FR3016962A1 - DEVICE FOR DETECTING AND SIGNALING LEAKS IN A WATER SUPPLY NETWORK - Google Patents

Abstract

The present invention relates to a device for detecting leaks in a water supply circuit. It consists of two main elements, a leak detector (ED) placed at the outlet of a water meter and a signal box (BA) placed in the user's home. The leak detector (ED) consists of a main body (CP) of insulating material closed by a shutter cover (OC) of the same material. The water enters the main body (CP) through an inlet duct (CA) and exits from it via a duct so (CS). The internal space (CI) of the main body (CP) comprises a ball valve (BC) made of strong magnetized stainless material, held in contact on an inner frustoconical plane (PT) by means of a metal spring (RC) to prevent or allow water to enter the internal space (CI). Parallel to the internal space (CI), a contact space (EC) contains a metal ball (BM) sensitive to the magnetism of the valve bile (BC). When the ball valve (BC) moves inside the internal space (CI) under the pressure of the water it drives the contact ball (BM) in its contact space (EC), which establishes or cuts a contact between two electrical conductors (C1) (C2) included in a contact plug (BE) closing the contact space (EC). A signal is then transmitted to the housing (BA) to indicate the presence or absence of water flow.

Description

DEVICE FOR DETECTING AND SIGNALING LEAKS IN A WATER SUPPLY NETWORK.

It is known that water is an essential commodity for all known living organisms and that the development of humanity will inevitably lead in the future to a dramatic shortage for a number of populations.

In France, most of the general water consumption is reserved for energy production, but human consumption represents a significant part of overall consumption, coming well before agriculture and industry. Reducing water consumption is a vital goal for man to sustain his future.

It is also known that companies supplying water to users assume full responsibility for accidental leakage occurring before the consumer's water meter and that leakage and its consequences after the water meter remain under the responsibility and responsibility of the customer. consumer user. Indeed, if accidental leaks can be covered by insurance contracts, over-consumption due to the use and maintenance of the user's facilities, for example a bad tap closure, a leak of flush , a flight of water in the gardens, etc. are in no way the responsibility of companies providing water and therefore never supported by insurance. Nothing to date can automatically detect and report immediately to the user the presence of excessive consumption of water abnormal, so that it can intervene as soon as possible to remedy the incident. Sensitized by this problem and its economic consequences for users, the author of the present invention has devised a device whose sole purpose is to report preferably visually inside the home and permanently, the circulation of water in the domestic circuit after the counter. In fact, most of the leakage is now detected by meter readers of the water supplier who only spend twice a year and who at this time may possibly report unusual water consumption. Overconsumption is often discovered too late and the water bill is considerably increased.

Today, the method to check for leaks is to close all the faucets in the home and simply check whether the water meter is still running.

The invention of the present patent makes it possible to appreciably improve these situations by permanently and at the user's eye being provided with light signals making it possible to know whether the flow of water is well interrupted in the pipes or whether continues while all the faucets in the home are closed.

The imagined device is of great simplicity and efficiency. It consists in the positioning near the meter, a way to see the operation of it and thus the flow of water in the domestic circuit. This control is done for example by means of an electromechanical contactor, installed for example at the outlet of the water meter and which under pressure and displacement of the water establishes an electrical contact. It can also be achieved by means of a motion sensor placed facing the rotating dials of the meter or by means of a noise-sensitive sensor detecting water flow noise. The information sensing means at the water meter then transmits the information to the user, at home and by activating a preferably bright signal. Other combinations of signals are obviously possible for perfect information of the user. Thus and for example, if the light signal is active the water is circulating in the circuit, if it is not active the circulation is interrupted. When the user who has closed all the taps in his home finds that the light remains on, he is automatically alerted and can intervene immediately to cut off the water supply to the meter and investigate the cause of the incident. The present invention consists mainly of a magnetic contact valve having a highly magnetized metal main ball placed on a conical seat inside a free space made in a body of electrical insulating material, preferably Teflon, maintained on its seat by a spring whose compression force is judiciously calculated to ensure the operation of the device. In parallel with the space comprising the main contact ball, another space of small diameter and non-opening is provided in the insulating body to receive a metallic and non-magnetized satellite ball, of much smaller dimensions than those of the main ball, sitting on two electrical contact pads. The ratio of the diameters between on the one hand the highly magnetized metal main ball and the unmagnetized metallic satellite ball as well as the thickness of the wall separating the free space in which the main ball is actuated by the free space in which the satellite ball is actuated, are calculated and accurately determined in such a way that the main metal ball that is strongly magnetized drives in its movements and inside its space, the satellite ball itself metallic but not magnetized.

