RU29443U1 - Device for repelling animals and its synthesizer of acoustic signals - Google Patents

Description

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Device for repelling animals and its synthesizer of acoustic signals

A group of utility models relates to devices for scaring away animals and can be used as a frightening device with means that emit sound signals.

A device for repelling birds is known, the principle of which is based on repelling animals (birds) by forming various, non-repeating combinations of sound impulses that provide an impact on different types of birds without the addiction of the latter to repelling sounds (see RF patent G22051579, class A 01M 29 / 02, 1996). During the operation of this device, the built-in series of sound pulses is constructed in such a way that the duration of the pulses in the packet and the intervals between them lead to discomfort in the work of the auditory bird analyzer due to the fact that, when the first pulse is perceived, the total activity of the primary auditory neurons has a full discharge. When the next impulse arrives, with an interval less than the recovery cycle of the primary auditory neurons, their total activity will be less, which will cause a decrease in the deforming properties of the auditory analyzer. Thus, the operation of the device is based on the principle of the formation of artificial sound signals, the pulse repetition rate of which does not exceed the value of the recovery cycle of the primary auditory neurons and at the same time changes its value. At the same time, there is a change in the duration of the pulses, which also increases the discomfort of the auditory analyzer of birds and eliminates addiction to the emitted sound signals. The disadvantage of this device is its applicability only for sososutnyh animals. Therefore, this device cannot be used to scare away dolphins from fishing gear. In addition, the reliability of the device is low, since for

its implementation it is necessary to know with high accuracy the magnitude of the recovery cycle of the primary auditory neurons of the repelled animal.

Closest to the proposed device is a device for scaring away animals, comprising a housing with a power source located inside it and an associated acoustic radiation signal generation circuit, as well as an acoustic emitter electrically connected to the input to the output of the acoustic radiation generation circuit (see RF patent JV22075295 Cl. A 01 M 29/02, 1997).

Also known is a fish sound simulator containing a hydroacoustic transducer and an electronic circuit including a block of signal generators that generate a complex waveform in total, and an amplifier, while a piezoceramic head is installed as a hydroacoustic transducer, and an electronic key connected to the generator block is additionally included in the electronic circuit signals, and a matching device installed between the block of signal generators and the amplifier (see RF patent G22182765, class A 01 K 79/00, 2002).

A disadvantage of the known device is the inability to use it to work in the aquatic environment and does not protect marine animals from fishing gear.

Closest to the proposed acoustic signal synthesizer is an animal repellent signal synthesizer containing signal generators and a power amplifier, which are interconnected using a signal processing circuit, while the output of the synthesizer generates signals in two frequency ranges, one of which corresponds to the range of sound communication of animals and the second to the range of acute hearing (see RF patent No. 2147178, class A 01 M 29/02, 2000). I The disadvantage of this device for repelling animals and a synthesizer of repellent animal signals is the low efficiency of repelling animals living in the aquatic environment, since the synthesized signals are addictive to animals. The technical result, which the proposed device and synthesizer is aimed at, is to increase the efficiency of scaring away animals living in the aquatic environment from fishing gear. This technical result in terms of the device is achieved due to the fact that in the device for repelling animals, containing a housing with a power source located inside it and an associated synthesizer of acoustic signals, as well as an acoustic emitter electrically connected to the input to the output of the signal generation circuit of the specified synthesizer, according to the invention, a power source and an acoustic signal synthesizer are installed inside the housing on which a protective grille is installed enclosing the sleep snakes on the body acoustic emitter. In addition, the electrical connection of the input of the acoustic emitter with the output of the acoustic signal synthesizer can be made in the form of a coaxial cable, and, in addition, the upper part of the housing can be equipped with a clamp and a clamp, and between the lower and upper parts of the housing there is a rubber washer that deforms when closing. In addition, at least one operation switch, at least one device status indicator and electrical terminals can be located on the upper part of the housing, and, in addition, the electrical terminals are electrically connected to a power source, as well as a source power supply is made in the form of a battery. In addition, a boss with an internal thread for attaching a coaxial cable can be installed on the lower part of the housing, while the inner diameter of the boss is larger than the diameter of the coaxial cable by at least one millimeter, and the coaxial cable is fixed in at least one clamp and in the holes of the hole inside the boss sequentially located at least one washer and at least one deformable rubber gasket, the diameters of the holes of which are not more than 1 mm compared to the diameter axial cable, and in addition, the deformable rubber gasket adapted to sealingly crimping the coaxial cable at the point of entry into the lower portion of the housing when the clamp is tightened. At the top of the hull there may be a stir; at least one attachment ear made with the possibility of its installation on a fishing gear is provided. In addition, the acoustic emitter can be made in the form of a sphere with a wall thickness of at least 3 millimeters and a polyurethane coating on top of it, or in the form of a ceramic hollow flask. This technical result in terms of the synthesizer is achieved due to the fact that the acoustic repellent signal synthesizer, comprising a signal generator and a power amplifier, according to the invention, has at least one voltage unit, a generator signal power increasing unit, an AC to DC converter, according to at least one undervoltage detector, voltage stabilizer and filter capacitors, the output of at least one reference voltage block is connected to an input of at least re, one detector for undervoltage and to the interconnected terminals of the first signal generator and the AC voltage converter, the output of the first signal generator through series-connected power increase unit

