FR3024328A1 - SYSTEM FOR MONITORING ANIMAL WATER SUPPLY - Google Patents

Abstract

The present invention relates to a system for controlling the supply of water to animals, with several connected drinkers, connected to a water supply network and with a control by an animal identified to deliver a quantity of water and the measurement the quantity of water delivered for each animal identified, said system considering the management of the quantities of water delivered measured for each animal, in management calculating a comparison of an average of several quantities of water delivered measured with respect to at least a predefined threshold adapted to each animal. Said management means automatically modify said threshold at least according to data specific to each animal.

Description

The present invention is in the field of breeding animals and controlling the fluid supply of said animals, preferably the water supply. The present invention will find preferential, but in no way limiting, application in the field of animal husbandry of animals such as horses, cattle, pigs or sheep. For this purpose, the invention aims at a system for controlling the supply of water to animals. In known manner, the breeding of animals, particularly agricultural animals, requires supervising their diet, especially with regard to the amount of fluid ingested, such as water. Indeed, depending on the amount of water ingested, it is possible to detect abnormal behavior of an animal, or even a possible deficiency or disease. It is therefore essential to control the water supply of each animal on a farm. In addition, the water consumption of an animal fluctuates according to environmental parameters, such as the weather, in particular temperatures and hygrometry. Indeed, in dry weather and hot, an animal will tend to drink more than in cool and wet weather. Furthermore, an animal may be absent from the usual watering place, supervised, for example for a period of activity, or for any displacement. It is then necessary to take into account his absences, so as not to distort the control of his diet. In fact, in case of absence, no quantity of water is consumed, which can distort an average time over quantities delivered when the animal is present. In addition, under certain conditions, such as in the horse industry, it is also necessary to limit the water consumption of an animal, for example to maintain its performance for a sporting event, such as a race. Currently, there are water supply devices, watering type, directly accessible to animals who themselves actuate organs in order to deliver into a receptacle a quantity of water from which it drinks. It is therefore necessary to know this amount of water for each animal that drinks. In the case of a device positioned at a pen receiving a single animal, such as a box for a horse, the control is easy since it is possible to bind the animal and the box it occupies. In the case where one or more devices are arranged at a pen receiving several animals, it is then necessary to identify each animal in a unique way, when it comes to drink and identify the amount of water delivered . To do this, detection and identification systems are set up, in particular in the form of antennas emitting a detection signal of a unique recognition element carried by each animal, for example using radio frequencies, such as RFID (for "Radio Frequence IDentification"), with an RFID tag carried by each animal. Thus, it is possible to uniquely identify each animal, on a given area, preferably near each drinking trough. A global management system makes it possible to coordinate the herd of animals and the identification of each animal. Thus, several drinking troughs, dedicated to several animals, or even to several herds of different animals, can be supervised within a farming complex. It is then possible to follow the consumption, or rather the distribution, in water of each animal, identified, which activates a watering place. To do this, each waterer integrates a flow meter, measuring the amount of water delivered. By matching the identified animal that activates the waterer, we obtain the quantity of water delivered and its theoretical consumption, which can be recorded and analyzed. Many existing systems describe such techniques, as in US 2007/125307.

The present invention aims to overcome the disadvantages of the state of the art, by proposing a system for controlling the supply of water to animals. The system according to the invention comprises supervisory means and several drinking devices equipped with communication means connected through a communication network to said supervision means, each drinking trough being connected via a connection to at least one network of water supply and being provided with at least control means by one of said animals to deliver a quantity of water and means for measuring the quantity of water delivered, said system further comprising means of unique identification of each animal to time of its watering, so that said amount of water delivered for each order of each animal and measured is matched with said animal identified and is transmitted to said supervision means, the latter comprising software means for managing the quantities of delivered water measured for each animal, said management means calculating for each animal at least one compared at least one metered quantity of measured water or at least one average of several quantities of water delivered measured with respect to at least one predefined threshold adapted to each animal. Such a system is characterized in that said management means automatically modify said threshold at least according to data specific to each animal. These particular data can in particular correspond to the sex of each animal, to a physiological stage (for example: young or adult), a state of health or a veterinary follow-up. It is thus possible, from these data, to change the settings for triggering alerts, for example if the watering of a given animal would correspond to an alarming situation when it is not, preventing triggering an alert, for example, for watering conditions indicative of an imminent birth while the animal identified is a juvenile or a male.

