RU2033042C1 - Hatchery with thermal ionic ventilation - Google Patents

Abstract

FIELD: poultry farming. SUBSTANCE: hatchery has an additional wall dividing it into two chambers. The chambers are open to each other by means of horizontal openings open or closed with shutters. One chamber is not heated, and the other is provided with ionizing electrodes. EFFECT: improved hatchability. 1 dwg

Description

 The invention relates to poultry, in particular to incubators of small capacity, intended for use in personal, subsidiary and farms.

 A well-known incubator containing a thermostated housing with egg trays placed in it, blocks for stabilizing temperature and humidity, a mechanism for turning the trays.

 The disadvantage of this incubator is unsatisfactory sanitary and hygienic conditions inside the housing, due to the lack of an organized ventilation system of the internal volume of the housing.

 A device of an incubator is known in which a fan is introduced in addition to the indicated elements (Model-designer, 1989, No. 8, p. 23).

 The disadvantages of this device are design complexity, increased power consumption.

 A common drawback of both devices is a decrease in the level of air ionization inside the incubation chamber due to air contact with the elements and contents of the chamber and the absence of special devices to compensate for ionization losses or additional ionization of the air environment of the incubator chamber.

 A device is known for the outlet incubator (A.S. N 1192755, class A 01 K 40/00, 1984), where this drawback is partially eliminated by installing a recirculation fan with a control unit, an ozonizer and an electrostatic precipitator.

 However, such a solution for an incubator of small capacity is unacceptable due to the complexity and increase in costs for manufacturing and operation.

 The purpose of the invention is the improvement of sanitary conditions due to the circulation of the air in the incubator chamber, its purification and saturation with negative air ions.

 The goal is achieved in that in an incubator containing a thermostatically controlled chamber with egg trays placed in it, a heater with its control unit, a humidifier, a mechanism for turning the trays, an additional wall is installed, forming a vertical box from one of the side walls of the chamber, communicating with the top and bottom cameras with horizontal openings and equipped in the lower and upper zones with external adjustable shutters. In the lower part of the chamber, a retractable frame is installed in which heating elements and ionizing electrodes are fixed, connected to the negative terminals of the high-voltage power supply. The humidifier bath is connected to the positive earthed terminal of the high voltage power supply.

 The drawing shows an incubator incision.

 In a chamber 1 with heat-insulating walls, a bottom, a lid and doors, egg trays 2 are installed, a tray rotation mechanism 3, a humidifier bath 4, heaters 5 with screens 6 protecting the trays from direct radiation from heaters. A thin wall 7 is installed parallel to the side wall of the chamber, forming a vertical box 8 with its fastening elements and the side wall of the chamber 8. The box communicates with the top and bottom of the chamber through openings 9 and 10 in the chamber wall. In the lower and upper zones of the box there are adjustable shutters 11 and 12 for supplying fresh air to the chamber and partial release of warm. Reflectors 13 inside the box prevent the formation of turbulent vortices and reduce the hydraulic resistance of the box. A humidification bath 4 is located at the bottom of the chamber. Heaters 5 and screens 6 are installed in a sliding frame 14. In the upper part of the frame, ionizing electrodes 15 are fixed, which are connected through connectors 16 to the negative terminals of the high-voltage power supply 17. Voltage is supplied to the heaters 5 from the temperature control unit 18 through connectors 19. The humidifier bath connected by a conductor to the positive grounded terminal of the power supply 17.

 The system of circulation and ionization of air in the incubator operates as follows.

 Warm air from the heaters 5 rises to the upper part of the chamber 1, washing the egg trays, and through the opening 9 enters the “cold” box 8. The air density increases due to partial cooling and the air tends to the lower zone through the opening and through the opening 10 to heaters 5. Thus, the circulation of air flow through the circuit is established. heaters upper opening of the chamber duct lower opening heaters. In this case, the ion blasting of ionizing electrodes is an additional inducer of air flow through the cross section of the frame 14, and at those times when the temperature control unit turns off the heaters, the only one, apart from the natural convection of the closed loop formed by the "warm" chamber and the "cold" box.

 The participation of ionizing electrodes in the air circulation of the incubator is not their only purpose. Their other task is to saturate the air of the chamber with negative air ions, which brings the embryonic development of chickens closer to natural conditions.

 The concentration of ions on the plumage of hens is about 100 times higher than the background, and on the plumage of hens, the concentration of air ions is higher than that of a non-incubating bird. Aeroionization has a bactericidal effect, reducing the virulence of microorganisms found on the surface of the shell and in the air of the incubator.

 Aeroionization is a stimulating factor that has a positive effect on the embryonic development and hatching of chickens. At the same time, the embryo uses the nutrients of the egg, protein and yolk more intensively. The weight of the embryo increases, the incubation time is reduced by 10-12 hours. The use of ionization increases the hatchability of eggs, reduces the number of "suffocations".

 Aeroionization of eggs during the incubation period has a positive effect on the postembryonic viability of chickens. Chickens hatched from aeroionized eggs have better safety.

 Negative air ions are formed on the main mesh-needle electrode 15 as a result of the bombardment of neutral molecules by electrons flowing from the needles under the influence of a dark electric discharge.

 An additional mesh electrode shifts the radiation pattern toward the main electrode, i.e. in the direction of the trays, making the electrode system more efficient than a single electrode.

 The grounding of the humidification bath 4 and its connection with the positive terminal of the high-voltage power supply unit 17 contribute to the deposition of dust particles, fluff, etc. to the surface of the bath water. Dust and other particles negatively charged on ionizing electrodes, falling into the bath zone with the opposite charge due to electrostatic forces of interaction, are attracted to the water surface and are removed when the bath is washed.

 Due to the fact that aeroionization has a positive effect when storing eggs, the proposed incubator can be used in the incubation periods for storing eggs selected for incubation.

Claims (1)

 THERMOIONIC VENTILATED INCUBATOR containing a thermostatic chamber with egg trays placed in it, heaters and a humidifier with control units, a tray rotation mechanism with a control unit and a power supply unit, characterized in that the thermostatic chamber is provided with an additional side wall with its fastening elements to the main a wall mounted on the outside parallel to it and forming a vertical box together with the fastening elements, while the additional wall is made at the top and bottom with shutters and reflect li, and the box is in communication with the thermostatic chamber through horizontal openings made in the upper and lower parts of the main wall, the lower part of the thermostatic chamber is equipped with a horizontal mounted frame with heaters, protective shields and ionizing electrodes placed on it, connected to the negative terminals of the power supply whose positive earthed terminal is connected to the humidifier.

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