Thus, when the water circulates inside the device of the invention, the main ball is peeled from its seat inside its respective space under the pressure of the water and moves by means of its magnetism the satellite ball inside its own parallel free space. As a result, the satellite ball peels off its seat carrying the electrical pads and thus cuts the electrical circuit.

The change of state of the electric circuit is then processed by means of relays to achieve a signaling of the phenomenon on the user's place of life. The user having in sight, in a living room of his home a signaling electronic box, it is directly informed of the absence or the presence of water in the supply circuit of the home. His attention is thus kept awake and any abnormal situation can be immediately detected. If the problem concerning the permanent signaling of water leaks is very old, it is at the origin of many products and is the subject of many patents of invention but none of the existing products or patents previously deposited is based for the solution of this problem on the displacement of a magnetic ball driving another non-magnetic ball causing the rupture of a previously established electrical circuit. Among the many patents mentioning leak detection devices, the European patent MEYER of Danish origin, filed on May 6, 1981 and published on December 15, 1982 under the number EP 0066716 which describes a method and a leak detection system whose main characteristic lies not only in the detection of the presence of a leak but its analysis to determine its importance and the threshold at which the leak is no longer admissible to trigger the alert. By the simple fact that this inert system intervenes in the consumer alert only when a leak is detected and exceeds the predetermined volume, the MEYER device differs from the patent of the present invention which does not measure the importance of the leak detected. and inform the consumer, regardless of how important it is. On the other hand, the technical description of this invention does not in any way appeal to the fundamental feature of this patent which boils down to driving a ball establishing or interrupting the electrical contact by the magnetism of a magnetized main ball acting in another space. Also mentioned in the state of the art, the French patent LAFAY filed 23/01/1998 and published on 30/07/1999 under the number FR 2 774 171 which relates to a leak detector for installation adduction of water for domestic use, based mainly on the displacement of a cylinder in a tube pushed by the water flow, and which makes electrical contact from a certain level. This device does not in any way use magnetism for its operation, it can not be assimilated to the invention of this patent. In the search for the solution, the author of the present invention has devised a domestic water supply network equipment, a great simplicity and therefore a virtually non-existent maintenance, a long life by the choice of materials used, robustness foolproof and extremely low realization cost making the product economically very accessible. The device of the invention is designed to be installed very easily at the outlet of the domestic water supply meter, side of the circuit under the responsibility of the user. It is connected on the one hand to the water meter and on the other hand to the supply pipe by means known in connection. The body of the device is made of an electrical insulating material of plastic type and preferably Teflon, for example designed in two independent parts and cooperating with each other by means of a thread sealed by at least one suitable seal 30. The body of the device called "valve body" has a part of a water inlet duct and secondly an opposite outlet water duct. In the middle and between said water inlet and outlet ducts, it has a so-called "main space" hollow space of shape, size and constitution adapted to the operation, in which a metal ball called "ball valve" , preferably in stainless steel and strongly magnetized is held in abutment on a conical seat by means of a spring. The main space is arranged to facilitate the passage of water between the seat and the ball valve when it is peeled off. In parallel with the main space, a secondary space called "contact space" preferably of cylindrical shape, is provided in such a way that the thickness of the wall separating said secondary space from the main space is sufficiently small to allow a by sealing the two spaces and on the other hand the magnetic permeability between them. The contact space is preferably constituted by a non-emerging hole of small diameter sufficient to allow the free movement of a metal ball called "contact ball" diameter much less than that of the ball valve. The contact space has in its interior two metal pads called "contact pads", each extended with electrical wire, included in a screw cap, directed towards the outside of the device and intended to join the internal signal box of the dwelling. After installing the contact ball, the threaded plug comprising the contact pads and the electrical wires is screwed into the contact space to close it. In the complete absence of water flow, the ball valve rests on its seat in the main space pushed by the spring, the contact ball rests on its seat and thus on the contact pads to close the electrical circuit, a visual signal of the signal box means the absence of water in the circuit. In case of leakage at any point in the circuit, the circulating water flow exerts pressure on the ball valve which in the main space is detached from its seat resulting in its magnetism ball contact within the contact area. The contact ball is detached from the contact pads and the electrical circuit is interrupted. A visual signal from the signal box indicates the presence of water in the water supply circuit. The valve ball of the device always remains aligned with respect to its seat because being strongly magnetized, it is integral with the metal spring which the plate on its seat, itself retained by an arrangement provided for this purpose on the opposite bottom of the space main device.

