CH717959A1 - Device for detecting the presence of a boat moored to a dead body. - Google Patents

Abstract

The present invention aims to set up a simple device for verifying the presence of a boat moored to a dead body. The way chosen consists in setting up a detection of the presence of a boat moored to a dead body through a fixed detector, on the boat side, of a hawser, the said detector being integrated in the buoy which carries the end of the hawser and includes a buoyancy indicator which indicates the position of the detector in relation to its aquatic environment allowing the signaling of at least the two states which are „no boat moored“ when the end of the hawser is in the water with the detector floating on the surface of the water or submerged or „boat moored“ when the end of the hawser is attached to the cleat of the boat and the detector is out of the water, this signal being sent by radio to destination of whom it may concern.

Description

The invention belongs to the field of means for mooring boats on dead bodies.

[0002] Today, parking area managers seek to better understand and control the state of their fleet in real time.

[0003] Thus, there already exist devices such as that presented by the company ETM, which bears the number FR3094337 or other devices presented in the documents WO2016015089 or WO2004032064 which disclose buoys moored to a dead body and connected to a device centralizer. When mooring, the navigator sends a radio message to the harbor master's office containing the identifiers of the terminal and the boat. The buoy has a device for measuring the stall of a boat whose signal comes from the analysis of the movements of the buoy, a signal which is sent to the harbor master's office in order to update the information relating to this buoy. This device is imperfect insofar as it can be forgotten to send the radio message during mooring and moreover, the unhooking measurement is critical because it is possible to unhook a boat by having taken care of minimize movements of the mooring buoy.

The present invention aims to set up a simple device for verifying the presence of a boat moored to a dead body. The way chosen consists in setting up a detection of the presence of a boat moored to a dead body made up of at least one floating buoy connected directly or indirectly to the dead body or an attachment element fixed to the bottom by means of a flexible attachment such as a chain, a cable or a rope, called a hawser when the end of this means is intended to be tied to the mooring cleat of the boat, a processor and its annexes allowing signals to be processed from sensors installed on the buoy and to send information corresponding to the state of the buoy resulting from the analysis of the signals from the sensors to a communicating element between the buoy and the operator and to at least one element of communication between the buoy and the operator characterized in that a detector, attached directly or indirectly to the hawser, on the boat side, includes a buoyancy indicator which indicates the position of the detector in relation to its aquatic environment e allowing to signal at least the two states which are „no boat moored“ when“ when the detector attached directly or indirectly to the hawser indicates that it is in the water or that it is submerged or „boat moored“ when the detector attached directly or indirectly to the hawser indicates that it is out of water, this signal being sent by radio to “who it may concern”.

[0005] Among the variant embodiments, there is the case of a hawser which is linked to the bottom and held by a floating buoy, this hawser will be attached to the cleat of the boat which has just been moored and the detector is located in the buoy. Another case is that of a main buoy attached to the bottom and on which one of the sides of the hawser is fixed, the other side coming to be tied with the cleat of the boat. In the latter, it is a secondary buoy which carries the hawser, directly or indirectly through a clip, the so-called secondary buoy carrying the detector. In a last case, the detector is located in a box itself fixed to the hawser, on the boat side.

[0006] The detection can be of the static pressure, ultrasonic, electromagnetic wave propagation, gravitational or electrical resistance type, it is protected in a cavity and can be mounted in the submerged part or at the bottom of a buoy while the radio part and its antenna are on the top of the buoy.

Another variant of use consists in using a floating buoy whose shape and position of the centers of gravity and thrust are arranged so that in the event of flotation, the axis of the buoy is different from this same axis, when the buoy is placed on the ground or or suspended, this difference, highlighted by a measurement of the gravitational force carried out by means of inclinometers or accelerometers, makes it possible to deduce at least the two states which are „no boat moored“ when the axis of the buoy is close to the axis of the vertical of the place or „boat moored“ when the axis of the buoy differs from a pre-established value with respect to the axis of the vertical of the place, the device being equipped with software for interpreting the signals received by integrating then averaging the values so as to avoid misinterpretations resulting from the oscillations of the buoy during heavy weather.

