NL1019164C1 - Air circulation system for egg incubation chamber, includes return pipe arrangement with blower device, and coupling section containing return and supply pipes - Google Patents

Abstract

A return pipe arrangement (30) transports essentially all of the air that has been passed through the chamber (1) and comprises at least one blower device (5). The return and supply pipes are combined in a coupling section (6) which is located upstream from the air inlet device and is connected to the exit pipes. The system is used to supply, return, freshen and mix air, and comprises an arrangement of exit pipes (31) for removing part of the air volume that has been passed through the chamber, an arrangement of return pipes for returning the remainder of this air volume to at least one inlet device near one of the chamber walls, an arrangement of supply pipes (33) for supplying fresh air to the inlet device, an arrangement of inlet pipes (34) for transporting air from the inlet device into the chamber, and an arrangement of ventilators (4) inside the chamber for circulating air through this chamber.

Description

Device for circulating fluids in a hatching chamber for hatching eggs.

The present invention relates to a device for circulating fluids in a hatching chamber for hatching eggs.

In particular, the invention relates to a device for circulating fluids in a hatching chamber for hatching eggs, such as, for example, the discharge, return, change, and mixing of air, comprising for this purpose, a system of adjustable outlet lines for removal and removal. of a part of the whole of air fed through the hatching chamber, - a system of return conduits for returning the other part of the whole of air fed through the hatching chamber, to be used for reuse, to at least one input member arranged in accordance with one of the Walls of the incubation chamber, - a system of supply lines for supplying fresh air to the said input member, - a system of input lines for introducing air from the input member into the incubator chamber, and - a system of pulsators, placed in the incubator, for circulating the air through the incubator.

Such a device is generally known. The overall air circulation in the incubation chamber, including the discharge, return, change, mixing and supply of air, is achieved by essentially a system of pulsators which are arranged in the incubation chambers, in particular along the walls or between the racks with hatching eggs. In general, heat exchangers are located in the incubation chamber to regulate the temperature of air in the chamber. The incubator is connected to a pipeline system. The volume or portion of air to be replaced is adjusted by means of outlet pipes or 30 (/) valves (therein). In this way, also the portion of air to be returned, as well as the amount of fresh air that is connected via a supply line to the return lines connected to the return, is controlled.

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The passage of a fluid such as air through a hatching chamber has different functions during the hatching process, viz. For chicken eggs, a process of approximately 21 days. This throughput contributes both to the heat balance in the hatching chamber while the percentage of water vapor and in addition the supply of oxygen and the removal of carbon dioxide are essential for the metabolism of hatching eggs.

With devices for circulating fluids, in particular air, through such hatching chambers, maxima of, for example, approximately 250 m 3 / hour can be achieved for the passage thereof. Now that scaling is also relevant in this area of the art, while moreover it appears that the hatching eggs are increasing in size, the devices according to the prior art are no longer sufficient. The maxima no longer appear to maintain the same balances described above. Neither increase in pulsators nor increase in their rotational speed lead to the desired increase in throughput.

In order to provide for this shortcoming, the device according to the present invention is characterized in that the system of return conduits returns all of the air passed through the incubator chamber and comprises at least one blower member, which brings the return conduits and the supply conduits together in a coupling section upstream of the input member and that the outlet conduits extend from the coupling section.

In an advantageous exemplary embodiment, this device is further characterized in that the coupling section further comprises a mixing section for mixing used air and fresh air.

From French patent specification 2728761 a climate control is known which also comprises a system of outlet pipes, return pipes, and supply pipes and in which, moreover, blowing members are included. The climate control shown therein can be seen as a coupling section, and more particularly as a mixing section. It is clearly indicated that the conditioning of the air takes place therein. In order to withdraw this conditioned mixture from the climate control and to enter it into the incubator chamber, a turbine is needed in the conduit which leads to the chamber. Due to pressure drop over the heat exchangers in such a climate device, these are generally high-power turbines.

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As a direct consequence, this gives the room an overpressure with respect to the environment.

In contrast to this document, with the configuration of pipes 5 according to the present invention, underpressure in the breeding chamber relative to the environment is achieved. This is of great advantage for the hygiene in the hatching chambers whereby, according to the present invention, a better separation between the spaces inside and outside the hatching chamber is obtained, with therefore an improved shielding and isolation of possibly present germs. A further noticeable advantage of the present invention is, moreover, that since outside the breeding chamber the mixing is essentially only, the control, namely the mixing section with a single valve, is considerably simpler than the climate control device according to the French document.

