KR102395486B1 - Tegillarca seed spreader. - Google Patents

Abstract

The present invention relates to a cockle seed spraying apparatus comprising: a spraying apparatus main body including a water input unit formed in a structure having a width that widens in the pulling direction of the apparatus, a spraying unit formed in a structure having a width that narrows in the pulling direction, and a connection unit which connects a water input port and a spraying port and into which cockle seeds are introduced; and a fixed part formed on a side surface of the water input unit of the spraying apparatus main body and enabling the apparatus to be pulled, wherein a seed inlet unit is formed above the connection unit of the spraying apparatus main body and the cockle seeds are supplied into the apparatus through the seed inlet unit. Accordingly, movement is caused by a vessel or an electric power device that induces pulling. Accordingly, even without forming a separate water pressure within the apparatus, the water pressure to be supplied to the spray is formed to save energy. The apparatus is automated. As such, cockles can be more efficiently sprayed.

Description

Automatic dispersing device for shellfish seed shells such as cockle for powered mudfish in tidal flat farms {Tegillarca seed spreader.}

The present invention relates to an apparatus for spraying the seed hulls of cockle larvae in tidal flats or farms. It relates to a cockerel seed spreading device that can automatically spray cockle seed at regular intervals, thereby reducing manpower and time required compared to the existing seed seed spreading operation.

Tegillarca granosa, which is a useful shellfish in the shallow sea, is also known as a cockroach, and is a shellfish belonging to the subclasses bivalve, subclass, porphyria, and porcelain. is known

Among these, important industrial species are cockle, scapharca broughtonii, Scapharca satowi, and scapharca subcrenata. Resources were developed in the 1970s and the amount is quite large, and aquaculture technology has been developed as a culture variety in recent years.

Cockroaches spawn at a water temperature of 25℃, and the fertilized eggs become D-phase larvae, which are floating larvae, only one day after hatching and fertilization. After 7 days of hatching, most of the larvae grow into large climacteric larvae, and the size at this time is about 0.1-0.2 mm in length. About 2 weeks after hatching, it develops into a mature floater, and from this point on, it enters the stage of calming down.

The size of the cockle larvae during the deposition period is 0.18 - 0.30 mm, and when they enter the life of the deposition, the growth is rapid thereafter. The length of floating life is closely related to the temperature, but generally it takes about 4 weeks when the water temperature is 20℃, and it takes about 2 weeks when the water temperature is around 25℃. Growth after deposition reaches 10 ~ 17 mm in about 1 year, and 22 ~ 25 mm in 2 years.

The cockroach is widely distributed in the west and south coasts of Korea, and it is the most shallow among cockroaches and inhabits the intertidal zone when it is released at low tide. The site of chives is a shallow, fine sandy bottom where the wind and waves are calm. It likes warm currents and lives in a place where the water is calm and the water depth is about 2-4m at high tide. As a bay surrounded by land, freshwater flows in, algae communication is good, and the water depth is 2-3m at high tide, but there are few places that are slightly exposed at low tide.

The method of supplying and supplying cockerel aquaculture species using tidal flats only relies on the collection of natural cockle larvae. In particular, Korea is in an industrially restricted environment due to the relatively short period at which the water temperature is maintained, during which the growth of cockle is vigorous.

Accordingly, the field of cockle cultivation requires the development of more efficient aquaculture methods. Shellfish culture in Korea has been limited to a few species such as oysters, clams, cockle scallops, scallops, clams, and lilies, and aquaculture technology has been developed. Due to mass production of seedlings, non-establishment of aquaculture technology, and frequent mass mortality of cultured organisms, the production of cultured shellfish is irregular and unplanned. In addition, production is decreasing every year due to marine environmental pollution, deterioration of the fishing grounds due to reclamation and reclamation, reduction of habitats, and reckless overfishing.

Aquaculture and fishing villages and each local government are carrying out the work of releasing (spraying) seed shells. The seed shell release project is actively carried out in each fishing village as it can expand the habitat of resources and increase the income of local fishermen by mass-cultivating seed shells and distributing them to fishing villages.

In the seed shell release business, the net is soaked in the sea for a certain period of time so that the seed shell that goes from the floater to the attachment phase is attached to the net, and the seed shell attached to the net is separated from the net, grown to a certain size, and then sprayed on the fishing grounds. do.

In the past, the cockerel seed or larvae were sprayed on board the sea area or the tidal flats by a worker manually using a shovel. Such a spraying operation had a problem in that the seed plate was not evenly distributed and distributed unbalanced. Domestic Patent No. 10-1666788 discloses an invention related to a seed spraying device, but in the case of seed spraying, power must be consumed to supply and control water pressure. Accordingly, the present invention is to provide a device for dispersing cockle species that can further reduce spraying efficiency and power consumption.

