KR101223978B1 - Device for discharging a fry - Google Patents

Abstract

PURPOSE: A device for discharging fishes is provided to minimize stress and physical impact and to efficiently discharge fishes. CONSTITUTION: A device for discharging fishes comprises of a discharging case(1) which is formed with an opening part in the front bottom, a discharging channel(4) in which a buoy(7) is connected to lower side, and a case support(11) which is installed at the lower part of the discharging case and supports the discharging case. The upper end part of the discharging channel is connected to the discharging case by a rotary shaft(8).

Description

Fish seedling discharge device {Device for discharging a fry}

The present invention provides a device capable of discharging fish seedlings from the deck of the ship without leaning to the railing of the ship, so that the discharge operation of fish seedlings can be carried out more easily and efficiently in the state of securing the safety of the discharger. In addition, the present invention relates to a fish seedling discharge device that can greatly improve the health status and survival rate of fish seedlings by minimizing the stress and physical impact that can be received during the introduction of fish seedlings into the water.

In recent years, meat consumption has gradually decreased due to livestock diseases such as foot-and-mouth disease, avian influenza or mad cow disease, whereas the consumption of fish and aquatic products, which are health-well-being foods as a good source of protein, is on the rise.

According to this trend, the consumption value of live fish is about 5 to 10 times higher than before, and the consumption of aquatic products including live fish is expected to increase continuously. About% depends on aquaculture.

In addition, due to the pollution of the marine environment and the overfishing of marine products, fishery resources in the coastal waters are continuously decreasing. As a countermeasure, policies such as sea ranching and sea forest creation projects have been steadily implemented. In order to raise resources, 80 million to 100 million fish species are released to the sea every year.

The method of discharging fish seedlings to the sea differs depending on the breeds to be discharged. However, in the case of fish seedlings such as larvae, most of them are marine discharge by ship or off-shore discharge. B. It is adhered to the method of putting fish seedlings in small containers and spraying them into the sea.

In the marine discharge of fish seedlings by embarkation, the discharger leans forward on the ship's railings and leans forward and extends his arms to the outside of the railings to pour out the fish seedlings contained in a basket or small container. Because it is carried out, there was a very high risk of accidental accidents that the discharger who leaned on the railing falls to the surface when the ship suddenly swings due to waves or the like.

In addition, if fish seedlings are sprayed on the surface of the ship's railing at a relatively high position from the surface of the water, the fish seedlings are subject to a lot of stress or physical impact during the collision with the water surface, so that the infection may be caused by the wounds in the crash. Not only was high, but in severe cases, the impact of the impact on the surface of the fish caused death or malformation.

Therefore, it is possible to disseminate fish seedlings more easily by releasing the existing marine discharge method, and to release fish seed more easily, and to minimize the stress and physical impact on fish seedlings during the discharge process. There has been a search for a way to carry out marine stocking operations.

The present invention has been made to solve the above-mentioned conventional problems, the fish seedling discharge device according to the present invention, forming an opening in the bottom surface of the front side of the discharge case in which the fish seedling is put, the opening of the vessel By connecting and installing the discharge channel extending from the railing to the water surface, the discharge case can be positioned at a predetermined height from the deck of the ship by the case support, so that the discharger does not lean on the railing of the ship, This ensures that the stocking of the fish is carried out, thereby ensuring that the stocking of the fish stock is carried out more easily and efficiently, while ensuring the safety of the fish stock, as well as the stress and physical stress of the fish stocking process. Minimizes impacts and greatly improves health status and survival rate It is a technical task to make it possible.

Fish seed discharging device according to the present invention as a means for solving the above technical problem, has a tray form for the introduction of fish seedlings, through the discharge case having an opening in the front bottom surface, and through the opening of the discharge case The upper end portion is inserted and installed on the lower side of the discharge channel is connected to the mouth is installed, and the case base is installed in the lower portion of the discharge case to support the discharge case, the upper end of the discharge channel by the rotation shaft shaft It is installed in connection with, the case support, a pair of support legs that are installed in the cross-shaped "X" form on both sides of the discharge case, the connecting shaft is installed through the intersection of the support legs, and the support legs It consists of a support plate, the upper side and the lower end of the support leg on the lower side of the discharge case and the upper surface of the support plate A rail frame having a “U” shaped cross section is installed, and the upper end and the lower end of the support leg are connected to the corresponding rail frame by a connecting shaft penetrating the rail frame in a horizontal direction, and the rail frame is connected to the support leg. The height adjustment hole for guiding the movement of the connecting shaft is formed in the incision along the longitudinal direction, the case support is characterized in that the height adjusting means for adjusting the height of the discharge case by moving the support legs along the connecting shaft along the rail frame .

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As a preferred embodiment of the height adjusting means, a bolt portion is formed at the end of the connecting shaft protruding to the outside through the height adjustment hole of the rail frame, the bolt portion is in close contact with the outer surface of the rail frame to fix the position of the support legs And a discharge water supply pipe is installed in the discharge case, and the discharge channel is installed to be telescopically stretchable, and a hook type is caught on the railing of the vessel at the front side of the case support. The railing hanger is characterized in that the installation is connected to the angular movement.

