DE19512031A1 - Fishing lure for angling - Google Patents

Abstract

The body of the lure (1) has fish-hooks (2) attached and contains a power source (7), an ASIC chip (4), a microprocessor chip (3), sensors (8-13) and responders (14-17). An external lead (5) connects to a computer (19) and the lure is attached to a line (6). Movement is governed by a drive (18) which reacts according to signals from a current flow sensor (8). Other sensors measure water temperature, chemical data, optical data and magnetic field values. Responders simulate optical, acoustic, electric field and muscular activity in order to imitate a natural fish.

Description

The invention relates to a fishing lure that has the charms mimicking a prey fish lifelike.

Conventional fishing lures try the external stimuli of a prey fish, if possible, in shape and color imitate true to the door. In addition there are fishing lures known, their special design to one of the Swimming movement of the fish leads to similar movement, when they are moved by the water. Also be is familiar with the use of chemical attractors these baits, as in PCT publication WO 89/07 393.

A further development is the in the German Of Application 39 21 156 described bait with egg nem inside drive. With this bait the inside serves encouraged an independent movement of the bait to reach.

The known baits have a limited attractiveness vity, since it relates to the external stimuli of the form, Limit color and a fish-like movement and in particular, no regulation and adjustment of stimuli allow to external conditions.

The invention is based on the problem of a fishing rod to create bait that offers lure-like charms, measuring the external conditions and / or adapting and the stimuli to external conditions is highly attractive as a prey fish.  

The solution to the problem is based on the principle, ei fishing lures using electrical current to be provided with sensors and actuators and these via egg to control a microelectronic circuit.

In detail, the solution consists of a fishing lure with a body, at least one actuator and / or Sen sor, a microelectronic circuit for processing and / or emitting actuators and / or sensors signals, a connection between actuator and sensor by means of the electronic circuit or a data transfer connection between the circuit and an ex remote control source. On the bait or in the area of the There may be a fish hook in bait.

The invention thus allows a particularly lifelike Imitation of prey fish, especially imitation of bioelectric and biomechanical prey fish gnalen and an adaptation of these signals to the previous measured environmental parameters. The bait can do it connection to an external control or have power source via a data line. In this embodiment, the data is between the microelectronic circuit, which preferably consists of a miniaturized integrated circuit with a personal computer that connects to the fishing rod the data line is connected. This enables targeted polling of environmental data, their evaluation with the PC and accordingly fitted activation of the electronic stimulus sources in the Kö the fish.  

A particular advantage of using a microelek tronic circuit, in particular an IC, is in the small size, the high data processing speed, the protection against replica, the high Zu reliability, the programmability of the circuit and the low cost of producing such a caused circuit. In addition, special the integrated circuit the advantage in To be able to work in the low-voltage range. Especially before the use of a user-oriented is partial integrated circuit (ASIC).

Programming is possible using ASICs the integrated circuit, either already through the Manufacturer or by the user who works on a spec all application is aligned. Leaves in bait fish the ASIC in its function regarding the tax signals for any application and situation programs when fishing without programming Replacement of the integrated circuit is required.

In addition to the supply voltage for the Fishing lures particularly advantageous use of Low-voltage ASICs is the use of ASICs with ver different voltage options conceivable, for example in Connection with the connection to a personal computer ter using the data line described above and the possible external power supply.

The data line is preferably braided integrated cords and can be used as a 2-wire bus or light  waveguide. The interface of the Sy stems can be integrated in the ASIC and enables the direct connection, for example to the serial Interface of a notebook computer. To its ver Binding with the data line can be a plug connection be provided in the housing of the fishing reel.

Various factors are used to determine the environmental factors sensors for use. The sensors are located in the body of the bait fish and are also from the voltage source arranged in the body, for example a battery. The power supply takes place preferably via the connection to mikroelektroni circuit together with the signal transmission. In in the same way they are also in the body chen actuators with the microelectronic circuit Voltage and the corresponding control signals ver worries.

The actuators can either use an external control gnal by means of the data line or through the direct Processing of the sensor signals and their evaluation can be controlled in the microelectronic circuit. The same applies to the sensors.

The use of sensors, for example, allows the Er version

• - physical data, for example by a Force sensor,  
• chemical data, for example by a ph sensor
• - Optical data, for example through a Fo toensor,
• - mechanical data, for example by a Flow sensor,
• - thermal data, for example by a Temperature sensor, as well
• electrophysical data, for example through a magnetic field sensor.