Domestic Patent No. 10-1666788 has a hopper part provided with an opening at the bottom to provide a space for accommodating the seed plate, a door part selectively opening and closing the opening, and the seed plate discharged through the opening. Disclosed is a seed shell spraying device comprising a dispersing unit for dispersing, and a water supply unit for supplying water so that the seed shell can be dispersed in the dispersing unit. In Korea Patent Publication No. 10-2019-0068994, the silver is coupled to the ship's ship and rotated to form a drum that winds up the net, and the lifting part is coupled to the railing of the ship so that the net does not collide with the outer circumferential surface of the ship. and a first separation unit in which a moving guide unit having a roller for guiding the movement of the net is formed, and a first brush coupled to a line between the lifting unit and the moving guide unit, rotated and formed to separate the longitudinal plate attached to the net. Including, and at the same time as lifting the net to which the seed plate is attached on a ship, it discloses a seed plate collecting device for detaching the seed plate from the net. In Korean Patent No. 10-1179294, at least one long pipe is formed in the longitudinal direction, and one side is submerged in seawater and positioned to face the sea floor, and the other side is supported by a support means on the hull of a ship, the support means of One side is fixed to the hull, the other side is disclosed with respect to a plaque spreading device consisting of a configuration that is fixed to the upper end of the pipe. In Korea Patent Publication No. 10-2019-0068994, a lifting part that is coupled to the ship's ship, rotates and forms a drum to wind up the net, and the railing of the ship, so that the net does not collide with the outer circumferential surface of the ship , It includes a moving guide part in which a roller for guiding the movement of the net is formed, and a first separating part that is coupled to a line between the lifting part and the moving guide part, rotates and forms a first brush for separating the longitudinal plate attached to the net. And, to provide a seed-collecting device for lifting the net to which the seed-plate is attached to the ship and at the same time separating the seed-plate from the net.

The present invention is to solve the problem that the worker manually sprays the existing cockle seed in the spraying sea area or tidal flat using a shovel, etc. We would like to provide a device for dispersing cockle seedlings.

The cockle seed spraying device according to an embodiment of the present invention connects the receiving part of the structure in which the width in the traction direction of the device is widened in the traction direction and the spraying part of the structure in which the width is narrow in the traction direction, and connecting the inlet and the spraying port, The main body of the spraying device is composed of a connecting part into which is introduced; A fixing part is formed on the side of the acquisition part of the spraying device body so that the traction of the device can be made; The upper part of the connection part of the spraying device main body may be to be formed with a seedling input part through which the cockle seed is supplied to the inside of the device.

The spraying device body has a hollow portion formed in the traction direction, and the openings at both ends of the connection part are connected to the acquisition part and one end of the spraying part, and seawater flows into the acquisition part, and is discharged to the spraying part together with the seed plate supplied to the connection part, and the seed plate input part on line or It may be formed in a length that can reach the power unit for inducing traction of the device, so that the longitudinal plate can be supplied. In addition, the fixing part may be connected to and fixed to a power device for inducing traction of a ship or a powered baebae through a fixing device.

The spraying of cockle larvae of the present invention is generated by movement generated by a ship or a power device for inducing traction, so it is possible to save energy by forming the water pressure supplied to the spraying without forming a separate water pressure in the device, and spraying operation This is automated and has the advantage of more efficient spraying of cockle.

1 shows a conventional cockroach seed spraying operation.
Figure 2 shows a perspective view of the cockroach seed spreading device of the present invention.
Figure 3 shows a side view of the cockroach seed spreading device of the present invention.
Figure 4 shows the seed plate input of the present invention.
5 shows a fixing part of the present invention.
Figure 6 shows the spraying device body according to the first embodiment of the present invention.
7 shows a cockpit seed spreading device according to Example 2 of the present invention.
Figure 8 shows the cockpit seed spraying power device according to the third embodiment of the present invention.

With reference to the drawings related to the cockroach seed spreading device of the present invention, it will be described in detail as follows. Figure 1 shows a conventional cockroach seed spraying operation. In the past, cockerel seed or larvae were manually sprayed using a shovel, etc. in the spraying area or tidal flat. In this kind of spraying operation, the seed shells are not evenly dispersed but are distributed in an unbalanced manner. there is.

Figure 2 shows a perspective view of the cockroach seed spreading device of the present invention, Figure 3 shows a side view. The seed plate spreading device of the present invention is coupled to a connection part forming a hollow through hole, a receiving part and a spraying part made of a through hole having a predetermined volume on the left and right sides of the connection part, and the top of the connection part is configured to supply the seed plate to be sprayed to the inside of the connection part The seed plate input unit is connected, and seawater flows into the acquisition unit, and seawater is discharged to the spray unit together with the seed plate supplied to the inside of the connection part through the seed plate input unit.

