RU2063683C1 - Incubation method and incubator - Google Patents

Abstract

FIELD: aviculture, in particular, artificial rearing of agricultural young birds. SUBSTANCE: method involves heating eggs placed in trays while periodically turning them through 180 deg, with heaters being positioned so as to embrace eggs from top and bottom. Heating is conducted by heaters positioned above eggs. Incubator has heaters made from resilient current-conductive fabric adjoining eggs from top and bottom. Eggs are retained in trays by rubber pressure members formed as cords. Incubator has heater and tray turning mechanism control device. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 3 cl, 5 dwg

Description

 The invention relates to agriculture, in particular to methods and devices for hatching poultry.

 In industrial and domestic incubators, a convective-radiation method of heat transfer from heaters to hatchable eggs is used [1-3] However, this heating method differs significantly from the conditions of egg heating during natural incubation, which ensures, as you know, the highest hatchability of eggs (almost 100% ) and the vitality of bred young animals.

The eggs in the nest are heated by the body of a brood hen, i.e. contact way. In this case, only the upper part of the surface of the eggs is heated. Moreover, the brood hen regularly turns and replaces eggs, inflicting multiple one-sided thermal effects on them with his body. Simulation of the same thermal effects on the incubated eggs in order to increase the hatchability of eggs and the viability of young animals can also be achieved during artificial incubation, using instead of a hen, for example, an elastic heater made of an electrically conductive fabric that well fits (like the hen's body) part of the upper half of the surface horizontally located in egg tray. Having two heaters in each tray, when turning the egg trays 180 ^o, it is necessary to turn off the heaters resulting from turning from the bottom of the eggs, and turn on those heaters that will heat the eggs in their new position from above, simulating the thermal effect of the hen on the eggs after they turning.

 Closest to this invention (prototype) is a home incubator described in [4]. Its design includes a chamber with a heater and a humidifier, a temperature controller with a temperature sensor, an egg turning device with a time relay and a reversing motor, and a control unit for turning over the mechanism.

 A disadvantage of the known incubator is the use of the same convective-radiation method for heating eggs that is used in industrial and other types of home incubators [1-3 In addition, mechanical rolling of eggs can damage their shells, which is unacceptable during incubation.

The invention is aimed at eliminating the disadvantages of the prototype. It ensures the identity of the conditions for heating eggs during natural and artificial incubation, i.e. replaces the convective-radiation method of egg heating used in the prototype with contact heating, which simulates the same thermal one-sided effect on the incubated eggs, which is applied to them in the nest by a brood hen. In addition, rolling eggs is replaced by turning them together with the tray where they are fixed. This goal is achieved in that the eggs are heated periodically by a contact method using heaters that fit eggs horizontally located in the trays, moreover, the surface of the eggs is heated unilaterally by the heater located on top of the eggs, and the trays with eggs are also rotated 180 ^° periodically.

 The specified method is implemented using an incubator, which contains in each tray two heaters made, for example, of flexible electrically conductive fabrics, covering part of the surface of the incubated eggs, clamping devices, for example, in the form of rubber bands, and a control device for periodically turning the egg trays and switching heaters, and it includes heaters located on top of the eggs, and turns off the heaters, which turned out as a result of turning the trays from the bottom of the eggs.

 The invention is illustrated by drawings, where figure 1 shows a General view of the incubator from the side, figure 2 is a separate tray with eggs (top view); in FIG. 3 arrangement of incubated eggs between two heaters (side view); in FIG. 4 section of a tray with eggs along section AA; in FIG. 5 is a view of the side wall of the tray (arrow B), when the pressure devices (for example, rubber bands) are removed. Positions indicate: rotary frame 1; incubated egg trays 2; eggs 3; heaters 4; clamping devices 5; current leads 6; contact plates 7; half shafts 8; reverse engine 9; control unit 10; incubator body 11; ventilation holes 12; humidifier 13.