The actuators enable transmission, for example

• - Optical signals or electromagnetic Si gnale, such as body heat in prey fish or body color are emitted, next to the particular attractiveness of a light source Fish,
• - Acoustic signals, as in certain Beu tefischen occur, as well as the movement-related noises
• - an electric field or
• - a voltage source to imitate the muscles activity or that of some predatory fish identifiable electrical fields of their prey fish.  This muscle activity can be compared with the measurement data of the Flow sensor for a lifelike imitation be coupled.

Motion or drive control can also be used realize in the bait according to the invention.

This is how the properties of special prey fish can be adjust so that specific fish species can be attracted.

In the following the invention is based on one in the Drawing described embodiment of the vicinity ren explained.

The fishing bait consists of a body 1 with fishing rods 2 , a microelectronic circuit 3 , an ASIC 4 , an energy source 7 , an external line 5 and various sensors 8 to 13 and various actuators 14 to 17 . The bait is connected via a fishing line 6 together with the data line 5 to a fishing rod and a personal computer 19 .

The energy source 7 supplies the microelectronic circuit 3 , the ASIC 4 , the sensors 8 to 13 and the actuators 14 to 17 with the required voltage. The sensors 8 to 13 and the actuators 14 to 17 are controlled as desired by means of the PC control 19 . The data supplied by the sensors 8 to 13 are evaluated in the microelectronic circuit 3 , in the ASIC 4 and in the PC 19 . The evaluated sensor data are either converted directly in the microelectronic circuit 3 and in the ASIC 4 into control signals for the actuators 14 to 17 or are first passed on to the PC 19 via the data line 5 and processed there.

The flow sensor 8 measures the flow speed and provides data for the drive 18 . The sensor 9 , in this case a temperature sensor, provides data on the ambient temperature and the water depth. The light conditions of the surrounding water are measured by a sensor 10 , in this case a photosensor. The actuator 16 consists of metal plates and is used to build up an electric field that mimics those electric fields with static fields and short-term peak potentials that are built up by a prey fish in the event of an escape reaction by appropriate muscle groups.

The drive 18 can be used to bring the bait into certain water regions or depths or to bring the bait to a standstill in flowing water. The frequency transmitter 15 imitates as a piezo element the frequencies of up to 500 Hz occurring in a prey fish as a result of the swimming movements, as well as short-term higher-frequency vibrations, as they will cause reactions when fleeing and injuries to prey fish. In addition, the use of higher frequencies increases the radius of action of the sound waves, which entails attracting predatory fish from the wider area.

The actuator 14 generates electromagnetic waves specific wavelength. Depending on the area of application, the microelectronic circuit can be used to emit all wavelengths that trigger stimuli in predatory fish. By heating, a chemical attractor previously applied to an actuator field 17 can be dispensed at any time or its dispensing concentration can be adjusted.

The actuators 14 to 17 are regulated depending on the values measured in sensors 8 to 13 . On the basis of the measured flow velocity of the sensor 8 , the settings of the biomechanical and bioelectrical variables can be set in accordance with the muscle activity to be expected of a prey fish. The intensity of the emitted electromagnetic waves can be adjusted or fed back via the sensor 13 .

As soon as a fish has taken a bite, a force sensor 11 transmits the tensile load to the electronic circuit 3 and to the ASIC 4 or the PC 19 and thus enables an immediate calculation of the fish size and the fish weight.

Claims (6)

1. Fishing lures with

• - a body ( 1 ),
• - at least one actuator ( 14 , 15 , 16 , 17 ) and / or sensor ( 8 , 9 , 10 , 11 , 12 , 13 ),
• - a microelectronic circuit ( 3 , 4 ) for processing and / or sending out the actuator and / or sensor signals,
• - A connection between the actuator ( 14 , 15 , 16 , 17 ) and sensor ( 8 , 9 , 10 , 11 , 12 , 13 ) by means of the micro-electronic circuit ( 3 , 4 ) or
• - A data transfer connection ( 5 ) between the circuit ( 3 , 4 ) and an external control source ( 19 ).

2. Device according to claim 1, characterized by an integrated circuit ( 3 , 4 ). 3. Device according to claim 1 or 2, characterized by a programmable integrated circuit ( 3 , 4 ). 4. Device according to one of claims 1 to 3, characterized by an ASIC ( 4 ). 5. Device according to one of claims 1 to 4, characterized by a in the fishing line ( 6 ) in tegrated data line ( 5 ). 6. Device according to one of claims 1 to 5, characterized in that the data line ( 5 ) is connected to a personal computer ( 19 ).