The cockroach seed spraying device of the present invention has a structure with a wide structure in the traction direction of the device, a spray part with a structure that is narrow in the traction direction, and the connection between the inlet and the spray port and a connection part through which the cockle seedlings are introduced. Dispensing device body 10 made of; A fixing part 30 is formed on the side of the acquisition part of the spraying device body so that the traction of the device can be made; An upper portion of the connecting portion of the spraying device body may be formed by forming a seedling input unit 20 through which cockerel seedlings are supplied to the inside of the device.

The spraying device main body 10 of the present invention is made of the same structure as the acquisition part and the acquisition part having a cross-sectional structure of an isosceles trapezoid having a hollow part formed in the traction direction and having a wide width in the traction direction. It is made, and a connection part is installed to connect the acquisition part and the spray part.

The connection part is formed with a hollow part in the traction direction, and both ends of the opening are connected to one end of the acquisition part and the spraying part, and thus the spraying device body may include a cross-sectional structure in which the width converges toward the fixed part.

In addition, the inlet area of the acquisition part and the spray part is formed larger than the central connection part, and has a downward inclined surface of a certain angle in the inlet direction and the spraying direction. The structure introduces a large amount of seawater to the acquisition unit and is discharged to the spray unit through the connection unit.

At this time, in the structure in which the width converges toward the connection part, the fluid pressure of the seawater introduced into the ingestion part increases gradually according to Bernoulli's law, the fluid pressure in the device becomes the largest at the connection part, and the pressure gradually decreases in the spray part. Accordingly, the speed is inversely proportional to the pressure, and the speed of the fluid flowing into the ingestion part gradually slows down, then becomes the slowest in the connection part and flows to the spray part and the speed increases, so that the cockle seed supplied from the connection part can be efficiently sprayed.

Figure 4 shows the seed plate input of the present invention. A longitudinal input unit 20 is installed on the upper part of the connection part. The seedling input part has a pipe structure and is formed to a length that a user can supply the cockle feeder to the inside of the connection part on board. As an embodiment, the input unit may be preferably implemented as a kamrock coupler, which is strong against vibration or external shock and is easily detachable.

Figure 5 shows the fixed part in the direction of the acquisition part of the present invention. On either side of the acquisition unit, a fixing unit 30 is formed to be fixedly connected to a ship or towing power unit through a fixing device. According to an embodiment of the present invention, the fixing part is formed in a ring shape and the fixing device is implemented as a rope and may be connected to a power device for inducing a ship or towing.

The cockroach seed spraying device of the present invention is connected to a power device capable of inducing traction of a ship or device, and at the same time as the towing of the device, when the cockle feeder is supplied to the seedling input part, the cockle seed is sprayed together with seawater to the acquisition part. At this time, the spraying of cockle larvae flows into the spraying device intake part by the propulsive force generated by the ship or the power bait that induces towing and is discharged to the spraying part. It can save money, and it has the advantage of automatically and more efficiently spraying cockle.

Figure 6 shows the spraying part of the spraying device main body of the cockle seed spraying device according to the first embodiment of the present invention. One or more protrusions 100 extending in length in the distribution direction of seawater are formed in the inner lower portion of the spraying part of the spraying device body according to the first embodiment of the present invention to be spaced apart and parallel to each other. The lower inner portion of the spraying unit may be formed of a curved plate structure in which a curve is formed. In Example 1 of the present invention, after the cockle seed is supplied to the connection part, it is sprayed together with seawater from the spraying part to prevent the seed plate from being skewed to one side due to a sudden change in water pressure, and the seed plate slides along the concave space formed between the protrusions. As a result, it can be spread more evenly on the tidal flat.

7 shows a cockpit seed spreading device according to Example 2 of the present invention. One or more cockle seed spraying device (D) according to the second embodiment of the present invention is connected to the vessel (S) through the fixing device. Depending on the direction of the vessel's operation, the cockle seed dispersing device can automatically spray the cockle seed at the same time as towing, and by connecting multiple pieces to one vessel, it has the effect of being able to spray over a wider area of the sea.

Figure 8 shows the cockpit seed spraying power device according to the third embodiment of the present invention. The cockerel seed spreading device according to the third embodiment of the present invention is installed in a seed shell spraying power device capable of spraying cockle seed on the tidal flat. Conventionally, in the case of spraying cockle larvae on the tidal flat, the worker has a disadvantage in that it takes effort and time to spray while moving while kicking on a plank formed of a certain width and length.

