KR20180129082A - apparatus for preventing trespass of harmful birds and beasts in circular fish cage - Google Patents

Abstract

The present invention relates to an apparatus for preventing the trespass of harmful birds and beasts in a circular fish cage. More specifically, the apparatus for preventing the trespass of harmful birds and beasts in a circular fish cage to prevent harm by birds or beasts which eat fishes in the circular fish cage established on the sea. The apparatus for preventing the trespass of harmful birds and beasts in a circular fish cage includes an intrusion detection means which detects birds and beasts entering into a net where fishes are cultured by forming a plurality of light paths through which light passes on the surface of a circular fish cage, a control part for detecting the intrusion of the birds and beasts through the intrusion detection means, and a warning part which is operated by the control part to clear the birds and beasts.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a harmful tidal-

The present invention relates to an apparatus for preventing harmful tidal water intrusion in a cage farm, and more particularly, to an apparatus for preventing harmful tidal water intrusion in a cage farm, and more particularly, to prevent intrusion of harmful tidal water in order to prevent damage by birds or animals eating fish, The present invention relates to an apparatus for preventing harmful tidal water intrusion in a cage farm.

Cage farm is a facility to artificially grow marine life. In recent years, various kinds of fish with high added value are cultured in Cage farm.

In the case of conventional caged fish farms, due to the deterioration of productivity due to deterioration of seawater circulation deterioration and the increase in the incidence of fish diseases, the development of caged fish farms in an open offshore with deep water depth and good circulation of seawater is being promoted , And in such cases, the problem of damage by the harmful assistant far away from the land is serious problem.

In order to prevent such damage, the manager must reside, but the management cost due to the residence of the man is increased, and even if the manager is resident, it is difficult to prevent the harmful assistant from intruding into the farm in real time.

Korean Patent No. 10-1548168 discloses a farm surveillance system.

The farm monitoring system includes an alpha radar, a CCTV camera, a thermal imaging camera, an underwater ultrasonic sensor, a warning broadcast unit, a key input unit, a monitoring control unit, an intrusion status display unit, and a storage unit. The surveillance system monitors and records the movement of unidentified vessels in the wake of the unidentified vessel, and warns of the intrusion situation when an unidentified vessel penetrates into the set sea area including the farm, And transmits a message for informing occurrence to the set mobile phone.

However, the conventional aquaculture surveillance system is mainly for detecting intrusion of a ship or a person approaching a farm, and it is difficult to detect that a bird or an animal approaches the surface of the farm.

 In addition, as a technical means for detecting an intrusion, an alpha radar, a CCTV camera, a thermal imaging camera, and an underwater ultrasonic sensor must be provided, so that facilities are complicated and expensive.

Korean Patent No. 10-1548168: Farm surveillance system

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for preventing intrusion of harmful tidal water in a cage farm, which can effectively prevent fish damage due to harmful tidal water by effectively detecting approach of a bird or an animal to the water surface of a farm, And the like.

In order to accomplish the above object, the present invention provides an apparatus for preventing intrusion of harmful tides, comprising: intrusion detection means for detecting tidal water penetrating into a net in which fish are cultured by forming a plurality of light paths passing light on a water surface of a cage farm, ; A controller for detecting intrusion of fresh water through the intrusion detection means; And an alarm unit operated by the control unit to remove the fresh water.

The intrusion detection means comprises a plurality of light receiving portions provided at predetermined intervals in the float for supporting the net, and a plurality of light receiving portions provided on one side of the float to irradiate laser beams to the light receiving portions, And a second light emitting portion provided on the other side of the float to form a plurality of second optical paths crossing the first optical path by irradiating the light receiving portions with a laser beam do.

The warning unit is characterized by being an alarm outputting a sound or a warning light flashing a light.

And a wireless communication unit for transmitting the detection signal to the mobile terminal of the administrator through the control unit when the intrusion sensing unit senses the intrusion of the fresh water.

As described above, according to the present invention, a plurality of optical paths by the ray-spot beam are formed closely on the water surface of the farm, so that it is possible to effectively prevent the bird or the beast from approaching the water surface of the farm, thereby preventing damage to the fish by the harmful fresh water.

In addition, by detecting the intrusion of the fresh water by the light emitting unit that generates the laser beam and the light receiving unit that detects the laser beam, the configuration is very simple and the installation cost can be greatly reduced.

