CS214517B1 - reading device - Google Patents

Abstract

The invention relates to a device for reading information placed on the body of an animal, usually a cattle. This information is, for example, the size of the feed dose given to the animal after arrival at the milking parlor. The described device solves the given problem by combining photoelectric reflection probes and a metal object detector. The reading device consists of a metal chain fixed on the animal's body and a metal material detector coil placed around the perimeter of the entrance opening to the object, on the upper side of which and on both sides photoelectric reflection probes are fixed. The chain has stabilizing side strips provided with a reflective layer, as well as a target fixed on the upper link of the chain. When an animal passes through the entrance opening with the chain, the metal material detector usually reacts by changing the oscillator frequency, which is evaluated as a logic signal and/or activates the photoelectric reflection probes, the signals of which are fed into the converter. From here, the feed dispenser preselection is controlled, which is reset by pouring the appropriate dose of feed into the trough in the object. The attached figure shows the spatial arrangement of the reading device with a simplified block diagram and a view of the chain attached around the animal's neck.

Description

The invention relates to a device for reading information placed on the body of an animal, usually a bovine animal. This information is, for example, the size of the feed dose given to the animal upon arrival at the milking parlor, etc. Data on the milkability of the animal may also be added.

So far, known and used dosing devices are mainly of two types. The first requires the division of animals into groups according to the size of the feed dose. The groups must be separated from each other and the change in the dose size is done by manual intervention of the milking parlor operator. The second devices, which are not yet used in large numbers, are equipped with an automatic or operated reading device for the serial numbers of the animals. After being read by an automatic device or operator, the animal code is transferred to a computing device and memories, from where the dose size assigned to the animal code is obtained. The disadvantage of the first type of device is the necessity of separating individual groups of animals from each other and the need to operate the dispenser. The disadvantage of the second type of device is the high price, low reliability of the tested systems and high maintenance requirements.

The above-mentioned disadvantages are eliminated by a reading device for information carried on the animal's body, consisting of a metal material detector and photoelectric reflection probes, the essence of which lies in the fact that it is formed by a metal chain fixed on the animal's body, where the metal chain has stabilizing side strips provided with a reflective layer, as well as a target fixed on the upper link of the chain and a metal material detector loop placed around the perimeter of the entrance opening to the object, along the upper dummy and both sides of which a photoelectric reflection probe is fixed.

The main advantages of the solution according to the invention include the low purchase price, especially of the part that is attached to the animal. Therefore, the costs of the entire device are relatively low even for large herds. Another advantage is the minimal maintenance requirement and ease of installation of the device even in stable buildings. The climatic resistance of the device is also favorable. Information carriers - chains can also be used for tying animals, for example during insemination.

• The attached image shows the spatial arrangement of the reading device with a simplified block diagram and a look at the chain attached around the animal's neck.

The animal £ enters the object through the entrance opening 2. It usually has a chain £ around its neck. This is arranged so that it cannot rotate freely around the animal £'s neck. It consists of upper links 11, two stabilizing side straps 4a. 4b and lower links 12 with a free end for tying the animal £ if necessary. A reflective layer £ is attached to the stabilizing side straps 4a. 4b.

This can be attached over the entire surface of the stabilizing side strip 4a.. 4b or is attached only at a selected point of its length. For example, the reflective layer £ can be formed by a round reflective glass, preferably yellow in color, and it is possible to select the height of the reflective glass from the ground by selecting the attachment point on the stabilizing side strip 4a. 4b. In this way, it is possible to achieve an approximate coincidence of the position of the reflective layers £ in all animals £ of the herd. Slight differences of about 10 ohms do not impair the reliability of the device, as they are compensated by the technical capabilities of the photoelectric reflective probes 8, £, £0. To increase the number of logical code combinations, a target 6 with a reflective layer £, directed upwards, is attached to one of the upper links 11 of the chain £. The eye £ of the metal materials detector is placed in the inlet opening 2. A photoelectric reflection probe 8 is mounted on its side A, a photoelectric reflection probe £ on its side B and a photoelectric reflection probe 10 on its top C. When an animal £ passes through the chain £, the metal detector 13 reacts to the presence of the chain £, usually by changing the oscillator frequency, evaluated as a logic signal. This signal activates the photoelectric reflection probes 8, £, £0, so that they simultaneously give logic signals to the converter 14, corresponding to the presence or absence of the reflective layer £ at the corresponding location of the chain £ on the animal's neck. The beam of rays^ of the photoelectric reflection probe 8 falls on the stabilizing side strip 4a. The beam of rays^? of the photoelectric reflection probe £ falls on the stabilizing side strip 4b and the beam of rays^ ⁴ of the photoelectric reflection probe 10 falls on the target £. The beam bundles «ο , never point towards each other in one axis, so as to avoid mutual influence of the photoelectric reflection probes 8, £. The signals from the metal material detector 13 and the converter 14 control the preselection 15 of the feed dispenser, which is reset by pouring the appropriate dose of feed into the trough in the object. At the same time, from the passage of the animal £ through the entrance opening 2 to the pouring of the dose into the trough, the preselection 15 signals the dose size on the display, so that the operation of the reading device can be checked by the operator by comparing the data on the display with the chain design £ of the selected animal £. The device allows a whole series of code combinations. For example, as follows:

- an animal without a chain

\.

- chain without reflective layers

- basic feed ration

- increased feed ration

3 ~ "II" - chain and reflective 4 - - chain and reflective 5 - _ » « - chain (and reflective 6 - - chain and reflective 7 - - chain and reflective 8 - - chain and reflective 9 - — N — - chain and reflective

Alternative solutions allow choosing code combinations according to the most frequent occurrence of the dose size, for example, so that the maximum dose is received by an animal without a chain. In cases where the design parameters of the object allow a longer delay between reading and dosing of feed, it is possible to supplement the device according to the invention with a barrier, closing the entrance to the reading device and also to the object in the interim period from reading the code to pouring in the dose. The barrier can then be controlled either by the dispenser or by an additional animal passage sensor, placed behind the reading device.

Claims (1)

Run-off information device carried on the body of an animal, consisting of a metal detector and photoelectric reflection probes, characterized by a metal chain (3) fastened to the body of the animal, wherein the metal chain (3) has stabilizing side strips (4a, 4b) provided with a reflective layer, just as a target (6) mounted on the upper link of the chain (3), and a metal detector coil (7) mounted around the perimeter of the inlet (2) into the object, on whose upper side (C) and both sides (A, B) is mounted a photoelectric & reflection probe (8,