Thus, it is possible to supervise the consumption of an animal according to the conditions it undergoes, especially climatic conditions, such as temperature and high temperatures, but also depending on the humidity.

In addition, according to other additional, nonlimiting features, said management means may comprise means for informing the presence or absence of each animal and in that said management means automatically take into account the absence of each animal in relation to its presence, over at least a given period, so as to modify the calculation of each average. In other words, it is possible to manually inform a user at the level of said management means or automatically via the detection made by the identification means, if an animal is present or absent and, when calculating the average , to take into account these absences so as not to distort the comparison with the threshold to be determined. In addition, said system may include means for recording environmental conditions experienced by each animal including at least temperature. Therefore, said management means automatically modify said threshold according to the recorded environmental conditions. Preferably, said conditions also include a hygrometry record. Each drinking trough may further comprise means for cutting off said connection to said supply network, in the form of a solenoid valve whose closing actuation is controlled by a signal transmitted from said supervision means, said solenoid valve being automatically in position when it is not ordered or supplied with electricity. Thus, if one of the means implemented within said system is faulty or if one of the waterers is disconnected, or again if there is a power failure, the solenoid valve automatically returns to the open position, allowing an animal to drink. Other characteristics and advantages of the invention will emerge from the following detailed description of non-limiting embodiments of the invention.

The present invention relates to a system for controlling the supply of water to animals. In particular, such a system aims to individually monitor the consumption of each of said animals. To do this, such a system comprises supervision means and several drinking devices equipped with communication means connected through a communication network to said supervision means. The supervision means then allow to collect centrally all the water consumption data of each waterer.

Each drinking trough is connected via a connection to at least one water supply network. Additionally, each drinking trough may comprise means for cutting off said connection to said supply network, in the form of a solenoid valve whose closing actuation is controlled by a signal transmitted from said supervision means, said solenoid valve being automatically in the open position when it is not ordered or supplied with electricity. Thus, in the event of failure of one and / or the other element of the system, or even of a general power cut, the solenoid valve automatically switches to the open position, allowing the flow of water within from his watering place. In addition, each drinking trough is provided with at least control means by one of said animals to deliver a quantity of water. These means allow an animal to control the opening of an outlet valve, delivering a quantity of water into the trough. Each waterer then comprises means for measuring the quantity of water delivered. These measuring means may be at least in the form of a flow meter, preferably electronic. Such a flow meter is then between the connection to said water supply network and said outlet opening into the drinking trough. Thus, it is possible to know, at each moment and over a period of time measured the quantity of water delivered. In particular, a measured period of time may correspond to the duration of actuation by a given animal, namely the duration during which an animal controls the opening and receives a quantity of water. As such, it is then possible to compare the amount of water delivered and the amount of time, relative to a given flow, to determine if the waterer is working properly or if it is damaged, delivering too much or not enough of water. Said system also comprises means of unique identification of each animal at the time of its watering. Thus, it is possible to recognize each animal that controls the opening and comes to drink. The term "unique" refers to a certain identification of a specific animal. Each supervised animal is recognized by the system without confusion with another animal. According to the preferred embodiment, which is nonlimiting, the identification means use RFID technology, the animal carrying a passive element, integrating a unique identification number, activated by a radio signal emitted by at least one antenna, of preferably located adjacent to each drinking trough so as to limit the detection field to the drinking trough in question. According to another alternative or complementary possibility, said identification means may be integrated with management means, in particular software, enabling the identity of an animal to which a box is assigned to be manually entered. It is also possible to manually enter his presence or absence, namely the time periods in which he is in or out of his box. Thus, said quantity of water delivered for each order of each animal and measured at the time of its delivery, is matched with said identified animal and is transmitted to said supervision means. Said supervision means comprise software means for managing the quantities of water delivered measured for each animal. These means make it possible for each animal to check its theoretical consumption. To do this, said management means calculate for each animal at least a comparison of at least a measured quantity of measured water or at least an average of several quantities of water delivered measured with respect to at least one threshold. predefined and adapted to each animal. First, it is possible that the control of a drinking trough is damaged, blocked or that an animal actuates it continuously, in this case, the water continues to flow and the quantity measured can exceed a threshold of alert, indicating the problem. As such, said system can be provided with alarm means at the levels of said management means, but also at each waterer. It is then possible to send a signal triggering a visible alert via said alarm means, for example in the form of an indicator light and / or an audible signal, a message displayed on a screen of which provided with the means of supervision, or even transmitted remotely to a terminal to a user. Other data may be added to the alert, such as the location of the waterer and / or the animal in question. In addition, it is possible for a suffering animal to drink more or less water than is recommended, exceeding a pre-defined threshold of its own. If exceeded, a specific alert with the identity of said animal may be issued. In addition, the water supply can then be limited for an animal in question, the system issuing a specific request to at least one watering trough, several if the animal has access to several waterers, controlling the closure of the solenoid valve if said animal is detected and attempts to control the operation of the opening and to drink.

