping portion 14) by the electric motors 29, 30, 31, 32 and 33.

Using drives of the undercarriage, the main and auxiliary technological working bodies on the harvesting non-motorized mobile vehicle 1, the machine operator controls the technological process of harvesting grain agricultural cultures.

Upon completion of filling the last hopper with grain, the grain is unloaded from it due to the inclusion of the unloading screw 13 in the drive by means of an electric motor 32.

Similarly, the unit is compiled from a harvesting non-motorized mobile device 2 of a hopper-free type with a power plant and its operation when the harvesting process is performed corresponding to the agricultural culture.

The proposed innovations in the system of non-motorized mobile cleaning equipment will significantly increase the operational capabilities of the system by performing work through the use of different types of versions of their rotation drives on mobile cleaning tools of technological working bodies, which ultimately will increase the efficiency of the system and is especially relevant for manufacturers AIC with limited material and labor resources.

Claims (2)

1. A system of non-motorized mobile means of alternating aggregation with one power plant for harvesting crops and other work consisting of several at least two non-motorized harvesting mobile means of bunker and bunker type, consisting of a running chassis, its frame with main and auxiliary technological working bodies for harvesting crops and a towing device, drives for moving the main technological working bodies in the form of hydraulic lines with hydraulic cylinders and rotation drives of the undercarriage, the main and auxiliary technological working bodies in the form of hydraulic lines with hydraulic motors, electrical equipment, a cabin with control over the operation of the latter and the indicated drives, and a power unit as a part of the drive part for the above drives on the frame of each non-motorized mobile cleaning equipment and power plant in the form of an internal combustion engine with an electric current generator and a power cable mounted on a supporting chassis, aggregated alternately with one of the mobile cleaning aids by attaching to its towing device the specified carrier chassis and to its drive part of the power cable of the power plant, which during periods of downtime of these non-motorized mobile cleaning tools can be used to illuminate and drive equipment on a stationary object, characterized in that the part rotation drives main and parts of auxiliary technological working bodies are made electric in the form of electric lines with electric motors, and the drive part of the power unit The innovations at each of the non-motorized mobile cleaning tools are made in the form of a main electric motor with a pumping station connected to the hydraulic lines of the drives and the rotation of its running gear and part of the main and part of the auxiliary technological working bodies, while the electrical equipment of each of the non-motorized mobile cleaning tools is connected to the electric lines of the electric motors of the drives their main parts and parts of auxiliary technological working bodies, and the main electric motors of their drive parts of the power plant with abzheny quick release devices for the connection of the power cable power. 2. A system of non-motorized mobile means of alternating aggregation with one power plant for performing crop harvesting and other work consisting of at least two non-motorized harvesting mobile means of bunker and bunker type, consisting of a running chassis, its frame with main and auxiliary technological working bodies for harvesting crops and a towing device, drives for moving the main technological working bodies in the form of hydraulic lines with hydraulic cylinders and rotation drives of the undercarriage, the main and auxiliary technological working bodies, electrical equipment, a cabin with control over the operation of the last and specified drives, and a power unit as a part of the drive part for the above drives on the frame of each non-motorized mobile cleaning equipment and power plant in the form of an internal combustion engine with an electric current generator and a power cable mounted on a supporting chassis, aggregated in turn with one of the non-motorized mobile harvesting aids by connecting the specified carrier chassis to its towing device and to its drive part of the power cable of the power plant, which during periods of downtime of these non-motorized mobile cleaning equipment can be used to illuminate and drive equipment on a stationary object, characterized in that all the main and auxiliary technological working bodies are made electric in the form of electric lines with electric motors, and the electrical equipment of each of the non-motorized mobile cleaning means connected to said electric lines, wherein the driving part of each of the non-motorized mobile means is designed as a quick-release device for connection to power lines of the running gear drives the main and auxiliary technological working organs - the power plant cable.

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