In a further embodiment according to the invention, the mixing section 15 is controlled by a sensor for one or more air components, for example a carbon dioxide sensor with which the content of carbon dioxide can be measured which in turn is a measure of the oxygen content that is desired in the chamber.

Further details of the present invention will be explained with reference to Figure 1.

The only accompanying figure 1 schematically shows a breeding chamber and an associated pipe system according to the invention. A hatching chamber 1 has insulating walls 10 to allow eggs 2 which are placed in racks 20 which can be moved on rollers 21 in a suitable climate. In order to control the climate in the trouser room, a pipe system 3 is provided with pipes to and from the breeding chamber, while one or more pulsators 4 are arranged in the breeding chamber. These pulsators, sometimes also referred to as fans, generally distribute air in the incubator. The designation air will in this context stand for a gas mixture with a composition that is comparable to that of air. This may therefore mean that proportionally slightly more or slightly less water vapor, carbon dioxide, oxygen, or nitrogen is included.

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In particular, the pipe system 3 according to the present invention comprises a system of return lines 30 for returning air passed through the hatching chamber, a system of outlet pipes 31 for removing or not removing part of the air fed through the hatching chamber, a system of supply line conduits 33 for supplying fresh air, and a system of input conduits 34 for introducing, for example, a mixture of recirculated air and fresh air into the breeding chamber.

In the system of return lines a blower member 5 is included which acts as a suction member for the air to be returned. Since this suction takes place in a targeted manner, that is to say where the return lines leave the hatching chamber, this configuration will advantageously be able to clearly increase the maximum amount of air to be passed per unit of time. An increase to 800 m3 / hour has therefore proved feasible.

In a coupling section 6 the systems are connected to each other. In particular, the coupling section comprises a mixing section 60 in which the mixing ratio of the amount of fresh and recirculated air that is intended for the incubation chamber is further controlled. Thus, the amount of recirculated air to be discharged via the outlet lines is hereby set.

This air mixture is fed via an input device 32, generally a central line, to the above-mentioned system of input lines 34. This system can also provide a single central entrance to the breeding chamber, or also several entrances, partly depending on the placement of the single or multiple pulsators.

The mixing section is formed by, for example, an adjustable diagonal valve member. The setting thereof, also according to the present invention, can be controlled by a sensor signal. It has been found that the amount of carbon dioxide in the mixture to be supplied is a suitable parameter for this. that the mixing section is controlled by a sensor for one or more air components.

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It will be clear to any person skilled in the art that simple variants of the diagram shown must be understood in the claims below.

For example, in addition to fresh air lines, the system of supply lines may also comprise lines with air which contains an excess of acid or any other gas, or even lines which supply gases in their pure form, or even medicines in the form of gas. All types of mixing sections can be used for the mixing section as is customary in the gas treatment technique.

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Claims (5)

1. Device for circulating fluids in a hatching chamber for hatching eggs, such as, for example, discharging, returning, refreshing, and mixing air, comprising for this purpose, - a system of adjustable outlet pipes for discharging and removing a part of the whole of air fed through the hatching chamber, - a system of return conduits for returning the other part of the whole of the air fed through the hatching chamber, to be used for reuse, to at least one input member arranged in accordance with one of the walls of the hatching chamber, - a system of supply lines for supplying fresh air to said input device, 15. a system of input lines for introducing air from the input device into the hatching chamber, and - a system of pulsators, placed in the hatching chamber, for circulating of the air through the incubation chamber, characterized in that the system of return lines is returns all of the air passed through the incubation chamber and comprises at least one blower member, which brings the return lines and the supply lines together in a coupling section which is arranged upstream of the input member, and that the outlet pipes extend from the coupling section. 25 Device according to claim 1, characterized in that the coupling section further comprises a mixing section for mixing used air and fresh air. Device according to claim 2, characterized in that the mixing section is controlled by a sensor for one or more air components. Device as claimed in claim 3, characterized in that the sensor comprises a carbon dioxide sensor. Device according to one of the preceding claims, characterized in that the system of supply lines supplies at least fresh air. i t