The transmission device to the centralization server includes other administrative or technical information. In addition, the detection of the presence of an unauthorized boat, since there is no rental contract identifier for a location, can activate a means of visual or sound signaling or a radio transmission.

[0009] The figures below represent, without limitation, a few embodiments: FIG. 1 shows a mooring device without a boat FIGS. 2 and 3 show mooring devices with boat FIGS. 4 and 5 show the secondary buoy with its fixing device FIG. 6 shows the water chamber with the measuring device FIGS. 7 and 8 show an ohmic detection solution. FIG. 9 shows the device for transmitting the state of the secondary buoy. FIG. 10 shows the device for transmitting the status of the main buoy Figures 11 and 13 show a floating buoy with inclination measurement by means of accelerometers

Examples of realization:

[0010] FIG. 1 shows a mooring device without a boat. We distinguish the seabed (1), the surface of the water (2), the dead body (3) placed on the seabed (1), the main buoy (4) attached to the dead body (3) by means of a chain (5) which comprises a swivel (6) the latter being used to simultaneously hold the main buoy (4) and the hawser (7) sometimes called hawser, whip, sling or even mooring line which connects the secondary buoy sometimes called float. The term hawser is here reserved for the flexible element that attaches to the cleat of the boat on one side and to a main buoy or directly to the dead body on the other side.

[0011] FIG. 2 shows a boat (9) moored to the main buoy (4) by means of the hawser (7) which is tied to the mooring cleat (10). As for the secondary buoy (8) linked to the end of the hawser (7), it is placed on the deck of the boat.

[0012] FIG. 3 shows a boat (9) moored to the main buoy (4) by means of the hawser which is tied to the mooring cleat (10). As for the secondary buoy (8) linked to the end of the hawser (7), which is tied to the cleat (10), it is suspended outside the boat and thus made very visible.

[0013] It will be noted that a judicious arrangement of the hawser (7) and the attachment of the secondary buoy (8) at its end makes it very difficult to float the secondary buoy when the boat (9) is moored. This last state and in particular the visibility of the secondary buoy hung or placed on the boat can, moreover, be made binding through the implementing regulations.

[0014] FIGS. 4, 5 and 6 show the secondary buoy (4) with its waterline (11) and floating on the surface of the water (2). One distinguishes the device for fixing (12) of the buoy with its fixing hole (13) of the end of the hawser, device which also plays the role of unbalance. This fixing device (12) comprises a water chamber (15) located below the waterline (11) which serves to protect the sensors against the natural elements or fraudsters. This chamber (15) has several orifices placed at the ends of channels (17) and is arranged so that it is filled with water when the buoy is floating and empty otherwise. By way of example, three models of water presence detector are represented, either an ultrasonic type detector (14) which can be placed behind the wall of the fixing device (12) or inside the chamber of water (15). The second model makes use of an infrared-type transmitter-receiver game symbolically represented by a transmitter diode (18) and a receiver diode (19), the physical version of which (20) is visible in the center of the chamber. It should be noted that water has a strong effect on infrared propagation and that it is therefore easy to detect its presence or absence. The third detector consists of two platinum electrodes (21) making it possible to measure the presence of water by measuring the ohmic resistance between the two electrodes, resistance which is highly dependent on the salinity of the water. One can also imagine a gravitational detector made up of a float whose position is disturbed by the presence of water or the propagation of other electromagnetic waves which are also strongly dependent on the presence of water.

[0015] FIGS. 7 and 8 shows an ohmic detector with the overall view in fig. 7 and the details in fig. 8. The electrodes are made of a stainless steel washer (22) and housed in a protection chamber (23) made of insulating materials. The water enters it through holes (24). The second electrode (25) is formed by the attachment loop of the hawser. The electrical connections between the two electrodes (22, 25) and the electronic box (28) located at the top of the buoy (29) are ensured by the central axis (27) and the complementary electrical wire (26). The antenna (30) is located on the periphery of the electronic box so it is above the water in the two cases which are “floating buoy” or “buoy suspended” from the cleat. Some buoy has an additional ring (31) placed above the buoy is used to facilitate attachment of the buoy or to moor the boat. Insofar as it is prescribed that the buoy must be out of the water when the boat is moored there, this type of buoy is also suitable for integrating the device which is the subject of the invention.