According to the preferred embodiment of the invention, the leak detection and signaling device is preferably composed of two independent parts functionally associated with each other by mechanical means and for example by screwing, on the one hand a valve body said "Main body" made of an electrical insulating material, comprising the operating elements of the device and on the other hand a sealing shutter called "shutter valve" made of an electrical insulating material for closing said valve body. According to the preferred embodiment of the invention, the "main body" of the leak detection device preferably has, axially, an access preferably consisting of a conduit called "arrival conduit" integrated with a connecting element to the meter or to the supply network, for example a threaded or compatible threaded zone, through which the water from the network coming out of the meter enters the "main body".

According to the preferred embodiment of the invention, the "valve shutter" of the leak detection device preferably has, axially, a so-called "outlet duct" integrated in a connection element to the network piping. supply, for example a threaded zone or compatible thread, through which the water from the meter leaves the device of the invention to join the feed pipe of the supply network. According to the preferred embodiment of the invention, the "shutter valve" of the leak detection device, is sealed and sealed in its connection with the "main body" by means of at least one seal and for example an O-ring.

According to the preferred embodiment of the invention, the "main body" has axially a hollow space called "internal space" preferably cylindrical diameter greater than the diameter of the "arrival duct" and "outlet duct" of such that the joining plane between the "arrival duct" on the one hand and the "internal space" on the other constitutes a frustoconical plane whose smallest diameter coincides with the diameter of the "arrival duct" And the largest diameter is confounded with the diameter of the "internal space". According to the preferred embodiment of the invention, the "internal space" has in its interior a ball called "ball valve" strongly magnetized, made of a stainless material, for example in a chromium steel, ferritic and magnetic good performance, the diameter of which is less than the diameter of "internal space" to be able to circulate freely and sufficient for the "ball valve" can rest on the plane of internal frustoconical junction between on the one hand the "conduit of arrival And on the other hand the "internal space".