1 is a perspective view showing a device for preventing harmful tidal water intrusion of a caged aquarium according to an embodiment of the present invention installed in a cage farm,
FIG. 2 is a block diagram showing a configuration of a harmful fresh water intrusion prevention apparatus of a caged aquarium applied to FIG. 1. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for preventing harmful tidal water intrusion of a caged aquaculture farm according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, an apparatus for preventing intrusion of harmful tides according to an embodiment of the present invention includes intrusion detection means for detecting tidal water intruding into a net 3 for fish culture, A control unit 40 for detecting the intrusion of tide water, and a warning unit 60 operated by the control unit 40 for eliminating the fresh water.

A cage farm (1) installed on the sea has a structure for cultivating fish inside a net (3) immersed in water and supporting the upper part of the net on float (5) floating on the water surface. In the example shown, the float 5 is formed square.

The intrusion detection means is installed in the float (5) of the cage farm and serves to detect a tidal water such as a bird or an animal that infiltrates into the net (3) where the fish is cultured.

Intrusion detection means can effectively detect animals approaching the water surface of a farm, beyond the float (5), outside the bird or farm where they fly from the sky and approach the water surface of the farm.

The intrusion detection means applied to the present invention detects a tide entering the net 3 by forming a plurality of optical paths through which the laser passes on the water surface of the farm.

The intrusion detection means includes a plurality of light receiving portions 10 provided at predetermined intervals in the float 5 for supporting the net 3 and a plurality of light receiving portions 10 provided at one side of the float 5, A first light emitting unit 20 for irradiating a beam to form a plurality of first light paths on the water surface of the farm, and a light emitting unit 20 installed on the other side of the float 5 to irradiate the light receiving units 10 with a laser beam, And a second light emitting portion 30 for forming two light paths.

The light receiving unit 10 is installed at a predetermined interval along the edge of the float 5. The arrangement of the light receiving portion 10 has a structure that surrounds the water surface of the farm outside. In the illustrated example, the light receiving portion 10 is provided on the three side edges of the inner four side edges of the rectangular float 5.

The light receiving portion 10 is provided on the upper portion of the column 11 provided in the float 5. The installation height of the light receiving portion 10 may be equal to or lower than the height of the first and second light emitting portions 20 and 30. The light receiving unit 10 includes a housing 15 fixed to the support 11 and a photodetector 17 provided inside the housing 15 for detecting a laser beam.

The housing 15 is made of a highly durable stainless steel metal. It is a matter of course that a light transmitting window may be formed on the front surface of the housing 15 facing the inside of the float 5 so that the laser beam can be incident into the housing 15.

The photodetector 17 detects the amount of light and can use, for example, a photodiode. The photodetector 17 is connected to a conventional amplifier and an A / D converter so that the electrical signal output from the photodetector 17 can be amplified and converted into a digital signal and input to the controller 40.

The first light emitting portion 20 is installed at one corner of the four corners of the float 5.

The first light emitting portion 20 is provided on the upper portion of the column 21 provided in the float 5. The first light emitting unit 20 includes a housing 25 fixed to the strut 21 and a light source installed inside the housing 25 and irradiating a laser beam to the light receiving unit 10.

A plurality of laser diodes 27 are used as light sources. The wavelength of the laser diode 27 may be 400 to 700 nm. The laser diode 27 preferably generates a laser beam of a long wavelength having a relatively long wavelength band.

The plurality of laser diodes 27 are provided with different irradiation directions of the laser beams. A plurality of laser beams are emitted to the outside of the housing 25 through the plurality of laser diodes 27 to form a plurality of first optical paths.

A lens portion may be provided on the front surface of each laser diode 27. The lens part can be made of an appropriate combination of a diverging lens and a focusing lens so as to diverge and focus the laser irradiated from the light source.

The housing 21 is made of a highly durable stainless steel metal. It is a matter of course that a light transmitting window can be formed on the front surface of the housing 21 facing the light receiving unit 10 so that the laser beam emitted from the laser diode can be irradiated to the light receiving unit 10. [

A plurality of laser beams are generated through the first light emitting portion 20 and a plurality of laser beams generated through the first light emitting portion 20 are irradiated to the light receiving portions 10 located on opposite sides. The laser beam generated by the first light emitting portion may be irradiated to all of the light receiving portions or only to some of the light receiving portions.

A plurality of first light paths extending from the first light emitting portion 20 to the light receiving portion 10 are formed on the water surface of the farm by the laser beams irradiated from the first light emitting portion 20 to the light receiving portion 10.