[0016] FIG. 9 shows the transmission device inserted inside the secondary buoy (8) itself suspended from the cleat (10) of the boat with its CPU central unit. This central unit is connected with the flotation sensor and sends the relevant information to the harbor master's office at a cyclical period as well as at each change of status of the flotation sensor. Among the relevant information, there is the identification of the boat or its owner, the latter being carried by an RFID chip card or an RFID type key provided by the harbor master's office when registering the location rental contract. or simply corresponds to the buoy number. This RFID card or key is placed temporarily or permanently in front of the RFID reader itself connected to the CPU. The position of the buoy can be given by a GPS device (Global Position System) also connected to the CPU or by the transmission of the number of the secondary buoy or even that of the main buoy which can be transmitted through a wired connection or proximity radio (32). The radio transmission to the harbor master's office is assumed through the Internet network (33) or a specialized network in the direction of so-called connected lot objects of the Lora or Sigfox type.

[0017] FIG. 10 presents the solution of a radio transmission from the central buoy, the latter containing, in addition to the CPU 1, the buoy identifier. In this case, the information of the secondary buoy CPU 2 such as the state of flotation or the identification number of the contract are transmitted from the secondary buoy to the main buoy through a wired or local radio link (34) . As before, the device can be equipped with a GPS.

[0018] Figures 11 and 13 show a floating buoy with measurement of the inclination by accelerometer, the shape and position of the centers of gravity and thrust of which are arranged so that in the event of flotation, the axis of the buoy is different from this same axis, when the buoy is placed on the ground or suspended, this difference being highlighted by a measurement of the gravitational force carried out by means of inclinometers or accelerometers which make it possible to deduce therefrom at least the two states which are „no boat moored“ when the axis of the buoy is close to the axis of the vertical of the place or „boat moored“ when the axis of the buoy differs from a pre-established value with respect to to the axis of the vertical of the place.

[0019] In FIG. 11 we see the buoy (35) with the mooring point 37, the inflation valve (36), the measuring device (38, 39, 40, 41, 42) consisting of the waterproof plug (38), the management and transmission electronics (39) of the angle measurement (40) represented by a tilt, of the transmission antenna, 41 and of the power supply battery (42). fig. 13 shows the 3 main states of the buoy which are: floating buoy (45), buoy resting on the ground (46) and suspended buoy (48). fig. 12 presents a principle for measuring inclination from a component called tilt, it is composed of a mass in suspension (43) and a crown which surrounds it (44), the contact between the two components means that a certain angle has been exceeded and generates an electrical signal. Today, this old device has been replaced by an electronic component which can take the form of an accelerometer measuring a single axis, the z, or multi-axis associated with an algorithm reconstituting the axis of the buoy.

[0020] In addition, the device is equipped with software for interpreting the signals received by integrating then averaging the values so as to avoid misinterpretations resulting from the oscillations of the buoy during heavy weather.

It will be noted that this position measurement can be doubled by a measurement of the resistivity of the water whose electrodes are arranged in the cap or any other device described above.

It should also be noted that this device makes it possible to detect fraudsters, ie people who moor a boat without having the card or the identification key for the rental contract. In such a case, it is possible to launch a radio broadcast and/or to activate light or even sound signaling, or even to send a message in the form of an SMS or equivalent to the owner of the boat when mooring takes place. which allows said owner to inform the management when it is not his boat

The object of the present invention finds its outlet on the ports equipped with dead bodies such as that of the Arcachon basin which has 3000.

