KR101717253B1 - dome type artificial reef - Google Patents

Abstract

The present invention relates to a multifunctional dome type artificial reef of a new structure, which can help finding a proper position to install an artificial reef by observing and recording an environment where the artificial reef is installed. The multifunctional dome type artificial reef according to the present invention comprises: an environment measurement means (60) for measuring an environment around a main body (10); a control means (90) connected to the environment measurement means (60); and a wireless communications means (100) connected to the control means (90) and configured to communicate data with a wireless communications terminal (101) of a manager. The control means (90) is configured to output data measured by the environment measurement means (60) to the wireless communications terminal (101) of the manager through the wireless communications means (100) for every predetermined time. Therefore, it is possible to measure and observe a flow rate, a temperature, an amount of irradiated light, or the like of seawater where an artificial reef is installed in real time, thereby obtaining information on the most proper place to grow and develop shellfish or seaweed at regular intervals, based on a growth and development state of shellfish or seaweed growing and developing in the artificial reef and a flow rate, a temperature, an amount of irradiated light, or the like of seawater, which are consistently collected, and referring the information to choose a position to install the artificial reef.

Description

Dome type artificial reef

The present invention relates to a multifunctional dome-shaped artificial fish of a new structure capable of observing and recording an environment where an artificial fish is installed, and helping to find an appropriate position to install an artificial fish.

In general, artificial fishes used to provide an environment in which small fish, shellfish or algae can grow are composed of metal, concrete, or various other materials.

Therefore, when the artificial fish candle is fixed to the bottom surface of the sea so as to be fixed, shellfish or seaweed adhere to the circumferential surface of the artificial fish so that the fish are gathered around the artificial fish candle.

Various artificial fishes have been developed in recent years, but as shown in Figs. 1 and 2, dome-shaped artificial fishes have been developed and widely used.

The artificial fish is composed of a dome-shaped main body 10 made of a special cement material with little pollutant discharge and an annular member 20 fixed on the upper surface of the main body 10.

At this time, on the upper surface of the main body 10, a forming groove 11 extending in a circumferential direction and a radial direction is concave.

Therefore, when a hook of a crane is hooked on the hook member 20 and the artificial fish candle is moved and installed on the sea, shellfish or seaweed adhere to the catching groove 11 to induce it to grow so that the shellfish Improve the reproduction environment of seaweed, and let fish gather.

The structure of this artificial ear candle is described in detail in a number of precedent documents including registration utility model No. 20-0442687, and a detailed description thereof will be omitted.

On the other hand, in the case of such an artificial fish candle, depending on the environment where the artificial fish candle is installed, that is, the flow rate of the seawater, the temperature or the amount of light irradiation, the type and density or growth rate of shellfish or seaweed do.

Therefore, when installing an artificial fish candle, it is necessary to select a position suitable for installing artificial fish candle. Until now, there has been no way to confirm whether shellfish or seaweed attached to an artificial fish candle installed in an environment effectively grows.

Therefore, there is a need for a new method to solve such a problem.

SUMMARY OF THE INVENTION The present invention provides a multifunctional dome-type artificial fish weigher that can help locate an appropriate location for installing an artificial fish candle by observing and recording the environment where the artificial fish candle is installed, There is a purpose.

According to an aspect of the present invention, there is provided an artificial fish candle including a main body and an annular member provided on the main body, A control unit 90 connected to the environment measuring unit 60 and connected to the control unit 90. The control unit 90 is connected to the control unit 90, The wireless communication device according to claim 1, further comprising wireless communication means (100) capable of data communication with the communication terminal (101), wherein the control means (90) To the manager's wireless communication terminal (101) through the network (100).

According to another aspect of the present invention, there is provided a GPS receiver comprising: a GPS receiver (70) provided in the main body (10) for measuring a position of the main body (10); a tilt sensor Wherein the control means 90 is connected to the GPS receiver 70 and the tilt sensor 80 to convert the data measured by the GPS receiver 70 and the tilt sensor 80 into a constant And output to the wireless communication terminal (101) of the administrator via the wireless communication means (100) at every time.

