RU2228025C2 - Farm animals and poultry autodrinking system - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: proposed system contains ejector heads and emptier connected with pulse amplifier and installed on tank-accumulator, and pulsator connected by vacuum lines with ejector heads and fans of room ventilation system, fans and ejector heads being installed in vacuumizing nozzles. EFFECT: provision of quality automatic watering, reduced energy and material usage, enlarged operating capabilities. 1 dwg

Description

The invention relates to agriculture, in particular to systems and devices for mechanizing the process of watering animals. It can be used on livestock farms for keeping livestock and poultry.

A well-known system of watering (VN Tocheny, MA Kolesnikov and others. Heated drinking water on livestock farms. Zernograd, 1979), consisting of input, valve-float device, storage tank, backup system, pump, temperature regulator, water heater , supply pipe, return pipe and car drinkers.

The disadvantage of this system of automatic watering is the presence of a pump designed to circulate water in the system and maintain a given temperature regime, as this increases capital costs and energy consumption, reduces the reliability of the process of watering.

The closest in technical essence to the proposed invention is a water supply system for animals (A.A. Potseluev, NF Shimel and others. Water supply system for animals. Patent for the invention No. 2125791, 1996), containing the inlet pipe, main pipeline, water tank, pulsator, pulse amplifier, flow distributor, valve-float device, system of circulation pipelines and vacuum wires.

The disadvantage of this system is the non-universality of its use in livestock facilities. It can only be used in livestock buildings that have milking installations with a vacuum system.

The present invention solves the problem of increasing the versatility of the system, reducing its metal and energy consumption while improving the quality of the process of auto-drinking.

To achieve this technical result, the system is equipped with ejector nozzles and an evacuator connected to the pulse amplifier and mounted on the storage tank, and the system pulser is connected via the vacuum wires to ejector nozzles and fans of the ventilation system of the livestock building, while the fans and ejector nozzles are installed in vacuum nozzles .

The drawing shows a system of auto-farming of farm animals and poultry.

The automatic watering system includes a supply pipe 1 connected to a valve-float device 2 of a storage tank 3 heated by electrode-type electric heating devices 4 due to thermosiphon circulation of heating water or elemental (TEN) in direct contact with water, main pipe 5, distribution pipe 6 with a temperature sensor 7 and with automatic drinkers 8, a return pipe 9 connected to a distribution pipe 6 and an evacuator 10 mounted on the storage tank 3 and connected via ohm vacuum wires 11 pulsousilitelem 12 and pulsator 13, which by means of a vacuum-wire 11 is connected to the ejector nozzle 14 and mounted in the evacuated nozzles 15, 16 of the ventilation system fan animal houses.

The proposed device operates as follows. Water from the water supply network through the supply pipe 1 through the valve-float device 2 enters the storage tank 3, where it is heated by one of the selected heating devices 4, and through the main pipe 5, the distribution pipe 6 with the temperature sensor 7 is fed to the car drinkers 8. Depending on water consumption and due to heat loss to the environment, the water in the distribution pipe 6 is cooled. When the temperature drops below the level established by the zootechnical requirements, a temperature sensor 7 is activated that controls the operation of the fans 16 of the ventilation system of the livestock building, the latter are included in the operation, and active inlet and outlet air flows are created in the area of the vacuum nozzles 15. When air flows around the ejector nozzles 14, a vacuum is created in the latter, which propagates through the vacuum wire to the pulsator 13. In the pulsator 13, the constant vacuum is converted to pulsating, which through the pulse amplifier 12, the vacuum wire 11 enters the evacuator 10. In the evacuator 10 is alternately created vacuum or atmospheric pressure. If there is a vacuum in the evacuator 10, water from the storage tank 3 through the main pipe 5, distribution pipe 6, the return pipe 9 enters the evacuator 10. If there is atmospheric pressure in the evacuator 10, the water accumulated in the evacuator 10 is poured into the storage tank 3.

The cycling of this process is carried out in the operating mode of the pulsator 13. In this case, the water circulates in a closed circle through the storage tank 3 with a heating device 4, where it is heated and brought to the automatic drinkers 8 warm.

The proposed device allows to reduce the energy consumption of the system by 15 ... 20%, the capital costs of the process by 10-15%.

Along with this, the proposed technical solution, which allows maintaining the temperature of drinking water in the range of zootechnical requirements, helps to increase the productivity of animals and poultry by 5-15% and reduce feed consumption per unit of production to 3%.

Claims (1)

The automatic watering system for farm animals and poultry, including a supply pipe connected to a valve-float device of a heated storage tank, a distribution pipe with a temperature sensor and automatic drinkers, main and return pipes, a pulsator and a pulse amplifier, characterized in that the system is equipped with ejector nozzles and a drainer connected with a pulse amplifier and mounted on a storage tank, the pulsator is connected via vacuum wires to ejector nozzles and fans livestock ventilation system, while the fans and ejector nozzles are installed in vacuum nozzles.