According to the preferred embodiment of the invention, a preferably metallic and stainless helical spring is placed in the "internal space" bearing on the internal plane of the "shutter valve" when it is secured to the "main body" ", To apply a constant force on the" ball valve "and maintain it in contact with the internal frustoconical junction plane between on the one hand the" arrival conduit "and on the other" internal space " . According to the preferred embodiment of the invention, the "main body" has parallel to the axis of the "internal space" a hollow cylindrical longitudinal space called "contact space" of dimensions and positioning adapted and compatible with the operation of the device, such that the thickness of the wall separating the generatrix "inner space" of the generatrix of the "contact space" is sufficiently reduced, to allow the permeability of the "contact space" to magnetic radiation from the "ball valve", when it is supported on the plane of internal frustoconical junction or movement inside the "internal space" of the "main body". According to the preferred embodiment of the invention, a metal ball and sensitive to magnetic radiation called "contact ball" is placed inside the "contact space" itself closed by a plug called "contact plug" comprising internally two parallel electrical conductors, such that the end of each of said parallel electrical conductors is on the internal plane of the "contact plug", a contact point for establishing the continuity of an electrical circuit when the "contact ball" Is in support on said contact points. To avoid any electric flash effect that can alter the "contact ball" and its life, the electrical contact is made on the negative wiring of the current return from the electronic control unit. Thus, when the "contact ball" bears on the contact points of the "contact plug", the electric current from one conductor passes into the other conductor via the "contact ball" and the electrical circuit is established and continuous and when the "contact ball" is peeled off and no longer bears on the contact points the electric current of one of the conductors can pass to the other conductor and the electrical circuit is interrupted. This action is electronically translated by the permanent presence on the signaling electronic box, at least one visual signal easily identifiable by the user at a glance during his movements within his home. The intensity and duration of this signal is preferably adjustable to suit all types of users. According to the preferred embodiment of the invention, the "contact plug" is preferably installed in the "contact space" by screwing so as to allow the adjustment of "contact space" available to the free movement of the "contact ball" and thus adjust the sensitivity of the device. According to the preferred embodiment of the invention, the parallel conductors present in the "contact plug" extend outwardly of the "main body" to reach a housing placed inside the home of the user, said " "alert box", with electronic means of information and regulation and in particular light or sound signals to alert the user when a leak is detected by the persistence of an abnormal flow of water. For example, a persistent light signal while the supply circuit is closed. According to the preferred embodiment of the invention, when the water supply circuit is open, the water passing through the water meter of the installation joins the "main body" and the interior thereof by the "arrival duct" and pushes the "ball valve" separating it from its seat on the frustoconical junction plane by compressing the spring pressed against the internal face of the "valve shutter". It then joins the "exit pipe" of the "main body" to continue its movement towards the water supply circuit of the equipped housing. By moving inside the "internal space", the "ball valve" causes by its magnetism the "contact ball" inside its "contact space" which, thus disengaging the contact points located on the internal plane of the "contact plug" cuts or establishes according to the installation, the electrical information circuit of the user. When no circulation of water is present in the supply circuit, the "ball valve" is pushed back by the spring to make contact with the internal frustoconical junction plane. It magnetizes the "contact ball" inside the "contact space" so that it resumes its place on the contact points of the internal plane of the "contact plug" and thus restores the electrical circuit previously interrupted. Depending on the installation, the circuit is restored and the information is communicated to the user by means of the "alert box".

According to a different embodiment of the invention, the "inner cage" in which the "ball valve" moves under the spring retention pressure provided for this purpose, has a particular shape to facilitate the detachment of the "ball valve" Of its seat constituted by the internal frustoconical junction plane under a minimum water pressure and facilitate the flow of water in its interior, for example a local enlargement associated with a grooving at the outlet of the internal frustoconical junction plane, dimensions, positioning and configuration adapted to the optimization of the flow. The following description with reference to the accompanying drawings by way of non-limiting example, will allow a better understanding of how the invention can be put into practice. FIG. 1 is a longitudinal sectional view of the device of the invention, power supply circuit. without any water flow. Figure 2 is a longitudinal sectional view of the device of the invention, a feed circuit with water flow. Figure 3 is a longitudinal sectional view of the device of the invention, according to another method of manufacture with arrangement of the "inner cage". According to the preferred embodiment of the invention, the leak detection and signaling device is preferably composed of a leak detector (ED) composed of two independent parts associated functionally with each other by mechanical means and for example by screwing, on the one hand, a "main body" valve body (CP) made of an electrical insulating material, comprising the operating elements of the device and, on the other hand, a so-called "shutter shutter" (OC) in an electrical insulating material for closing said main body (CP) of the leak detector (ED). (See Fig 1). According to the preferred embodiment of the invention, the "main body" (CP) of the leak detector (ED) of the detection device preferably has, axially, an access preferably consisting of a conduit called "conduit". 'inlet' (CA) integrated with a meter or power supply connection element, for example a threaded or compatible threaded zone, through which the water from the network leaving the meter 35 enters the 'main body (CP) (See Fig 1).