According to another aspect of the present invention, the main body 10 is formed in a dome shape with its central portion protruding upward, and a protruding portion 12 projecting upward is formed at the center of the upper surface of the main body 10, The protruding portion 12 is formed with a flow passage 12a through which the seawater passes so as to penetrate the circumferential surface of the protruding portion 12. The generator 12 is provided in the middle portion of the flow passage 12a and generates electricity using seawater passing through the flow passage 12a. (40) for storing electricity generated by the generator (30), and a rechargeable battery (40) provided in the main body (10).

According to another aspect of the present invention, a forming groove 11 extending in a circumferential direction and a radial direction is formed on an upper surface of the main body 10, Or nutrient supply means 110 for supplying nutrients to seaweeds. The nutrient supply means 110 is provided inside the main body 10 and nutrients that are helpful for growing shellfish or algae are stored therein A supply pump 112 connected to the storage tank 111 and controlled to be operated by the control means 90; And a discharge pipe 113 connected to the supply pump 112 through a connection pipe 113a so that the nutrient stored in the storage tank 111 is discharged to the discharge pipe 111 when the supply pump 112 is driven, (113b) to the shellfish or seaweed And a nonwoven fabric 113c is stacked on the outside of the discharge hole 113b of the discharge pipe 113 so that nutrients discharged from the discharge hole 113b are absorbed by the nonwoven fabric 113c, The supply pump 112 is driven so that the nutrients stored in the storage tank 111 are discharged to the discharge tube 113 Is supplied to the shellfish or algae through the hole (113b), and a multifunctional domed artificial fish is provided.

According to another aspect of the present invention, a space 13 is formed in the main body 10 and an inlet 14 communicating with the space 13 is formed in the periphery of the main body 10, The main body 10 is installed on the sea floor and then sand and water are injected into the interior of the space 13 through the injection port 14, The dome-shaped artificial ear can be filled with the dome-shaped artificial ear.

According to another aspect of the present invention, an earthquake sensor 120 connected to the control means 90 is provided at the periphery of the main body 10 to detect an earthquake, Wherein a plurality of dredging holes 17 are formed in the upper and lower ends of the dredger 17 so as to pass through the dredger 17 in the up and down direction, A dome-shaped artificial reef is provided.

The multifunctional dome artificial fish weft according to the present invention includes an environment measurement means 60 for measuring the environment around the main body 10, a control means 90 connected to the environment measurement means 60, And a wireless communication unit 100 connected to the wireless communication terminal 101 of the manager and capable of performing data communication with the wireless communication terminal 101. The control unit 90 controls the environment measuring unit 60 to measure the data measured by the environment measuring unit 60 for a predetermined time To the wireless communication terminal (101) of the manager via the wireless communication means (100).

Therefore, it is possible to measure and observe in real time the flow rate, temperature, or light irradiation amount of seawater at the place where the artificial fish candle is installed, so that the growth state of shellfishes and seaweeds vegetated in artificial fish candles at regular intervals and the flow rate of seawater collected continuously Based on values such as temperature or light irradiation, it is possible to obtain information on the most suitable place for shellfish or seaweed to grow, and there is an advantage to be referred when determining the location of the artificial fish candle.

1 is a side view showing a conventional multifunctional domed artificial fish candle;
2 is a side sectional view showing a conventional multi-functional domed artificial fish candle,
FIG. 3 is a side cross-sectional view showing a multifunctional dome artificial fish heald according to the present invention,
FIG. 4 is an enlarged view showing a main part of a multifunctional domed artificial fish element according to the present invention,
FIG. 5 is a circuit diagram of a multifunctional dome artificial ear sensor according to the present invention,
6 is a side cross-sectional view showing a second embodiment of a multifunctional domed artificial ear candle according to the present invention,
FIG. 7 is a reference view for explaining the operation of the second embodiment of the multifunctional dome artificial fish according to the present invention,
8 is a side cross-sectional view showing a third embodiment of a multifunctional domed artificial fish candle according to the present invention,
Fig. 9 is a circuit configuration diagram of a multifunctional dome-type artificial ear according to a third embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 to 5 illustrate a multifunctional dome artificial fish according to the present invention. The artificial fish is composed of a main body 10 and an annular member 20 provided on the main body 10.