The main element of the incubator is the rotary frame 1, into which trays 2 with incubated eggs 3 are inserted. Each tray is equipped with two elastic (for example, fabric) electric heaters 4, which come in contact with part of the surface of the eggs. To ensure the fit and good thermal contact between the heaters and the incubated eggs, as well as to fix the eggs in the trays when turning the latter, the proposed incubator contains clamping devices, for example, rubber bundles 5. To prevent the bundles from moving, special slots are made in the side walls of the trays (Fig. 5). The current to the heaters is supplied using current leads 6. Electrical contact plates 7 are mounted on each heater (see FIG. 2), which ensure a uniform distribution of current in the heaters, and, consequently, their uniform heating. The current leads are connected to the plates 7 using the terminals K1.K4 (Fig. 2 and 3). Two axle shafts 8 are attached to the rotary frame 1 (Fig. 1). The latter can rotate freely, providing a rotation of the frame with the trays (and therefore, located in the egg trays) by 180 ^o . Current leads have a margin in length and therefore do not interfere with the indicated rotation. One of the semiaxes is connected to the reversing engine 9. The engine 10 controls the engine, supplies the heaters and switches them. The rotary frame 1 with trays 2 is located in the incubator body 11, which has ventilation holes 12. A humidifier 13 is located in the body, which maintains the necessary humidity incubation mode.

The incubator, implementing the proposed method of incubation, works as follows. The control device 10 supplies a voltage for a predetermined time interval (for example, 0.5 hours) to heaters that are in contact with the upper part of the surface of the incubated eggs. After the specified time interval, the control device 10 sends a signal to the engine 9, which rotates the frame 1 by 180 ^o , while switching the heaters - the heaters that turn out from the bottom of the eggs are turned off and the heaters that are on top of the eggs are turned on. The frame is rotated and the heaters are switched periodically at a predetermined time interval. The voltage supplied to the heaters, provides heating of the latter to a temperature that is usually the body of the hen (for example, 41 ^o C). In the last days of incubation (the period of young growth), the trays are not rotated and the upper heaters are removed, and the eggs are heated in this period by the lower heaters.

 The proposed method and the incubator implementing it can not only improve incubation results, but also provide energy savings, since the heat generated in electric heaters is directly (by contact) supplied to the eggs to be incubated, and in addition, the present invention does not have a fan (it is necessary element of all industrial and most home incubators), consuming a significant amount of electricity. The authors tested individual nodes of the invention, which showed the correctness of the technical solutions.

Information sources:
1. Tretyakov N. P. Bessarabov B.F. Krok G.S. Incubation with the basics of embryology. M. Agropromizdat, 1990.

 2. Burtov Yu. 3. Goldin B.C. Krivopishin I.P. Egg Incubation: A Guide. - M. Agropromizdat, 1990.

 3. Kabakova T. What you need to know about incubation. Poultry farming, 1993, N 4. S. 20-21.

 4. USSR author's certificate N 1037898. Home incubator, cl. A 01 K 41/00, 1993. (Published in Bulletin N 32, author S.L. Plavinsky) prototype. YYY2 YYY4

Claims (2)

1. A method of egg incubation, including maintaining humidity and temperature control in an incubator with periodic rotation of the eggs, characterized in that the temperature control is carried out by periodically turning on the heating of the eggs by contacting the heaters on top and bottom of the surface of the eggs located in the trays, and heating is carried out on that part of the surface eggs, in which the eggs in the tray are facing up, and the rotation of the eggs is carried out periodically by 180 ^o along with the trays.  2. An incubator comprising a case with a thermostatic chamber, in which egg trays with trays turning mechanism are placed, heaters, a humidifier placed under the trays, characterized in that the heaters are made of flexible conductive fabric and are installed with the possibility of holding the surface of the incubated eggs above and below in each tray and contain clamping devices made in the form of rubber bands, the mechanism for turning the trays is equipped with a device for controlling the frequency of rotation of the trays and switching heaters.

Images