RU189495U1 - Autonomous electrified section of the circular irrigation machine - Google Patents

Abstract

The utility model relates to agriculture and is designed for sprinkling machines moving in a circle around a fixed support. Autonomous electrified section of a circular action sprinkler containing a water supply pipe mounted on an A-frame supporting trolley, the base of which is a transverse beam, at the ends the wheel gearboxes are mounted, and in the center of the transverse beam an electric motor and a gearbox with two output shafts are mounted on the bracket, connected through Arbor shafts with wheel reduction gears, on the output flanges of which wheels with pneumatic tires are installed, characterized in that a transverse beam is fixed to a sealed shield in which batteries are installed, connected through a charge controller to solar batteries mounted on X-shaped brackets fixed to farm water pipeline, and with an inverter converter, the findings of which are connected to the electric motor through the contacts of the magnetic starter, the coil of which is connected to the device with synchronization of movement to the line of the circular sprinkler.

Description

The utility model relates to agriculture and is designed for sprinkling machines moving in a circle around a fixed support.

Known electrified circular irrigation machine (patent No. 2646909, IPC А01G25 / 09, publ. 12.13.2018, bull. No. 8), containing a central fixed support with a swivel knee and a control panel, sprinkler nozzles, water piping, consisting of successively hinged spans with truss truss stiffness, each span of the pipeline is placed on a self-propelled carriage, equipped with pneumatic tires and electric, characterized in that in the lower part of the fixed support around the circumference mounted monorail on which with the help of several rollers rests the frame of the circular platform, which is placed above the fixed support and rigidly connected to the moving part of the pipeline, solar panels are placed on the circular platform, and in its center there is a vertical axis, the upper end of which is connected to a peripheral area of the circular platform, a vertical wind turbine with an electric generator is mounted on the vertical axis, and in the lower part of the frame of the circular platform there are compartments in which azmescheny batteries, rechargeable by solar panels and a wind turbine generator.

The disadvantage of this device is the high consumption of materials and a low value of the efficiency of the source of electricity.

The closest in technical essence to the utility model is an energy-saving support trolley of an electrically driven wide-scope irrigation machine (patent No. 135488, IPC A01G25 / 09, publ. 12/20/2013, bull. No. 35), consisting of a water supply pipeline, which is installed on the support carriages, consisting of an A-frame, the base of which is a transverse beam, at the ends of which are mounted wheel gearboxes and in the center of the transverse beam on the bracket are mounted an electric motor and gearbox with two output shafts, via drive shafts with wheel reduction gears, on the output flanges of which wheels with pneumatic tires are installed, the output of the electric motor is connected to the inlet of the planetary mechanism, and the output shafts of which are connected to the cardan shafts, while the pneumatic tires are mounted on the wheels of the supporting carriage with a counter tread pattern .

The disadvantage of this utility model is that the share of energy consumption for powering the electric drive of the trolley does not decrease at this location of the wheel tread, but in some cases increases.

The technical task of the utility model is to reduce the total energy consumption for irrigation by sprinkling.

This problem is solved in an autonomous electrified section of a circular action sprinkler containing a water-supply pipeline mounted on an A-frame supporting carriage, the base of which is a transverse beam, at the ends of which wheel-mounted gearboxes are mounted, and in the center of the transverse beam an electric motor is mounted on the bracket and gearbox with two output shafts, connected via cardan shafts with wheel reducers, on the output flanges of which wheels with pneumatic wheels are installed us, characterized in that a transverse beam is fixed to a sealed shield in which batteries are installed, connected via a charge controller to solar panels mounted on X-shaped brackets fixed to the farm of the water supply pipeline, and to an inverter converter whose terminals are connected to an electric motor through the contacts of the magnetic starter, the coil of which is connected to the device of synchronization of movement to the line of the circular irrigation machine.

The technical result of the proposed design is that the electric motor is powered through an inverter converter from rechargeable batteries that are recharged from solar panels, which saves energy and reduces energy costs.

The difference from the prototype is that the autonomous electrified section of the circular irrigation machine includes a sealed shield with batteries, which are connected via a charge controller to solar panels mounted on X-shaped brackets fixed to the farm of the water supply pipeline and to an inverter converter, conclusions which is connected to the electric motor through the contacts of the magnetic starter, the coil of which is connected to the device of synchronization of movement to the line of the sprinkler circular action.

The autonomous electrified section of the circular irrigation machine is shown in three figures: FIG. 1 is a general view of a circular action sprinkler section; FIG. 2 - section view from the side; FIG. 3 - block diagram of the connection elements. It consists of a water conducting pipeline 1, a supporting carriage 2 from an A-frame 3, a transverse beam 4, wheel gearboxes 5, an electric motor bracket 6, a gearbox 8 with two output shafts, cardan shafts 9, wheels 11c with pneumatic tires 12, a sealed shield 13s batteries 14, connected through a charge controller 15 with solar panels 16 installed on the X-shaped brackets 17 attached to the farm 18 water supply pipe 1, and with an inverter converter 19, the findings of which are connected to an electric motor 7 through the contacts 20 of the magnetic starter 21, the coil 22 of which is connected to the device 23 synchronization of movement in the line of the pivoting machine of circular action.

The autonomous electrified section of the circular dozer is working as part of the dozer as follows. The dozhdevalny car gathers from several sections in the form of a direct beam. The movement of the sprinkler is carried out by moving the support carts 2 from the A-frame 3, the base of which is a transverse beam 4, by transmitting the rotation to the wheel gearbox 5 from the electric motor 7 and the gearbox 8 mounted on the bracket 6 through the drive shafts to 9 wheels 11 with pneumatic tires 12. The power of the electric motor 7 is supplied from the batteries 14 installed in the hermetic shield 13 through an inverter converter 19, which converts direct current into alternating current. The motor 7 is controlled through the device 23 synchronization movement in line by turning on / off the power of the coil 22 of the magnetic starter 21, the contacts 20 of which are connected to the electric motor 7 and the inverter converter 19. Charging the batteries 14 through the charge controller 15 from solar panels 16, which are installed on the X-shaped brackets 17 of the farm 18 of the water supply pipeline 1. Thus, receiving partially or completely electricity from solar panels to recharge the battery batteries, a separate section of the sprinkler is autonomous.

Claims (1)

An autonomous electrified section of the circular irrigation machine, containing a water supply pipe mounted on an A-frame supporting carriage, the base of which is a transverse beam, mounted on the ends of which are wheel gearboxes, and in the center of the transverse beam, an electric motor and a two-output gearbox are mounted on the bracket shafts connected via cardan shafts with wheel reduction gears, on the output flanges of which wheels with pneumatic tires are installed, characterized in that A transverse beam is fixed to a sealed shield in which batteries are installed, connected through a charge controller to solar batteries mounted on X-shaped brackets fixed to the water supply truss and to an inverter converter, the leads of which are connected to an electric motor through the contacts of a magnetic starter, coil which is connected to the synchronization device of movement to the line of the circular irrigation sprinkler.

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