At this time, the main body 10 is formed in a dome shape with the central part of the upper surface protruding upward, and the forming groove 11 extending in the circumferential direction and the radial direction is formed concave on the upper surface of the main body 10.

According to the present invention, a protruding portion 12 protruding upward is formed at the center of the upper surface of the main body 10.

The protruding portion 12 is formed in the shape of a circular column extending upward, and the ring member 20 is fixed to the upper surface thereof.

The protruding portion 12 is formed with a channel 12a through which the seawater passes and is formed at the middle portion of the channel 12a by a seawater passing through the channel 12a. (30), and a rechargeable battery (40) for storing electricity generated by the generator (30) is provided at one side of the main body (10).

The channel 12a is formed so as to pass through the protruding portion 12 in the forward and backward directions so that seawater flows through the channel 12a when tide and ebb tide.

The generator 30 includes an impeller 31 provided at an intermediate portion of the oil passage 12a and rotated by seawater passing through the oil passage 12a and a generator body 32 connected to the impeller 31 And the impeller 31 is rotated by seawater passing through the flow path 12a at the time of tide and ebb.

The rechargeable battery 40 is disposed on the inner side of the main body 10 and is configured to store electricity generated by the generator 30.

The circumference of the main body 10 is provided with an environment measuring means 60 for measuring the environment around the main body 10, a GPS receiver 70 for measuring the position of the main body 10, And a control means 90 is connected to the environment measuring means 60, the GPS receiver 70 and the tilt sensor 80, and the control means 90 Is connected to wireless communication means 100 capable of data communication with the wireless communication terminal 101 of the administrator.

The environment measuring means 60 is provided on the upper surface of the protrusion 12 of the main body 10 and is capable of measuring the flow rate of the seawater around the main body 10, Means, temperature sensor and optical sensor.

As described above, the flow rate measuring means for measuring the flow rate, the temperature measuring sensor and the optical sensor are generally used, and a detailed description thereof will be omitted.

The GPS receiver 70 receives a signal of a GPS satellite floating on a geosynchronous orbit and measures the position of the main body 10 in real time and outputs the measured data value to the control means 90, And therefore detailed description will be omitted.

The tilt sensor 80 is provided at one side of the main body 10 to measure the inclination of the main body 10 and output the measured data value to the control means 90, If it is tilted or inverted, it can be detected.

At this time, the GPS receiver 70 and the tilt sensor 80 are installed on one side of the main body 10.

The control means 90 collects the data output from the environment measuring means 60, the GPS receiver 70 and the tilt sensor 80 and then transmits the data to the manager via the wireless communication means 100 To the wireless communication terminal (101).

The wireless communication terminal 101 can use a general smart phone or a management computer.

At this time, the antennas of the GPS receiver 70 and the wireless communication unit 100 may be installed on a floating body, not shown, to float on the water surface.

In addition, the main body 10 is provided with nutrient supply means 110 for supplying nutrients to the shellfish or seaweed inhabiting the dwelling grooves 11.

The nutrient supply means 110 includes a storage tank 111 provided inside the main body 10 for storing nutrients that are useful for growing shellfish or seaweeds therein and a supply pump 111 connected to the storage tank 111, And a discharge pipe 113 connected to the supply pump 112 through a connection pipe 113a and having a plurality of discharge holes 113b formed in the circumferential surface thereof.

The storage tank 111 is made of a high-strength material and is provided at one side of the inside of the main body 10, and the nutrient is formed in a liquid form having a high viscosity so as to be slowly spread in seawater, .

At this time, a supply pipe 111a extending to the outside of the main body 10 is provided at one side of the storage tank 111 to supply nutrients to the inside of the storage tank 111 through the supply pipe 111a to be charged .

The supply pump 112 is controlled by the control unit 90 so that nutrients stored in the storage tank 111 are supplied to the discharge pipe 113 through the connection pipe 113a.

