RU2806137C1 - Method of placing temperature sensor in the incubator - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is related in particular to methods for reproduction of poultry in automatic incubators. The temperature sensor is placed on the rack for mounting, along the trays with hatching eggs, directly in the area of incubation at a distance of not more than 50 mm from the roof of the incubation chamber so that it does not touch the shell of the hatching eggs. A protective casing is installed, which is made in form of a hemisphere and has its concave part aligned against the temperature sensor, so that there is a gap between the concave part of the protective casing and the temperature sensor, cutting off the air flow coming from the fan. The temperature sensor is connected via cable to the automatic control system. The rack for mounting the temperature sensor and the protective cover are made of plastic. The height of the protective casing is not more than 130 mm.

EFFECT: invention provides an increase in the reliability of taking temperature readings in an incubation chamber.

1 cl, 2 dwg

Description

The invention relates to agriculture, in particular to methods for the reproduction of poultry in automatic incubators.

An industrial incubator is a relatively complex facility. Its temperature fields have spatial heterogeneity and depend on the location of heaters, coolers, internal heat generation (metabolic heat of hatching eggs of poultry), as well as environmental influences. In this regard, the location of temperature sensors in the incubation zone is very important, since their incorrect location can lead to unreliable temperature readings, which entails a decrease in the percentage of poultry hatchability. Therefore, the temperature regime is maintained within strict limits and the result depends on the method of measuring the temperature in the incubation zone.

It is known that to check the temperature, mercury medical thermometers are used, which are secured using, for example, tape or adhesive tape, so that the cone is at the level of the upper hatching eggs, which is quite dangerous, since the thermometer cone can be damaged and mercury spilled. To attach medical thermometers, it is necessary to open the incubator, therefore, temperature measurement may be unreliable, since air from outside (both colder and warmer) gets inside the incubator, and before taking readings from the thermometer, you need to wait 10-15 minutes until the temperature will gradually settle.

It is known that when using medical mercury thermometers, the latter “remember” the highest possible temperature, and the reading of temperature data may also be unreliable. Therefore, to take more reliable readings in such incubators, several thermometers are used, which are fixed in different places, while errors cannot be avoided, and the permissible temperature deviation from the specified values can exceed 1°C, which means the optimal hatching of young animals depends on the method of temperature measurement inside the incubator.

Today, all modern incubators are equipped with digital temperature control devices, consisting of a sensor and a programmable unit. An electronic temperature sensor is a device, inside of which there is, for example, a substance that changes its resistance with temperature fluctuations. The use of sensitive sensors and processor processing of the signals coming from them makes it possible to control the temperature in the incubation chamber with high accuracy, however, without taking into account the zones of homogeneity and heterogeneity of temperature fields, which are influenced by the temperature in the room, the thermal conductivity of the walls and roof of the incubation chamber and the air flow from the fan, which creates swirls.

The technical objective of the present invention is to increase the reliability of temperature readings, and therefore to increase the percentage of hatchability of young poultry due to constant monitoring of temperature readings in an automatic incubation chamber.

The technical result is achieved by placing the temperature sensor on a mounting stand, along the trays with hatching eggs, directly in the spatial incubation zone at a distance of no more than 50 mm from the roof of the incubation chamber so that it does not touch the shells of the hatching eggs. A protective casing is installed, which is made in the form of a hemisphere and is positioned with its concave part towards the temperature sensor, so that there is a gap between the concave part of the protective casing and the temperature sensor, cutting off the air flow coming from the fan. The temperature sensor is connected via a cable to an automatic control system. The stand for mounting the temperature sensor and the protective casing are made of plastic, and the height of the protective casing is no more than 130 mm.

When placing the temperature sensor below the zone of temperature inhomogeneity, which occurs closer to the roof of the incubation chamber, the protective casing, cutting off the air flow coming from the fan, prevents air turbulence near the temperature sensor, while the resulting drops of moisture do not reach the temperature sensor, and therefore do not reduce the temperature air in close proximity to it, thereby facilitating optimal temperature readings. The tip of the temperature sensor does not touch the protective casing, which means that the air flow flowing around the sensor has a more equilibrium temperature, which also contributes to the objective reading of temperatures, while the stand and protective casing are made of plastic and do not affect the temperature of the air flow as a whole, as if they were made, for example, of metal.

The invention is illustrated by the drawing.

In fig. 1 shows the placement of a temperature sensor in an automatic incubation chamber;

In fig. 2 - bottom view,

Where

1 - stand for mounting the temperature sensor;

2 - temperature sensor;

3 - protective casing for cutting off the air flow coming from the fan. The casing 3 is made in the form of a hemisphere and is placed with its concave part towards the temperature sensor 2;

4 - technological hole;

5 - cable;

6 - temperature sensor mount;

7 - roof of the incubation chamber.

The stand 1 and the protective casing 3 are made of plastic and are located perpendicular to the lid of the incubation chamber.

Temperature sensor 2 is fixed horizontally to the roof of the incubation chamber - perpendicular to stand 1.

The height of the protective casing 3 is no more than 130 mm. Temperature sensor 2 is mounted on stand 1 at a distance of no more than 50 mm from the roof of incubation chamber 7.

The invention is implemented as follows.

After fixing the stand 1, the protective casing 3, the temperature sensor 2 is connected through the technological hole 4, via cable 5, to an automatic control system with the specified incubation temperature parameters embedded in it. Hatching eggs are laid and the incubation process is started.

Temperature sensor 2 is placed directly in the spatial incubation zone along the trays with hatching eggs so that it does not touch the upper edges of the hatching egg shell and does not reach the protective casing 3, below the zone of temperature inhomogeneity, which is affected by room temperature, thermal conductivity of the walls and roof of the incubation chamber , as well as the air flow from the fan, which creates turbulence, and when water is supplied for cooling when metabolic heat is released during incubation - to prevent droplets from hitting the temperature sensor 2.

When the fan is turned on during the incubation process, casing 3 protects temperature sensor 2 from turbulence of the air flow, while simultaneously protecting the sensor from splashing water, while the air flow moves freely around the temperature sensor due to the presence of a gap between the sensor and the protective casing.

This ensures the reliability of temperature readings inside the incubation chamber. In this case, temperature sensor 1 continuously transmits data via cable 5 to the automatic control system, and if the temperature deviates from the specified incubation parameters, the automatic system adjusts the technological parameters.

Making the stand 1 and the protective casing 3 from plastic with low thermal conductivity facilitates the most reliable reading of temperature readings, which in turn contributes to a comfortable incubation process.

Information:

Patent No. 2338370, class. A01K 41/00, 2007

Application for invention No. 2018118674, class. A01K 41/00, 2018

Patent No. 181465, class. A01K 41/00, 2018

Patent No. 2329642. class A01K 41/00, 1995

Internet resource https://www.inkubator-inkubator.ru/stati/poleznaya-informaziay/metodika-izmereniay.

Claims (1)

A method of placing a temperature sensor in an incubator, characterized in that the temperature sensor is placed on a mounting stand, along trays with hatching eggs, directly in the spatial incubation zone at a distance of no more than 50 mm from the roof of the incubation chamber so that it does not touch the shells of hatching eggs, install a protective casing, which is made in the form of a hemisphere and is positioned with its concave part towards the temperature sensor so that there is a gap between the concave part of the protective casing and the temperature sensor, cutting off the air flow coming from the fan, the temperature sensor is connected via a cable to an automatic control system, a rack for The temperature sensor mounts and the protective casing are made of plastic, and the height of the protective casing is no more than 130 mm.

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