the generator signals, the AC / DC converter is connected to the DC input of the power amplifier, the output of the undervoltage detector through the voltage regulator is connected to the first input of the signal generator connected to the output from the input of the power amplifier, the input and output of the voltage stabilizer connected to the first terminals of the filtering capacitors, the second conclusions of which are combined and connected to the second input of the second signal generator, and also due to the fact that the first signal generator the pulses are made in the form of a power pulse generator, and, moreover, due to the fact that the second signal generator is made in the form of at least one microcontroller generating pulses of duration up to 0.1 sec from three frequency ranges according to a random law.

This technical result is achieved due to the fact that the voltage reduction detector has an operational amplifier connected to the output of the first terminals of the first, second and third resistors and the base of the transistor, whose collector, which is the output of the voltage reduction detector, is connected through the fourth resistor to the cathode of the first LED, the second the output of the first resistor is connected to the cathode of the LED, the anode of which is connected to the anode of the first LED, the second output of the second resistor and the input of the operational amplifier, which with the input of the undervoltage detector, while the emitter of the transistor, the second output of the third resistor and the second input of the operational amplifier are combined and grounded, as well as due to the fact that the power amplifier has transistors, a diode, resistors and a capacitor, while the collector of the first transistor is connected to the first the output of the first resistor, the cathode of the diode and the base of the second transistor, the collector of which is connected to the second output of the first resistor, which is a constant voltage input of the power amplifier, the emitter of the second transistor RA is connected to the anode of the diode and the first output

the second resistor, the second output of which is the output of the power amplifier, the input of which is the first output of the capacitor, while the second output of the capacitor is connected to the base of the first transistor, the emitter of which is grounded, and, in addition, due to the fact that the second output of the second resistor is in the power amplifier configured to connect a coaxial cable to it.

The essence of the utility model is illustrated by drawings, in which Fig. 1 shows a general view of a device for repelling animals, in Fig. 2 a diagram of a coaxial cable mount, in Fig. 3, a block diagram of a repellent signal synthesizer is shown. Figure 1, 2 shows the attachment lug 1, the upper part 2 of the housing, the clamp 3 closing, the clamp 4, the lower part 5 of the housing, a protective lattice 6, the mount 7 of the acoustic emitter 8, the switch 9 operation, the indicator 10 device status, electrical terminals 11 for charging the battery, grandmother 12, rubber gasket 13, washers 14, clamp 15 and coaxial cable 16. FIG. 3 shows a signal generator 17 made in the form of a power pulse generator, a unit 18 for increasing the signal power of the generator, an alternating voltage converter 19 to pic optional, undervoltage detector 20, voltage stabilizer 21, second signal generator 22, power amplifier 23, operational amplifier 24, resistors 25, 26, 27, 28, LEDs 29 and 30, transistor 31, filtering capacitors 32, 33, capacitor 34, transistors 35, 36, resistor 37, diode 38, resistor 39, and reference voltage block 40.

This device is designed to protect dolphins from fishing gear. Its action is based on ultrasonic vibrations of a certain frequency spectrum, imitating danger signals for dolphins.

As a rule, this device operates in marine conditions, i.e. in the habitats of dolphins.

The case of the device is made of stainless steel, which allows it to operate in a marine environment. Structurally, the housing is made of upper 2 and lower 5 parts. In the upper part of the case there is an attachment ear 1 attached to the fishing gears, a clamp 3 for closing with a clip 4. In the lower part 5 of the case, a battery (power supply), an electronic circuit for generating acoustic radiation signals, an input for a coaxial cable 16 for acoustic emitter 8, a protective grating 6 from possible external damage to the acoustic emitter 8. By connecting the upper part 2 to the lower part 5 of the housing through a rubber gasket 13 (gland), which is tightened Agim 4 closing on the yoke 3 is deformed, it is excluded from entering into the housing condensed moisture when immersed in water. The input for the coaxial cable 16 of the acoustic emitter 8 is made in the lower part of the housing 8. In the lower part of the housing, a boss 12 is installed with an internal thread and an internal diameter one millimeter larger than the diameter of the coaxial cable 16. Coaxial cable 16 passes through at least one clip 4 at least one washer 14 and at least one deformable rubber gasket 13 with holes with a diameter of not more than 1 mm than the diameter of the coaxial cable 16. In this case, the cable 16 also passes through the boss 12. When tightening the clamp 4 the rubber gasket 13 is deformed and hermetically closes the input of the coaxial cable 16 into the lower part 5 of the housing. Using the appropriate thickness of the casing and the corresponding state of the upper part 2 with the lower part 5 of the casing and the coaxial input, this device can be lowered into the water to 100 meters depth.