The discharge pipe 113 is formed by using a metal pipe body having the discharge hole 113b formed on its upper surface and is installed to be embedded in the bottom surface of the dwelling plate 11. [

At this time, a nonwoven fabric 113c is laminated on the outer side of the discharge hole 113b of the discharge pipe 113, that is, on the upper surface of the discharge pipe 113. The nutrient discharged to the discharge hole 113b is transferred to the nonwoven fabric 113c And then slowly mixed with seawater to be fed into shellfish or seaweed.

The control means 90 drives the feed pump 112 when the velocity of the current measured by the environment measuring means 60 is equal to or lower than a preset reference speed so that the nutrients stored in the storage tank 111 Is supplied through the discharge hole (113b) of the discharge pipe (113) to the shellfish or seaweed attached to the artificial fish candle.

That is, even if the nutrients are supplied through the discharge hole 113b of the discharge pipe 113, the nutrients are rapidly dispersed by the currents, and it is difficult for the nutrients to be supplied to the shellfish or seaweed, ) Is supplied with nutrients only when the rate of the current is slow by using the environment measuring means (60), so that the nutrients are delivered to the shellfish or seaweed as much as possible.

The multifunctional dome-type artificial fish supporter thus constructed is provided with an environment measurement means 60 for measuring the environment around the main body 10, a control means 90 connected to the environment measurement means 60, And a wireless communication means (100) connected to the wireless communication terminal (101) and capable of performing data communication with the wireless communication terminal (101) of the manager. The control means (90) controls the data measured by the environment measurement means To the wireless communication terminal (101) of the administrator via the wireless communication means (100).

Therefore, it is possible to measure and observe in real time the flow rate, temperature, or light irradiation amount of seawater at the place where the artificial fish candle is installed, so that the growth state of shellfishes and seaweeds vegetated in artificial fish candles at regular intervals and the flow rate of seawater collected continuously Based on values such as temperature or light irradiation, it is possible to obtain information on the most suitable place for shellfish or seaweed to grow, and there is an advantage to be referred when determining the location of the artificial fish candle.

The main body 10 is provided with a GPS receiver 70 for measuring the position of the main body 10 and a tilt sensor 80 for measuring the tilt of the main body 10, Since the data of the position of the main body 10 measured by the GPS receiver 70 and the data of the inclination of the main body 10 measured by the tilt sensor 80 are transmitted to the manager's wireless communication terminal 101 at predetermined time intervals, If the position of the artificial fish is changed by the typhoon or the artificial fish is reversed, the administrator can check it in real time and take action.

The main body 10 is formed in a dome shape in which a central portion of the upper surface is protruded upward and a protruding portion 12 protruding upward is formed in a central portion of the upper surface of the main body 10. In the protruding portion 12, A generator 30 formed in the middle of the flow passage 12a and generating electricity by using seawater passing through the flow passage 12a, (40) provided in the generator (10) and storing electricity generated by the generator (30). The generator (30) generates power by using the force generated when the seawater flows through the channel (12a) And the battery 40 is charged with electricity generated at the same time.

Therefore, since electricity can be produced by itself, there is an advantage that it is not necessary to supply power separately.

The main body 10 is provided with a nutrient supply means 110 for supplying nutrients to the shellfish or seaweed inhabiting the domicile 11 and the nutrient supply means 110 is connected to the main body 10 And a supply pump 112 connected to the storage tank 111 and controlled by the control means 90. The storage tank 111 stores therein nutrients that are helpful for the growth of shellfish or seaweed, And a discharge pipe 113 connected to the supply pump 112 through a connection pipe 113a and having a plurality of discharge holes 113b formed in the circumferential surface thereof, The nutrients stored in the storage tank 111 are supplied to the shellfish or the seaweed which is attached to the artificial fish god through the discharge hole 113b of the discharge tube 113 and is vegetated, There is an advantage that it can grow.

Particularly, the nonwoven fabric 113c is laminated on the outside of the discharge hole 113b of the discharge pipe 113 so that the nutrients discharged to the discharge hole 113b are absorbed by the nonwoven fabric 113c. The supply pump 112 is driven so that the nutrients stored in the storage tank 111 are discharged to the discharge hole 113 of the discharge pipe 113 113b to the shellfish or seaweed.