Claims (10)

1. Device for detecting the presence of a boat moored to a dead body (3) consisting of at least one floating buoy (4, 8) connected directly or indirectly to the dead body (3) or an integral attachment element from the bottom by means of a flexible attachment such as a chain, a cable or a rope, called hawser (5, 7) when the end of this means is intended to be tied to the mooring cleat of the boat ( 10), a processor and its annexes making it possible to process the signals coming from sensors installed on the buoy and to send corresponding to the state of the buoy resulting from the analysis of the signals from the sensors to a communicating element between the buoy and the operator, characterized in that a detector, attached directly or indirectly to the hawser (5, 7), on the boat side, comprises a buoyancy indicator (15, 23, 22) which indicates the position of the detector in relation to its environment aquatic and makes it possible to signal at least the two states which are (fig. 1, 45) „no boat moored“ when the detector attached directly or indirectly to the hawser indicates that it is in the water or that it is submerged or (fig. 2 and 3, 46,47) "moored boat" when the detector attached directly or indirectly to the hawser indicates that it is out of water, this signal being sent by radio to "who it may concern". 2. Device for detecting the presence of a boat according to claim 1 characterized in that the detector (15, 22, 23) is fixed in the submerged part of the buoy (4) floating attached to the hawser (12), boat side , this arrangement making it possible to signal that there is “no moored boat” when the detector is floating on the surface of the water or is submerged or “moored boat” when the detector is out of water. 3. Device for detecting the presence of a boat according to claim 2 comprising, in addition to the main buoy (4) floating and attached to the dead body, an intermediate connection called hawser or whip (7), playing the role of hawser and linked on one side to the main buoy (4) and on the other side to a secondary buoy (8) sometimes called a float characterized in that the secondary buoy (8) which is fixed directly to the hawser or indirectly by means of a flexible connection comprises the detector (15, 22, 23) which makes it possible to signal that there is "no moored boat" when it is floating on the surface of the water or is submerged or "moored boat" when it is out of water. 4. Device for detecting the presence of a boat according to claims 1 to 3, characterized in that the detector is mounted inside an auxiliary box attached to the end, on the boat side, of the hawser, this allowing the detector to indicate the states which are no boat moored when the detector is floating on the surface of the water or submerged or boat moored when the detector is out of water. 5. Device for detecting the presence of a boat according to claims 1 or 4, characterized in that the detector is of the pressostatic, ultrasonic, electromagnetic wave propagation, gravitational or electrical resistance type. 6. Device for detecting the presence of a boat according to claims 1 to 5, characterized in that a detector protection cavity (15, 23, 24) is arranged in the submerged part of the buoy or of the housing so that that this cavity is filled with water when the buoy floats and empty when the buoy is out of water. 7. Device for detecting the presence of a boat according to claims 1 to 6 characterized in that the detector is formed of two electrodes (22, 25) located in the submerged part of the buoy when it floats on the surface of the water and that the emitting part (28) comprising the antenna (30) is located in the upper part of the buoy, the two parts being linked by a shaft (27) passing through the buoy. 8. Device for detecting the presence of a boat according to claims 1 to 3 characterized in that the shape of the floating buoy (35) and the position of the centers of gravity and thrust are arranged so that in the event of flotation (45), the axis of the buoy is different from this same axis, when the buoy is placed on the ground (46) or suspended 48), this difference being highlighted by a measurement of the gravitational force carried out by means of of inclinometers or accelerometers which makes it possible to deduce therefrom at least the two states which are "no moored boat" when the axis of the buoy is close to the axis of the vertical of the place or "moored boat" when the axis of the buoy differs from a pre-established value with respect to the axis of the vertical of the place, the device being fitted with software for interpreting the signals received by integrating then averaging the values so as to avoid misinterpretations resulting from the oscillations of the buoy during heavy weather. 9. Device for detecting the presence of a boat according to claims 1 to 8 characterized in that a transmission to the centralization server includes other administrative information such as identifiers) or techniques such as the coordinates of a GPS. 10. Device for detecting the presence of a boat according to claims 1 to 9, characterized in that the detection of the presence of an unauthorized boat, because without a rental agreement identifier for a location, activates a visual signaling means , sound or radio broadcast.