According to the present invention as described above, the discharger does not lean on the railings of the ship, using the basket or small container containing the fish seedlings on the deck of the ship effect to perform the discharge operation only by putting the fish seedlings into the discharge case. This provides an effect that enables easier and more efficient ocean discharge operations while securing the safety of the discharger first.

 In addition, the fish seedling slides along the discharge channel installed in an inclined state from the discharge case to the water surface and is introduced into the water, thereby minimizing the stress and physical impact applied to the fish seedling during the discharge operation. Disease infection and malformations or death can be prevented, and this also greatly improves the health and survival of fish seedlings.

In particular, the height of the discharge case can be adjusted according to the ship's railings or the height of the discharger, the discharge water supply pipe is installed in the discharge case, and the discharge channel can be installed telescopically to expand and expand the fish species as well as other fisheries. It can be applied to discharge of seedlings in a compatible way, and it can have a very useful effect such as providing an optimized discharge device for marine discharge by maximizing convenience for transportation, installation, handling and use.

1 is an external perspective view of a fish seedling discharge device according to the present invention.
Fig. 2 is a side sectional view of Fig. 1; Fig.
3 is an external perspective view of the discharge case.
4 is a cross-sectional view taken along the line AA of FIG.
5 is a side cross-sectional view illustrating one embodiment of a telescopic discharge channel.
6 is a side cross-sectional view showing another embodiment of a telescopic discharge channel.
Figure 7 is a use state of the fish seedling discharge device according to the invention.

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

Fish seed discharge device 10 according to the present invention has a tray (Tray) for the introduction of fish seed, as shown in each of Figures 1 to 4, the discharge is formed with an opening 9 in the front bottom surface A discharge channel 4 having an upper end portion inserted through a case 1 and an opening 9 of the discharge case 1, and having a mouth hole 7 connected to a lower rear side thereof; It is made of a case base 11 installed in the lower part of the case 1 to support the discharge case (1).

In the drawing, the discharge case 1 is a rectangular case having an open upper end surface, and the discharge channel 4 is also formed as a deformed channel having an open upper end. It is also possible to provide a separate cover at the upper end of the discharge case (1) and the discharge channel (4) for the purpose of preventing, and both sides of the upper end of the discharge channel (4) inserted through the opening (9) of the discharge case (1) The hinge stand 8a is formed to protrude, and the hinge stand 8a portion is connected to the discharge case 1 by the rotation shaft 8.

Accordingly, the discharge channel 4 can be rotated by a predetermined angle around the rotation shaft 8 as shown in FIG. 2, and connects the upper end of the discharge channel 4 to the discharge case 1. It is necessary to consider such rotational side during work, but to minimize the gap or protrusion between the upper end of the discharge channel 4 and the bottom of the discharge case 1 so as not to disturb the discharge of fish seedlings. Do.

1 to 3, when the bottom surface of the discharge case 1 is formed as an inclined surface 1a which is inclined downward toward the opening 9, the fish introduced into the discharge case 1 are formed. Seedlings can be easily guided to the discharge chamber 4 side along the opening side 9 along the bottom side inclined surface 1a, and instead of forming such inclined surface 1a, the discharge case 1 itself is provided as a case support 11. It is also possible to install inclined on the.

The discharge water supply pipe 21 may be installed on the rear upper surface of the discharge case 1 as shown in FIGS. 1 and 2 so that the discharge operation of the fish seedlings together with the inclined surface 1a can be performed more quickly and reliably. The discharge water supply pipe 21 opens the valve mechanism V when the fish seedlings introduced into the discharge case 1 do not flow into the discharge channel 4 and remain in the discharge case 1. (1) to allow the discharge of effluent (sea water) or to continuously supply effluent during discharge.

In addition, the discharge case (1) is an input case (2) for the introduction of fish seedlings, and the lower support frame (3) installed on the lower side of the input case (2) to protect and support the input case (2) The discharge channel 4 is also provided with a main channel 5 for providing a discharge passage for fish seedlings, and a lower end installed at a lower edge of the main channel 5 to protect and support the main channel 5. It is preferable to comprise the support frame 6.

In this case, as shown in FIG. 3, the opening 9 of the discharge case 1 is cut out over the input case 2 and the lower support frame 3, and the upper hinge side 8a of the discharge channel 4 is formed. The insertion part is formed in the side portion of the input case 2 in connection with the opening 9, while the shaft hole 1b for assembling the pivot shaft 8 is formed in the lower support frame 3, and the discharge case ( The inclined surface 1a of 1) is formed on the bottom surface of the input case 2 except for the opening 9.

The pivot shaft 8 may be installed in such a manner as to semi-permanently connect the discharge channel 4 and the discharge case 1, the shaft hole (1b) of the discharge case 1 and the hinge of the discharge channel (4) ( 8a) by being detachably installed through the fitting, it is also possible to disassemble or assemble the discharge channel 4 and the discharge case 1 as necessary, and to apply the latter method to the discharge device 10 Minimize the space required for storage, and provide a more advantageous advantage in terms of easy transport and mounting of the discharge device (10).