According to the preferred embodiment of the invention, the "valve shutter" (OC) of the leak detector (ED) of the detection device preferably has, axially, a conduit called "output duct" (CS) integrated to a connecting element to the piping of the supply network, for example a threaded or compatible threaded zone, through which water from the meter leaves the device of the invention to join the feed pipe of the supply network . (See Fig 1). According to the preferred embodiment of the invention, the "shutter valve" (OC) of the leak detector (ED) of the detection device is sealed and sealed in its connection with the "main body" (CP) by means of at least one seal (JE) and for example an O-ring. (See Fig 1). According to the preferred embodiment of the invention, the "main body" (CP) of the leak detector (ED) of the detection device preferably has axially a hollow space called "inner space" (CI) preferably cylindrical of diameter greater than the diameter of the "arrival duct" (CA) and of the "outlet duct" (CS) so that the joining plane between the "arrival duct" (CA) and the duct other by said "internal space" (CI) constitutes a frustoconical plane (PT) whose smallest diameter is coincident with the diameter of the "arrival duct" (CA) and the largest diameter coincides with the diameter of the "internal space" (CI). (See Fig 2). According to the preferred embodiment of the invention, "internal space" (CI) has inside it a ball called "ball valve" (BC) strongly magnetized, made of a stainless material, for example in a chromium steel , ferritic and magnetic good performance, whose diameter is smaller than the diameter of y "internal space" (CI) to be able to circulate freely and sufficient for the "ball valve" (BC) can rest on the internal frustoconical junction plane (PT) between on the one hand the "arrival conduit" (CA) and on the other hand the "internal space" (CI). (See Fig 1, 2).

According to the preferred embodiment of the invention, a preferably helical spring and of stainless material (RC) is placed in the "inner space" (CI) resting on the internal plane of the "shutter valve" (OC) when it is secured to the "main body" (CP), to apply a constant force on the "ball valve" (BC) and maintain it in contact with the internal frustoconical junction plane (TP) between a the "arrival conduit" (CA) and the "internal space" (CI). (See Fig 1, 2). According to the preferred embodiment of the invention, the "main body" (CP) of the leak detector (ED) of the detection device has parallel to the axis of the "internal space" (CI) of a space longitudinal cylindrical hollow called "contact space" (EC) of dimensions and positioning adapted and compatible with the operation of the device, such that the thickness of the wall separating the generator "internal space" (CI) of the generator of " contact space "(EC) is sufficiently reduced, to allow the permeability of the" contact space "(EC) to the magnetic radiation from the" ball valve "(BC), when it bears on the joint plane internal frustoconical (TP) or moving inside the "inner space" (CI) of the "main body" (CP). (See Fig 1, 2).

According to the preferred embodiment of the invention, a magnetic ball and sensitive to magnetic radiation called "contact ball" (BM) is placed inside the "contact space" (EC) itself closed by a plug said "contact plug" (BE) internally comprising two parallel electrical conductors (C1) (C2), such that the end of each of said parallel electrical conductors (C1) (C2) constitutes on the internal plane of the "contact plug" (BE), a contact point (PC) for establishing the continuity of an electrical circuit when the "contact ball" (BM) bears on said contact points (PC). Thus, when the "contact ball" (BM) bears on the contact points (PC) of the "contact plug" (BE), the electric current from a conductor (C1) or (C2) passes into the other conductor through the "contact ball" (BM) and the electrical circuit is established and continuous and when the "contact ball" (BM) is detached and no longer bears on the contact points (PC) the electric current of one of the conductors (C1) (C2) can not pass to the other conductor and the electrical circuit is interrupted. (See Fig 1, 2).

