ES2312229A1 - Mushroom-shape sea fishing buoy incorporating a transmitter - has solar panels giving autonomy of water and fish monitoring to 180 metres depth - Google Patents

Abstract

Fishing buoy. Fishing buoy made up of two different size, inverted cone sections that are connected together the lower one is the smaller one and there isn't any conventional element such as an aerial projecting from the main body. In order to transmit via the Inmarsat network the buoy uses an onboard receiver that digitally records position, bearing and speed. It incorporates solar panels that recharge the batteries thus making it self-sufficient. It provides the following information parameters to vessels: depth in m., battery level with an alarm signal and sound and flash generation. The buoy has been developed to aid in the localisation of fish and is totally impossible to detect using goniometers or similar.< IMAGE >The mushroom-shape fishing buoy incorporating a transmitter includes two different-size inverted cones, and does not require the use of an antenna. It employs the Inmarsat network, and the on-board receiver gives the position, direction and speed factors and the water temperatures. Solar panels recharge the buoy batteries.

Description

Addition to Patent No. P 9900019 by: "Buoy for fishing with object ".

Object of the invention

The object of the present invention relates, as its title indicates, a buoy that navigates freely associated with an object and is used as a fishing location element. The fishing with object is carried out by means of elements that they remain constantly submerged in the water, there adheres the plankton starting a food chain with mollusks, fish Small, medium and large. Fishermen's interest is it focuses on guiding the big tuna banks towards these points determined or keep them in them while the Nets needed to capture them.

The buoy at hand incorporates, with respect to the buoy object of the patent P-9900019, a sensor High resolution thermal and an altimetry sensor, which improve considerably the benefits offered by the invention.

Background and summary of the invention

Currently there is varied technology developed in this field but the biggest problem is in the type of transmission they use. All buoys transmit its shortwave signals with what frequency bands commonly used for this type of communications They find saturated. In addition shortwave communication does not transmits the same 24 hours a day existing certain times when the transmission is practically void

But the biggest problem generated by these outdated fishing systems in order is the fierce competition of the different markets and the different countries. Buoys used so far are easily located and can steal the fish gathered around the buoy either damage or steal the own buoy. Buoys are usually cylindrical bodies surrounded in its upper part by a float, there are also with shapes spherical (commonly known as "mines"). All of them they have a common denominator, a long antenna of about 5 meters, capable of transmitting in shortwave and contacting the ship fishing. The biggest disadvantage of an antenna of these dimensions is its easy location either visually or through the own radar. To solve it, we chose to tilt the antenna 45 ° so that its signal disappears on the radar. But it's still easily visible and can also be located through other mediations suitable electronic devices such as the goniometer. This type of device is also used in the location of more modern buoys that use the G.P.S. its transmission is encoded for sending parameters such as course, speed and position your signal is easily detected and in consequence its approximate position and its subsequent location.

Other inconveniences that buoys possess currently existing is the need for these equipment to are interrogated, they are quasi-passive teams, they have no intelligence on board. They also need to recharge the batteries that keep them in operation before they are fully discharged and stop all its transmission, with which the buoys will become objects unreachable. In order to solve the existing problems in the buoys used until then the object buoy was developed of the patent n ° P-9900019, although it continues presenting the inconvenience of not providing detailed information as to to the quantity and quality of the fishing that surrounds the buoy. For solve this, the buoy object of the present has been developed invention.

This buoy for fishing in order incorporates, with respect to the buoy object of the patent n ° P-9900019, a high temperature sensor resolution and an altimetry sensor, which provide a series of data that interpreted correctly become information on the type and amount of fishing surrounding the buoy.

To facilitate the understanding of characteristics of the invention and forming an integral part of this  Descriptive report, accompanying some sheets of plans in whose figures, with an illustrative and non-limiting nature represented the following:

Brief description of the drawings

Figure 1 is a view of the part corresponding to the head of the buoy where they are shown separately the external and internal modules.

Figure 2 is an exploded view of the body from the buoy separating the upper module from the lower one, pointing with discontinuous tracing the hole where the internal module is inserted and the place where the external module is assembled.

Figure 3 represents a profile view of the fully assembled head and body buoy, showing in detail the interior of it with the distribution and situation of all its components.

Description of the preferred embodiment

As depicted in Figures 1 and 2, In an embodiment of the invention, the buoy is formed by two physically independent elements, the head and the body. The head in turn is formed by the external module (1) and the internal module (2). The external module consists of a circular contour housing with a minimum of at least four through holes through which the fasteners of This external module with the upper module of the buoy body. The convex semi-elliptical interior has radial ribs which end in nerves with a frustoconical lateral (3) located next to the outer edge of the external module. The material is transparent and high strength, houses inside a transceiver (4) that facilitates the signal transmission-reception through corresponding Inmarsat Network. As for the internal module (2) it is a generally rectangular metal base where they are incorporated a flash card (5), a CPU control card (6) and a connector (7). All this as represented in the figure one.

The body for its part is divided into the module upper (8) and lower module (9). The upper module (8) is made of the same transparent material as the external module (1) and inside it houses the solar panel (10) that absorbs the energy necessary for the proper functioning of the system. Said upper module is semi-elliptical and in its part central has a circular hole where the external module of the buoy head. The lower module (9) is formed by two inverted cone trunks of different sizes united to each other, placing the one of smaller diameter inferiorly. In the lowest zone of this module is the battery (11), in the space between both cone trunks and taking advantage of the inclination of its walls are the two transducers (12), next to one of them couples the probe card (13) and next to the other transducer is installed a speaker (14) and a recording card (fifteen). In the union part of both cone trunks and towards the inside the created circular section at least one connector (16). And finally, at the bottom of the buoy together a high resolution thermal sensor is placed on the dough ring (17) able to determine the temperature of the water, and a sensor of altimetry (18) able to calculate the depth at which They find the different elements that make up the fishing spot. All this as can be seen in Figure 2.

Figure 3 shows a global representation of the fishing buoy for the purpose of which operation is described continuation. The buoy is no longer a passive element that emits signs of your situation to facilitate its location and becomes a transmitter that provides the vessel with information on great importance that represents a saving of time and of fuel. This buoy is able to provide sufficient data for its permanent location: position, heading, speed, and Perform full control of all its functions. The team transmitter (4) uses the aforementioned Inmarsat Satellite Network and It is continuously powered by the battery (11). The data arrives to the on-board controller digitally, it is a direct connection Between two computers

Any possible modification to be made on The buoy can be made from the boat. The battery also feeds the high resolution thermal sensor (17) that measures the temperature of water and altimetry sensor (18), as well as the fishing probe (12). Each of the fishing probes describes a cone up to 180 meters deep, with the use of two probes slightly inclined you can add the beams and get a indication of the most effective fishing spots. Other elements that consume battery are the two flashes and the noise generator where you experiment with pre-recorded noises in concentrations of tunas and that are issued abroad through a loudspeaker (14).

Once nature is sufficiently described of the present invention, as well as a way of bringing it to the practice, it only remains to add that as a whole and parts that make up it is possible to introduce changes in form, materials and provision, as long as these alterations do not vary substantially the features of the invention that claim below.

Claims (2)

1. Adding the patent No. P-009 900 019 fishing buoy object characterized by being provided with a thermal sensor with high resolution. 2. Add to patent No. P-009 900 019 fishing buoy object characterized by being provided with a sensor altimetry.