For example, the water consumption of an animal may be voluntarily limited in a particular context of breeding or equestrian training before a competition.

The system according to the invention is characterized by the fact that said management means automatically modify said threshold at least according to data specific to each animal. These own data may correspond to different parameters, such as recommendations specific to each animal, for example in the case of a therapeutic / veterinary follow-up or according to characteristics that are specific to it, such as its sex, age or physiological stage. etc. Such characteristics are recorded as data specific to each animal through the means of identification of the animal, within a database. This own data is provided configurable. They can be modified manually (for example for a state of health) or automatically (for example for the age), or not to be modified (as for the sex or the race of the animal).

These data may include an animal category or specific monitoring applied to it. Therefore, it is possible that the management means automatically modify the threshold at least according to one of the data specific to each animal.

In addition, advantageously, said management means automatically modify said threshold at least as a function of the environmental conditions recorded. In other words, the system allows to take into account all or part of the conditions to change the threshold, such as hot summer or vice versa in winter. In addition, said system may comprise means for recording environmental conditions undergone by each animal. These conditions include at least temperature. They may also include hygrometry, as well as other climatic parameters or related to the geographic or physical environment of the animal or the place where it is housed. Preferably, said management means comprise means for informing the presence or absence of each animal. This information can be automatic, through the detection and identification of the animal, on a given area or around a drinking trough, but also performed manually by a user, directly within said system.

In addition, said management means automatically take into account the absence of each animal in relation to its presence, over at least a given period, so as to modify the calculation of each average. Therefore, the calculation of the comparison is not distorted, for example by triggering an alert for the passage of a consumption measured under a minimum threshold, while the animal is absent and, therefore, can not consume d water on the supervised site. In a related manner, the management means take into consideration several drinking troughs for managing the consumption of each animal, even if these troughs are distant and / or located at several sites. It is then possible to individually determine the water supply habits of each animal. Other configurations of the management means may be envisaged, such as the configuration of one or more consumption thresholds for each animal, but also the intelligence of the latter, as for its periods of presence or absence.

Claims (6)

REVENDICATIONS1. An animal water supply control system comprising supervisory means and a plurality of watering devices equipped with communication means connected through a communication network to said supervisory means, each drinking trough being connected via a connection at least one water supply network and being provided at least with control means by one of said animals to deliver a quantity of water and means for measuring the quantity of water delivered, said system further comprising means for unique identification of each animal at the time of its watering, so that said quantity of water delivered for each order of each animal and measured is matched with said identified animal and is transmitted to said supervision means, the latter comprising means software for managing the quantities of water delivered measured for each animal, said management means calculating for each animal at least a comparison of at least a measured quantity of measured water or at least an average of several quantities of water delivered measured with respect to at least one predefined threshold adapted to each animal, characterized in that said management means automatically modify said threshold at least according to data specific to each animal. according to claim 1, 2. Control system characterized in that said identification means comprise a recording of data specific to each animal, said data being configurable, as a category or a type of monitoring to be applied to each animal. 3. Control system according to claim 1 or claim 2, characterized in that it comprises means for recording environmental conditions under each animal including at least temperature and in that said management means modify automatically said threshold according to the recorded environmental conditions. 4. Control system according to claim 3, characterized in that said conditions comprise a recording of hygrometry. 5. Control system according to any one of claims 1 to 4, characterized in that said management means comprise means for informing the presence or absence of each animal and in that said management means automatically take into account the absence of each animal in relation to its presence, over at least a given period, so as to modify the calculation of each average. 6. Control system according to any one of claims 1 to 5, characterized in that each drinking trough comprises means for cutting off said connection to said supply network, in the form of a solenoid valve whose closing actuation is controlled by a signal transmitted from said supervision means, said solenoid valve being automatically in the open position when it is not controlled or supplied with electricity.