Therefore, the nutrients discharged to the discharge hole 113b are supplied to the shellfish or seaweeds slowly without being washed away into the algae, so that the nutrients can be more effectively supplied to the shellfish or algae.

6 and 7 illustrate another embodiment according to the present invention. In the body 10, a space 13 is formed.

An inlet (14) and an outlet (15) communicating with the space (13) are formed in the periphery of the body (10).

The injection port 14 and the discharge port 15 are formed on both sides of the protrusion 12 on the upper surface of the main body 10. A supply device 50 for supplying sand and water is connected to the injection port 14 A connection tab 16 is provided.

The supply device 50 includes a supply pump 51, a suction pipe 52 connected to the suction port of the supply pump 51, a supply pipe 51 connecting the discharge port of the supply pump 51 and the connection tab 16, (53).

7, when the supply pipe 53 is connected to the connection tab 16 and the suction pipe 52 is brought close to the sand of the seabed and the supply pump 51 is driven, Sand and seawater are sucked through the suction pipe 52 and supplied to the space portion 13 of the main body 10 through the supply pipe 53 and the connection tab 16, Is discharged to the outside through the discharge port (15), so that the inside of the space portion (13) is filled with sand.

A space 13 is formed in the main body 10 and an inlet 14 and an outlet 15 communicating with the space 13 are formed in the periphery of the main body 10, After the main body 10 is installed on the sea floor, sand and water are injected into the space portion 13 through the injection port 14 to fill the space portion 13 with sand.

Therefore, it is possible to minimize the weight of the main body 10 and to simplify the operation of transferring the artificial fish produced in the factory to the sea. In addition, after the artificial fish is installed on the sea floor, the space 13 of the main body 10, By filling the sand inside, there is an advantage that the artificial fish can be prevented from being pushed by waves.

8 and 9 illustrate a third embodiment according to the present invention. In the periphery of the main body 10, there is provided an earthquake sensor 120 capable of sensing an earthquake, 120 is connected to the control means 90 and outputs a signal to the control means 90 when an earthquake is detected to cause an earthquake occurrence to the administrator's wireless communication terminal 101 via the wireless communication means 100 The notification is configured to transmit the data.

The main body 10 is provided with a plurality of dredging holes 17 penetrating the main body 10 in the up and down direction and a connecting tab 17 18 are formed.

The discharge pipe 19 is connected to a dredging pump provided on a working line for installing the artificial fish candle.

Therefore, when the discharge pipe 19 is connected to the connection tab 18 and the discharge pump is driven in a state where the main body 10 is placed on the sand bottom surface, the sand on the lower side of the dredge 17 Is sucked through the dredging hole (17) and the discharge pipe (19) and is dredged.

After the sand on the lower side of the main body 10 is dredged, the discharge pipe 19 can be separated.

The multifunctional dome artificial fish supporter thus constructed is provided with the earthquake sensor 120 on the main body 10 so that when an earthquake occurs at sea, it can be detected quickly and informed to the manager, There is

In addition, after the main body 10 is placed on the sand portion, the discharge pipe 19 is connected to the connection tab 18, and the sand on the lower side of the main body 10 is dredged. So that it is possible to more effectively prevent the artificial fish from flowing due to waves and the like.

10. Body 20. Ring member
30. Generator 40. Rechargeable battery
50. Feeder 60. Environmental measuring means
70. GPS receiver 80. Tilt sensor
90. Control means 100. Wireless communication means
110. Nutrient supply means