The second light emitting portion 30 is installed in the float 5 at a position spaced apart from the first light emitting portion 20 by a predetermined distance.

The second light emitting portion 30 is installed on the upper portion of the column 31 provided in the float 5. The second light emitting unit 30 includes a housing 35 fixed to the strut 31 and a light source installed inside the housing 35 and emitting a laser beam to the light receiving unit 10.

A plurality of laser diodes 37 are used as light sources. The wavelength range of the laser diode 37 is 400 to 700 nm. The laser diode preferably emits a long wavelength laser beam having a relatively long wavelength band.

The plurality of laser diodes 37 are provided with different irradiation directions of the laser beams. A lens portion may be provided on the front surface of each laser diode. It is needless to say that the lens part can be formed by a proper combination of the diverging lens and the focusing lens so as to diverge and focus the laser light.

The housing 35 is made of a highly durable stainless steel metal. A light transmitting window may be formed on the front surface of the housing 35 facing the light receiving unit 10 so that a laser beam emitted from the laser diode can be irradiated to the outside.

A plurality of laser beams are generated through the second light emitting portion 30, and the laser beams are incident on the light receiving portions 10. The laser beam generated by the first light emitting portion may be irradiated to all of the light receiving portions or only to some of the light receiving portions.

A plurality of second light paths extending from the second light emitting portion 30 to the light receiving portions 10 are formed on the water surface of the farm.

The first light paths formed by the first light emitting portion 20 and the second light paths formed by the second light emitting portion 30 intersect each other. Therefore, it is possible to detect easily approaching the surface of the bird or the beast by forming a dense optical path like a net.

The control unit 40 processes the signal input from the photodetector 17 to operate the warning unit 60. [ The control unit 40 is formed of a microcomputer and is installed inside a control box 50 provided in the float 5. On one side of the control box 50, a display unit and an operation unit for various settings and operations can be provided.

The signal input to the control unit 40 is subjected to signal processing control to control the output function, the communication function, and the self-diagnosis function. The memory connected to the input / output terminal of the control unit stores a communication program for transmitting a generated signal to a remote place, a communication ID, and a program of a microcomputer.

The controller senses an electrical signal output from the photodetector and senses the intrusion of the tide water.

The warning unit 60 operates under the control of the control unit 40 when intrusion of the fresh water is detected by the intrusion detection unit.

The warning unit 60 may be an alarm for outputting sound or a warning light for blinking light. Although not shown, an alarm or a warning light is installed in the float. In addition to an alarm or a warning light, various devices capable of driving the tide out of the farm may be used as a warning unit.

The present invention may further include a wireless communication unit 80 for transmitting a detection signal to the mobile terminal 85 of the administrator through the controller 40 when detecting the intrusion of the fresh water by the intrusion detecting unit.

And a communication interface connected to the output terminal of the control unit by the wireless communication unit 80 is used. The communication interface is for performing radio communication using RF, and transmits a detection signal to the mobile terminal 85 of the administrator.

And a battery installed inside the control box 50 as a power source unit 90 for supplying power to various components of the present invention. Further, the solar power generation means can be used as the power supply portion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

5: float 10: light receiving part
20: first light emitting portion 30: second light emitting portion
40: control unit 60: warning unit
80:

Claims (4)

An intrusion detection means for detecting a tide entering into a net in which a fish is cultured by forming a plurality of light paths through which light passes on a water surface of a cage farm;
A controller for detecting intrusion of fresh water through the intrusion detection means;
And an alarm unit operated by the control unit to remove the fresh water from the harmful tidal water intrusion prevention apparatus. [3] The apparatus according to claim 1, wherein the intrusion detection means comprises: a plurality of light receiving portions provided at predetermined intervals in a float for supporting the net; and a plurality of light receiving portions provided on one side of the float, A first light emitting unit that forms a plurality of first light paths on the water surface, and a plurality of second light paths that are provided on the other side of the float to irradiate laser beams to the light receiving units to cross the first light path And a second light emitting unit for emitting a harmful tidal water intrusion to the cage farm. [2] The apparatus according to claim 1, wherein the warning unit is an alarm outputting sound or a beacon flashing light. The method according to claim 1, further comprising a wireless communication unit for transmitting a detection signal to a mobile terminal of a manager through the control unit when detecting intrusion of fresh water by the intrusion detecting unit. Prevention device.

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