1. Unscrew the connection of clamp 4, remove this clamp and remove the upper part 2 of the housing.

2. Turn on the operation switch 9 to the “ON. The device status indicator 10 should light green. If indicator 10 lights up red, you need to charge the battery (power source).

3. Close the upper part 2 of the housing, put the clamp 4 and tighten the connections of the clamp 4 all the way.

After performing the above operations, we can assume that the device for scaring away animals is ready for use.

After switching on, the main unit of the device, the acoustic signal synthesizer, operates as follows. From the output of the reference voltage block 40, the voltage is supplied to the power supply terminals of the power pulse generator 17 of the AC / DC converter 19, as well as the voltage reduction detector 20. From the output of the generator 17, the signal through block 18 is fed to the input of the converter 19, from the output of which a constant voltage goes to the DC bus of the power amplifier 23. The detector 20 is recorded undervoltage. From the output of this block, the information signal goes to the input of the voltage stabilizer 21. At the input and output of the circuit 21 there are capacitors 32 and 33, which filter the ripple by voltage. This stabilizer 21 is designed to power the signal generator 22. At its output, a signal is generated that is input to the power amplifier 23. The signal from the output of the amplifier 23 goes to the acoustic emitter 8, made in the form of a sphere with a wall thickness of 3 mm and a polyurethane coating on top. This allows you to operate this acoustic emitter in a marine environment.

10 kHz. Block 18 is designed to increase the power of the signals of the generator 17. The Converter 19 allows you to receive a constant voltage of 22 V. The voltage stabilizer 21 provides power to the signal generator 22 with a stable voltage of 5 V. The generator 22 itself is assembled on an integrated circuit of a microcontroller generating a pulse lasting up to 0.1 sec from three frequency ranges according to a random law.

The power amplifier is assembled according to the classic key circuit, the resistor 37 limits the current through the transistor 35, the resistor 39 limits the current in the load.

The capacitor 34 is designed to decouple the output of the generator 22 and the input of the amplifier in direct current. The diode 38 is needed for negative feedback and to prevent the excitation of the amplifier 23.

The detector 20 undervoltage operates as follows.

When power is applied, the transistor 31 opens (the operating point of the transistor is set by resistors 26 and 27) through the diode 30, the resistor 28 and the transistor current flows (the current value is set by the resistor 28). Diode 30 is green. When the voltage decreases to 10 V, the output of block 21 is shorted to the case and shunts the resistor 27, the transistor 31 closes, and the diode 30 goes out. A sufficient current for the glow (red color) flows through the LED 29 and the resistor 25 (the resistor 25 limits the current through the diode 30), which signals a decrease in the voltage value from the reference voltage block 40.

An acoustic emitter of the type TsTS-19 VA-500 is used in the form of a sphere with a wall thickness of 3 mm and a polyurethane coating, which allows operation in a marine environment.

The electrical circuit A generates sound and ultrasonic waves in the range of 2-130 kHz, and the sound pressure is up to PO decibels. Floating operating time and pauses in the operation of the device (in the region of 15 seconds)

has an additional effect on dolphins in order to reduce addiction.

These parts of the device, as well as the control and charging elements of the battery, are placed in a metal case made of stainless material.

The acoustic emitter is made in the form of a ceramic hollow bulb designed to emit sound and ultrasonic waves, the parameters of which (frequency and sound pressure) change automatically. The power source can be a Panasonic LC-R 121 R3PG brand battery with a capacity of 1.3 A / 4 and a voltage of 12 V. This battery provides uninterrupted power to the synthesizer and acoustic emitter for 10 hours.

The operation of this device showed the following technical data:

The protected area, m, not less than 200

Depth of immersion in water, m, no more than 100

Supply voltage (battery), V-12

Number of emitters, pcs. - 1

The mass of the device, kg, no more than 5.0

Overall dimensions, mm, no more

Operating time without recharging, hour, not less than - 10 Operating temperature range, С- 0-30

Storage temperature of the device, С- 0-70

The proposed devices provide the creation of an ultrasonic curtain for dolphins in a specific area of the sea or around fishing gears in order to prevent fish from getting into fishing gears, causing damage to fishing gears, eating fish caught, and getting mechanical damage.

diameter - 140

height - 430 All this is achieved:

1) using in the emitted frequencies the signals of the natural enemies of dolphins - killer whales and signals of fear of dolphins;

2) sound pressure (pain) on the senses of dolphins;

3) suppressing the performance of the echolocation organ of dolphins by emitting ultrasonic waves according to the principle of “white noise, which does not allow them to identify the object by shape, color, determine the distance to the object, etc.