According to the preferred embodiment of the invention, the "contact plug" (BE) is preferably installed in the "contact space" (EC) by screwing, so as to allow the adjustment of the "contact space" (EC). ) available to the free movement of the "contact ball" (BM) and thus adjust the sensitivity of the device. (See Fig 1, 2).

According to the preferred embodiment of the invention, the parallel conductors (C1) and (C2) present in the "contact plug" (BE) extend outwardly of the "main body" (CP) to reach a housing ( BA) placed inside the home of the user, called "alert box", having electronic means of information and regulation and in particular of light or sound signals (SA) to alert the user when a leak is detected by the persistence of an abnormal flow of water. For example, a light signal (SA) persists while the power supply circuit is closed. (See Fig 1, 2).

According to the preferred embodiment of the invention, when the water supply circuit is open, the water passing through the water meter of the installation joins the leak detector device (ED) and enters the "body". "CP" through the "arrival conduit" (CA). It then pushes the "ball valve" (BC) separating it from its seat on the plane of frustoconical junction (PT) by compressing the spring of stainless material (RC) pressed on the internal face of the "shutter valve" (OC) . It then joins the "main exit" (CS) "outlet duct" (CP) to continue its movement towards the water supply circuit of the equipped dwelling. By moving inside the "internal space" (CI), the "ball valve" (BC) causes its magnetism the "contact ball" (BM) inside its "contact space" (EC) ) which, thereby separating from the contact points (PC) located on the internal plane of the "contact plug" (BE), cuts or establishes, according to the installation, the electrical information circuit of the user. When no water circulation is present in the supply circuit, the "ball valve" (BC) is pushed by the spring of stainless material (RC) to make contact with the internal frustoconical junction plane (PT) . It magnetizes by its magnetism the "contact ball" (BM) inside "contact space" (EC) so that it resumes its place on the contact points (PC) of the internal plane of the "contact plug" "(BE) and thus restores the previously interrupted electrical circuit. Depending on the installation, the electrical circuit is restored and the information is communicated to the user by means of the signals (SA) of the "alert box" (BA). (See Fig 1, 2).

According to a different embodiment of the invention, the "internal space" (CI) in which the "ball valve" (BC) moves under the holding pressure of the stainless material spring (RC) provided for this purpose, has a particular shape so that during the detachment of the "ball valve" (BC) from its seat constituted by the internal frustoconical junction plane (PT) under a minimum water pressure the flow of water is facilitated in its interior, for example a local enlargement (EL) associated with a groove (RI) at the outlet of the internal frustoconical junction plane (TP), of dimensions, positioning and configuration adapted to the desired optimization of the flow. (See Fig 3). 10 15 20 25 30 35

Claims (10)