The seed spreading power device according to the third embodiment of the present invention is a plate material filled with buoyancy material so that it can float by buoyancy against tidal flats or seawater in the shape of a polygonal flat plate. (200), a cockerel seed spreading device that is fixed and connected to the main body of the power unit and a fixing device as a medium, a driving unit 300 that is installed at the rear end of the main body of the power unit and rotates to advance or reverse the main body of the power unit 300, and the It may be composed of a power generating unit 400 that supplies power or power to the driving unit.

The driving unit includes a driving motor configured to be driven by receiving power or power from the power generating unit, a steering unit in which the driving motor is installed, and a pair of driving wheels disposed in parallel on both sides of the steering unit.

The driving wheel is disposed at both ends of the drum and a plurality of rotary blades radially disposed on the outer peripheral surface of the drum on which the drive shaft of the drive motor is axially installed to limit the rotation angle of the plurality of rotary blades It may include an inner plate and an outer plate.

The power unit body is formed in the shape of a polygonal flat plate having a size that can be boarded by passengers including workers. In addition, the power unit body may be filled or installed with a buoyancy material that provides buoyancy to be able to float on the surface of tidal flats or sea water.

A power generating unit may be installed on the upper portion of the power unit body. The power generating unit may be a hydraulic or pneumatic device including a hydraulic pump or a pneumatic pump, and thus may be configured to drive the drive motors by hydraulic or pneumatic pressure.

The driving unit includes a steering unit having a built-in driving motor therein and a pair of driving wheels disposed side by side on both sides of the steering unit. The drive wheel includes a plurality of rotary blades radially disposed on the outer circumferential surface of the drum on which the drive shaft of the drive motor is axially installed, and an inner plate and an outer side plate disposed at both ends of the drum to limit the rotation angle of the plurality of rotary blades Plates may be included.

In addition, the inside of the drum may be filled with a buoyancy material so that the driving unit can float with buoyancy in the tidal flat or sea water. Locking projections for limiting the rotation of the plurality of rotary blades are arranged on the inner plate and the outer plate in the circumferential direction, and the rotation of the plurality of rotary blades can be restricted by the locking projections. In the inner plate and the outer plate facing each other, the first locking protrusions are installed to protrude at regular intervals in the circumferential direction.

As the driving unit moves forward in a state of being suspended in the tidal flat or seawater, the plurality of rotor blades rotate in one direction, and the plurality of rotor blades rotate angularly in the opposite direction to the direction of rotation due to resistance generated by frictional force against the mudflat or seawater. is done

The plurality of rotary blades are caught by the first locking projections, respectively, to be in a state unfolded at right angles to the outer surface of the drum, so that rotation is made in a radially unfolded state. This will allow for easy advancement.

If it is assumed that the driving unit moves backward while floating in the mudflat or seawater and the plurality of rotor blades are rotated counterclockwise, one surface of the plurality of rotor blades also rotates due to the generation of resistance due to frictional force against the mudflat or seawater. Angular rotation is made in the opposite direction to the direction.

The plurality of rotor blades are each caught by the second locking projections to be folded in a direction inclined by a predetermined angle with respect to the outer surface of the drum, so that it is possible to shake off the mud flat accumulated between each rotor blade. Therefore, it is possible to easily shake off the tidal flat soil, etc. loaded between the respective rotary blades when the driving unit is reversing.

One or more cockroach seed spraying devices according to Example 3 of the present invention are installed in the seed spraying power device, and the seed shell spraying operation is easy and work efficiency can be increased even on tidal flats where it is difficult to pull the device due to its strong viscosity.

The present invention provides a device capable of more efficiently dispersing seed scallops in aquaculture technology development is insufficient, thereby contributing to the creation of an economic effect due to the decrease in the labor force of related fishermen and the expectation of increasing or decreasing the cockle production. There is a possibility of use.

10: spraying device body 20: input unit
30: fixed part 100: protrusion
200: power unit body 300: driving unit
400: power generating unit
D: cockle seed spreader S: ship

Claims (3)

A connection portion forming a hollow through hole, a receiving portion and a spraying portion consisting of a through hole having a certain volume on the left and right sides of the connection portion are combined,
The inlet area of the acquisition part and the spraying part is formed larger than the central connection part, and forms a downwardly inclined inclined surface of a certain angle in the inlet direction and the spraying direction,
The seed plate input part configured to supply the seed plate to be sprayed to the inside of the connection part is connected to the upper part of the connection part, and seawater flows into the acquisition part, and seawater is discharged to the spray part together with the seed plate supplied to the inside of the connection part through the seed plate input part. cockle seed spraying device
According to claim 1, wherein a fixing part is formed on one side of the acquisition part to be connected and fixed with a ship or a towing power device through a fixing device.
delete

Images