A set of measures causes a feeling of anxiety and uncertainty among dolphins and, thanks to the instinct of self-preservation, makes you leave the device's coverage area.

The use of this group of inventions can improve the efficiency of scaring away animals living in the aquatic environment from fishing gear.

L / o X / Ut /.

eleven

Claims (16)

1. Device for scaring away animals, comprising a housing with a power source located inside it and an associated synthesizer of acoustic signals, as well as an acoustic emitter electrically connected to the input to the output of the signal generation circuit of the specified synthesizer, characterized in that the power source and synthesizer of acoustic signals are installed inside the housing on which the protective grill is installed, enclosing an acoustic emitter placed on the outside of the housing. 2. The device according to claim 1, characterized in that the electrical connection of the input of the acoustic emitter with the output of the synthesizer of acoustic signals is made in the form of a coaxial cable. 3. The device according to claim 1 or 2, characterized in that the housing is made of two parts, one of which is equipped with a clamp and a clamp, and between the parts of the housing there is a rubber gasket that deforms when the clamp is tightened. 4. The device according to any one of claims 1 to 3, characterized in that at least one operation switch, at least one device status indicator and electrical terminals are located on the housing. 5. The device according to claim 4, characterized in that the electrical terminals are configured to be electrically connected to a power source. 6. The device according to any one of claims 1 to 5, characterized in that the power source is made in the form of a battery. 7. The device according to any one of claims 1 to 6, characterized in that a boss with an internal thread is installed on the housing, a coaxial cable is fixed in at least one clamp and in holes located inside the boss, arranged in series, at least one washer and at least one rubber gasket, the hole diameters of which are selected with the possibility of tight crimping the coaxial cable with a rubber gasket at its entrance to the housing when tightening the clamp. 8. The device according to any one of claims 1 to 7, characterized in that at least one lashing eye is placed on the housing, made with the possibility of its installation on the fishing gear. 9. The device according to any one of claims 1 to 8, characterized in that the acoustic emitter is made in the form of a sphere with a wall thickness of at least 3 mm and a polyurethane coating on top of it. 10. The device according to any one of claims 1 to 8, characterized in that the acoustic emitter is made in the form of a ceramic hollow flask. 11. An acoustic signal synthesizer comprising a signal generator and a power amplifier, characterized in that it has at least one reference voltage unit, an generator signal power increasing unit, an AC to DC converter, at least one voltage reducing detector, voltage stabilizer and filtering capacitors, the output of at least one reference voltage block is connected to the input of at least one voltage reduction detector and to interconnected terminals of a signal generator and an alternating voltage converter, the output of the first signal generator through series-connected unit for increasing the signal power of the generator, the alternating voltage to DC converter is connected to the DC input of the power amplifier, the output of the voltage reduction detector through a voltage regulator is connected to the first input of the second signal generator connected to the output with the input of the power amplifier, and the input and output of the voltage regulator are connected with the first outputs odes of filtering capacitors, the second conclusions of which are combined and connected to the second input of the second signal generator. 12. The synthesizer according to claim 11, characterized in that the first signal generator is made in the form of a power pulse generator. 13. The synthesizer according to claim 11 or 12, characterized in that the second signal generator is made in the form of at least one microcontroller generating pulses of duration up to 0.1 s from three frequency ranges according to a random law. 14. A synthesizer according to any one of claims 11 to 13, characterized in that the undervoltage detector has an operational amplifier connected to the output of the first terminals of the first, second and third resistors and the base of the transistor, the collector of which is the output of the undervoltage detector through a fourth resistor connected to the cathode of the first LED, the second output of the first resistor is connected to the cathode of the LED, the anode of which is connected to the anode of the first LED, the second output of the second resistor and the input of the operational amplifier, which is Odom undervoltage detector, while the emitter of the transistor, the second terminal of the third resistor and a second input of the operational amplifier are combined and grounded. 15. A synthesizer according to any one of claims 11-14, characterized in that the power amplifier has transistors, a diode, resistors and a capacitor, wherein the collector of the first transistor is connected to the first output of the first resistor, the cathode of the diode and the base of the second transistor, the collector of which is connected to the second output of the first resistor, which is the constant voltage input of the power amplifier, the emitter of the second transistor is connected to the anode of the diode and the first output of the second resistor, the second output of which is the output of the power amplifier, the input of which is the first output of the capacitor, while the second output of the capacitor is connected to the base of the first transistor, the emitter of which is grounded. 16. The synthesizer according to item 15, wherein the second output of the second resistor in the power amplifier is configured to connect a coaxial cable to it.