NL1007554C2 - Egg transport installation from laying batteries - Google Patents

Abstract

A counting installation counts the number of eggs transported to the packing point and is formed by a weighing unit (4) installed in the transport direction before the eggs reach the collective conveyor (3). In the weighing unit a continuous electrical signal is produced from which in an analysis apparatus (5) both the weight of eggs from a specific laying battery and the number of eggs passing the weighing unit are derived.

Description

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Title: Egg transport device

The present invention relates to a transport device for eggs from a number of laying batteries to an egg packaging device comprising separate conveyors running from the different laying batteries and a collecting conveyor, as well as a counting device for counting the number to the packaging device. transport eggs.

Although for counting the eggs use can be made of mechanical counting means which then come into contact with the passing eggs, this is very undesirable because the eggs can break as a result. US-A-4,868,901 discloses a device as described in the preamble, in which it has therefore already been proposed to use a sensor to be arranged above the collecting belt, which makes it possible to recognize the eggs passing underneath by successive distance measurements. and counting.

Laying hens normally house chickens of the same age, a curve of which indicates the relationship between the egg size and the age of the chickens. An expected weight of the egg flow is therefore known. In practice, however, there are differences between the weight of the eggs of one or the other battery. These differences are mainly the result of, often minor, differences in climatic conditions in the individual laying batteries or differences in the living conditions or feeding pattern of the chickens in the different laying batteries. With the aid of the egg transport device mentioned in the aforementioned publication, these weight differences cannot be recognized.

It is therefore an object of the present invention to provide a transport device in which this problem is obviated.

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According to the invention, the egg transport device, as described in the preamble, has the feature that the counting device is formed by a weighing element which is arranged in the transporting device before the eggs end up on the collecting conveyor, wherein in the weighing element a continuous electrical signal can be generated, from which signal in a signal analyzer both the weight of the eggs originating from a particular battery and the number of eggs passing the weighing element can be derived.

Counting and weighing the eggs is integrated in this way. The counting of the eggs is particularly important for adjusting the speed of the conveyors; after all, the egg supply can be very irregular. In addition to counting the eggs, it is also important to determine relevant deviations from the expected weight of eggs of a certain battery, especially for the packaging of the eggs. The weighing element can be designed in such a way that it does not come into contact with the eggs, so that breakage can be prevented.

Although the weighing element can be built into the individual conveyors, for example, when they are formed by endless conveyor belts, directly below and in contact with the upper part of this conveyor belt, it is more favorable when the weighing element is arranged on the transition of the individual conveyors to the collective conveyor. The signal delivered by the weighing element is then not influenced by the part of the conveyor belt running along the weighing element in the aforementioned case.

In a concrete embodiment, the weighing element is formed by a load cell known per se. With the aid of such a load cell, a displacement obtained by the weight of the eggs can be converted into an electrical signal. From this signal, the number of eggs passing through the load cell and their weight are determined in the signal analyzer 1007554 3. In principle, the size of the signal is a measure of the egg size and the number of peaks in this signal is a measure of the number of eggs.

The invention will now be further elucidated with reference to the annexed drawing, in which fig. 1 shows a schematic arrangement of an exemplary embodiment of a part of an egg transport device according to the invention, while in fig. 2 one shows in the weighing element possible generated signal is displayed.

The part of the egg transporting device shown in fig. 1 comprises an endless conveyor belt 1, via which eggs are supplied from a laying battery. These eggs are transferred, via a guide plate 2, to an endless collection conveyor belt 3. Although only one conveyor belt 1 is shown, a number of such conveyor belts are present; all these 20 conveyor belts carry eggs from a relevant laying battery to the collecting belt 3. The eggs are led to a packaging device via the collecting belt 3. Underneath or almost against the guide plate 2 is a weighing element 4 in the form of a load cell. In this load cell a continuous signal is generated, from which signal in a signal analyzer 5 both the weight of the eggs originating from a specific laying battery and the number of eggs passing the weighing element 4 can be derived. Since the signal analysis device 5 is provided with a computer, the above-mentioned signal generated in the load cell must of course first be converted into digital form. This conversion can take place both in the electronics of the load cell and in that of the signal analyzer 5.

Fig. 2 schematically shows a possible signal generated in the load cell. In this figure, the signal strength S, which represents the egg weight, is shown against time t. The expected egg size is indicated with Se. As can be seen from Fig. 2, a maximum signal is generated each time an egg passes the load cell; for this maximum signal it always holds that S <Se. Apparently, the conditions in the relevant battery are such that the size of the eggs from this battery is less than expected. When an egg has passed the load cell, the pressure on the load cell decreases until a subsequent egg passes the load cell. When a long time elapses before a subsequent egg passes the load cell, the pressure on the load cell decreases to the value "zero". In the signal analyzer 5, the number of times the signal S reaches its maximum value is counted, and thus the number of eggs of a given laying battery that passes the load cell.

The invention is in no way limited to the exemplary embodiment shown and described here, but includes all kinds of modifications thereof, of course insofar as these fall within the scope of protection of the following claims.

It will be clear that further provisions must be present to prevent eggs from falling off the conveyor belts.

Furthermore, the transport device can be equipped such that two eggs can pass the weighing element at the same time. In that case the signal shown in Fig. 2 has a value twice as high as indicated in this figure.

As already mentioned, the load cell can also be arranged under the top running part of the conveyor belt 1. Other known types of conveyors can also be used instead of conveyor belts. Instead of one load cell, the weighing element can also comprise a plurality of load cells arranged side by side, in which case the eggs can come in several rows side by side from the conveyor belt 1 to the conveyor belt 3. Instead of a load cell, other weighing elements can also be used in which a vertical displacement of the guide plate 5, which takes place under the weight of the eggs, is converted into an electrical signal.

1007554

Claims (3)

1. Transport device for eggs from a number of laying batteries to an egg packaging device, provided with separate conveyors running from the respective laying batteries and with a collecting conveyor, as well as a counting device for counting the number of eggs to be transported to the packaging device, characterized in that the counting device is formed by a weighing element which is arranged in the transporting device before the eggs arrive on the collecting conveyor, wherein a continuous electric signal can be generated in the weighing element, from which signal in a signal analyzer, both the weight of the eggs from a particular battery if the number of eggs passing the weighing element can be derived. 2. Transporting device according to claim 1, characterized in that the weighing element is arranged on the transition from the individual conveyors to the collecting conveyor. Transport device according to claim 1 or 2, characterized in that the weighing element is formed by a load cell. 1007554