Claims (6)

delete delete A main body 10,
In the artificial fish candle installed in the sea including the annular member (20) provided in the main body (10)
An environment measuring unit 60 provided at a periphery of the main body 10 to measure an environment around the main body 10,
A control means (90) connected to the environment measuring means (60)
Further comprising wireless communication means (100) connected to the control means (90) and capable of data communication with a wireless communication terminal (101) of an administrator,
The control means 90 outputs the data measured by the environment measurement means 60 to the wireless communication terminal 101 of the manager via the wireless communication means 100 at predetermined intervals,
The main body 10 has a dome shape in which a central portion of an upper surface thereof protrudes upward,
A protrusion 12 protruding upward is formed at the center of the upper surface of the main body 10,
The protrusion 12 is formed with a channel 12a through which the seawater passes,
A generator 30 provided at an intermediate portion of the flow path 12a and generating power using seawater passing through the flow path 12a,
Further comprising a rechargeable battery (40) provided in the main body (10) for storing electricity generated by the generator (30).
A main body 10,
In the artificial fish candle installed in the sea including the annular member (20) provided in the main body (10)
An environment measuring unit 60 provided at a periphery of the main body 10 to measure an environment around the main body 10,
A control means (90) connected to the environment measuring means (60)
Further comprising wireless communication means (100) connected to the control means (90) and capable of data communication with a wireless communication terminal (101) of an administrator,
The control means 90 outputs the data measured by the environment measurement means 60 to the wireless communication terminal 101 of the manager via the wireless communication means 100 at predetermined intervals,
On the upper surface of the body 10, a forming groove 11 extending in a circumferential direction and a radial direction is formed,
The main body 10 is provided with nutrient supply means 110 for supplying nutrients to the shellfish or seaweed inhabiting the above-
The nutrient supply means (110)
A storage tank 111 provided inside the main body 10 and storing nutrients that are helpful for growing shellfish or seaweed,
A supply pump 112 connected to the storage tank 111 and controlled to be operated by the control means 90,
And a discharge pipe 113 connected to the supply pump 112 through a connection pipe 113a and having a plurality of discharge holes 113b formed in the circumferential surface thereof,
The nutrient stored in the storage tank 111 is supplied to the shellfish or seaweed through the discharge hole 113b of the discharge pipe 113 when the supply pump 112 is driven,
A nonwoven fabric 113c is laminated on the outside of the discharge hole 113b of the discharge pipe 113 so that nutrients discharged to the discharge hole 113b are absorbed by the nonwoven fabric 113c,
The control means 90 drives the supply pump 112 when the velocity of the current measured by the environment measuring means 60 is equal to or lower than a preset reference speed so that the nutrient stored in the storage tank 111 flows into the discharge pipe 111, Is supplied to the shellfish or algae through the discharge hole (113b) of the shell (113).
A main body 10,
In the artificial fish candle installed in the sea including the annular member (20) provided in the main body (10)
An environment measuring unit 60 provided at a periphery of the main body 10 to measure an environment around the main body 10,
A control means (90) connected to the environment measuring means (60)
Further comprising wireless communication means (100) connected to the control means (90) and capable of data communication with a wireless communication terminal (101) of an administrator,
The control means 90 outputs the data measured by the environment measurement means 60 to the wireless communication terminal 101 of the manager via the wireless communication means 100 at predetermined intervals,
A space 13 is formed in the body 10,
An inlet (14) and an outlet (15) communicating with the space (13) are formed in the periphery of the body (10)
The main body 10 is installed on the sea floor and then sand and water are injected into the space 13 through the injection port 14 so that the inside of the space 13 can be filled with sand Features multi-functional dome-shaped artificial fishes.
A main body 10,
In the artificial fish candle installed in the sea including the annular member (20) provided in the main body (10)
An environment measuring unit 60 provided at a periphery of the main body 10 to measure an environment around the main body 10,
A control means (90) connected to the environment measuring means (60)
Further comprising wireless communication means (100) connected to the control means (90) and capable of data communication with a wireless communication terminal (101) of an administrator,
The control means 90 outputs the data measured by the environment measurement means 60 to the wireless communication terminal 101 of the manager via the wireless communication means 100 at predetermined intervals,
The main body 10 is provided at its periphery with an earthquake sensor 120 which can sense an earthquake and is connected to the control means 90,
The main body 10 is provided with a plurality of dredging holes 17 penetrating the main body 10 in the vertical direction,
And a connection tab (18) is formed at an upper end of the dredger hole (17) to connect a discharge pipe (19).

Images