CLAIMS1.- Leak detection and signaling device for water supply circuit, characterized in that it consists of two independent main elements and cooperating with each other, on the one hand a leak detector element (ED) him -Even consisting of a main body (CP) associated with a valve shutter (OC), placed on the circuit and at the outlet of a water meter and secondly a signaling element consisting of a housing signaling device (BA) provided with sound and / or visual means (SA), placed in the user's home, the leak detector element (ED) controlling and signaling the presence of water in said circuit, by the displacement at the interior of an internal space (CI) of a highly magnetized metal ball (BC) magnetically driving the displacement of a contact ball (BM) inside a juxtaposed space (EC), said ball contact (BM) establishing or cutting an electrical circuit (C1) ( C2) established supplying the signal box (BA). 2. A device for detecting and signaling leaks for a water supply circuit according to claim 1, characterized in that the leak detector element (ED) is composed of two main parts, on the one hand a main body (CP) and on the other hand a shutter valve (OC) secured together permanently or temporarily and sealed by a seal (JE). 3.- Leak detection and signaling device for a water supply circuit according to the preceding claims, characterized in that the main body (CP) of the leak detector element (ED) has an open access on the outside by a water inlet duct (CA), associated and opening into an internal space (CI) and the shutter valve (OC) of the leak detector element (ED) has access open on the outside by a water outlet duct (CS). 4.- Leak detection and signaling device for a water supply circuit according to any one of the preceding claims, characterized in that the junction plane between on the one hand the water inlet duct (CA ) and the internal space (CI) of the main body (CP) of the leak detector element (ED) is constituted by a frustoconical plane (PT), of suitable dimensions and compatible with the operation of the device. 5.- Leak detection and signaling device for a water supply circuit according to any one of the preceding claims, characterized in that the main body (CP) of the leak detector element (ED) comprises in its inside and inside the internal space (CI), a valve ball (BC) of stainless metal alloy, strongly magnetized, of suitable size and compatible with the dimensions of the internal frustoconical plane (PT) of the space internal (Cl), such that said ball valve (BC) prevents the water inlet into the internal space (CI) when in contact with said internal frustoconical plane (PT) and allows the arrival of water in the internal space (CI) when it is detached from the internal frustoconical plane (PT). 6. A device for detecting and signaling leaks for a water supply circuit according to any one of the preceding claims, characterized in that the ball valve (BC) has in the internal space (C1) of the main body ( CP) of the leak detector element (ED), is kept in contact with the internal frustoconical plane (PT) of said internal space (CI) by means of a spring made of stainless metal material (RC), one end of which bears on one generatrix of the ball valve (BC) and the other end is supported centered on the inner plane of the valve shutter (OC), when it is associated temporarily or permanently with the main body (CP ) of the leak detector element (ED). 7.- Leak detection and signaling device for a water supply circuit according to any one of the preceding claims, characterized in that the main body (CP) of the leak detector element (ED) has a cylindrical contact space (EC) whose axis is parallel to the longitudinal axis of the internal space (CI) and whose dimensions and positioning are suitable and compatible with the operation of the device, so that the thickness of material between the generatrix of the internal space (CI) and the generatrix of the contact space (EC) is sufficiently reduced to be permeable to the magnetic radiation of the ball valve (BC) when it is in contact with the plane internal frustoconical (PT) under the pressure of the spring made of stainless material (RC) or moving inside the internal space (CI) under the pressure of the water flow. 8.- Leak detection and signaling device for a water supply circuit according to any one of the preceding claims, characterized in that the contact space (EC) of the main body (CP) of the detector element of leakage (ED) contains a contact ball (BM) made of metallic material sensitive to the magnetic radiation of the ball valve (BC) contained in the inner space (CI) of the main body (CP), so that when the ball valve ( BC) pushed by a water flow or by the spring of stainless material (RC), is moving in the internal space (Cl), the contact ball (BM) is driven in the same movements in the contact space ( EC) by magnetism effect. 9. A leak detection and signaling device for a water supply circuit according to any one of the preceding claims, characterized in that the contact space (EC) of the main body (CP) of the detector element of leaks (ED) containing the contact ball (BM) is closed by a threaded contact plug (BE), traversed from one side by two electrical conductors (C1) (C2), one end of which is arranged to constitute on the internal plane of said contact plug (BE) an electrical contact point (PC) and the other of the ends is directed outwards to supply a signal box (BA), so that when the contact ball (BM) is in contact with the contact points (PC) of the contact plug (BE), the electrical conductors (C1) and (C2) are connected via the contact ball (BM) and the electrical circuit is established and when the contact ball (BM) ) is off the contact points (PC) of the contact plug (BE), the contact points (PC) are no longer connected to each other and the electrical circuit is interrupted. 10. A device for detecting and signaling leaks for a water supply circuit according to any one of the preceding claims, characterized in that the internal space (CI) of the main body (CP) of the detector element of leaks (ED) has in its shape a local axial extension (EL) to increase the volume to receive the water, arranged at one end of a groove (RI) to facilitate the flow of water in said local axial extension (EL).