In addition, when the input case 2 of the discharge case 1 and the main channel 5 of the discharge channel 4 are made of transparent acrylic material, they are introduced into the discharge case 1 and discharged along the discharge channel 4. It is easier to visually check the feeding and discharge state of fish seedlings. Since the discharge channel 4 has a length from the railing of the ship to the water surface, the reinforcing bar (6) is provided at the lower support frame (6) at regular intervals. It is preferable to form 6a).

Since the discharge channel 4 has a relatively long length from the railing of the ship to the surface of the ship, the discharge channel 4 can be stretched in the form of a telescope as shown in FIGS. 5 and 6. When installed, it may provide more advantageous advantages in terms of improving the convenience of carrying, mounting, handling and using the discharge device 10.

5 and 6 illustrate a three-stage telescopic discharge channel 4 consisting of an upper channel 4a, an intermediate channel 4b, and a lower channel 4c, but having a two-stage or four-stage telescopic structure. 6, in the case where each channel forms a sealed passage in the form of a square cylinder, each channel is made of a transparent acrylic material, while the intermediate channel 4b and the lower channel 4c are formed. It is preferable to form the inner periphery of the rear end side (upper side on the drawing) of the rounded portion 4d of the smooth curved surface so that the stepped portion does not protrude on the discharge passage.

However, the telescopic discharge channel 4 shown in FIG. 5 and FIG. 6 merely shows a representative embodiment that can be applied to the present invention. In addition to this, other various types of telescopic structures can be applied, Automatically controlled telescopic operation using a mechanism is also possible, and this telescopic telescopic construction is a clear application of a well-known technique widely used in various machinery fields.

On the other hand, the buckle 7 installed on the lower back side of the discharge channel 4 serves as a means for allowing the lower end side of the discharge channel 4 together with the rotational shaft 8 to be placed on the water surface more safely. As shown in FIG. 2, a buoyant material 7b inserted into the outer case 7a may be used. As shown in FIGS. 5 and 6, the inner space of the outer case 7a is a buoyancy space 7d, that is, a bin. It is also possible to use one formed in space.

Likewise, the above-described floats 7 may also be used as long as the lower portion of the discharge channel 4 can provide a predetermined buoyancy so that the lower portion of the discharge channel 4 can be positioned on the surface of the water. 7) may be fixedly adhered to the lower surface of the discharge channel 4 at the lower end side, or may be detachably tied to the discharge channel 4 using a separate binding rope 7c or the like.

As a component corresponding to still another main part of the present invention, the case support 11 is shaped as an "X" at the lower left and right sides of the discharge case 1, as shown in FIGS. 1, 2 and 4, respectively. It consists of a pair of support legs 13 which are installed to cross each other, a connecting shaft 18 installed through the intersection of the support legs 13, and the support plate 12 of the support legs 13, As shown in phantom in Figure 4 the connecting shaft 18 is installed through the intersection of the left and right support legs 13 in the width direction of the support plate 12.

In addition, rail frames 14 and 15 having a “U” -shaped cross section into which the upper and lower ends of the support legs 13 are inserted are provided on the lower side of the discharge case 1 and the upper surface of the support plate 12. The upper and lower ends of the support legs 13 are connected to the rail frames 14 and 15 by a connecting shaft 18 penetrating the rail frames 14 and 15 in the horizontal direction, as shown in FIG. 4. The connecting shaft 18 connecting the rail frames 14 and 15 and the support legs 13 is also penetrated through the left and right rail frames 14 and 15 along the width direction of the support plate 12.

Instead of using a long connecting shaft 18 connecting the left and right support legs 13 and the rail frames 14 and 15 over the width direction of the support plate 12 as described above, the left and right supports are supported. A connecting shaft of a short length, that is, a connecting pin which is used only for the connection of the corresponding portions, for each part of the rail frame 14 and 15 into which the intersection portion of the leg 13 and the upper and lower portions of each support leg 13 are inserted. You can also install

Referring to FIG. 2, the support leg 13 portion inserted into the front end portion of the upper rail frame 14 and the lower rail frame 15 may be angularly moved by the connecting shaft 18. The support leg 13, which is inserted into the rear end of the upper rail frame 14 and the lower rail frame 15, has a long hole-shaped height adjustment hole formed in the longitudinal direction of the corresponding rail frame 14, 15. It is possible to move horizontally with the connecting shaft 18 along the 14a and 15a.

According to the structure of the case support 11 as described above, as shown by the virtual line in Figure 2, the pair of support legs 13 crossed in the form of the "X" shape around the connecting shaft 18 It is possible to adjust the height of the discharge case (1) by spreading or retracting in the rearward direction, and for this purpose, support legs 13 along the height adjusting holes 14a and 15a of the rail frames 14 and 15. The height adjustment means for adjusting the height of the discharge case (1) by moving together with the connecting shaft (18) is provided in the case support (11).

As an example of the height adjustment means, as applied to a table lift, which is an automated machine, the discharge case 1 and the support plate include a lifting cylinder with a piston rod or a lifting screw jack provided with a rod screw. 12) may be installed in connection with the support bridge 13, but using such a separate hydraulic or power mechanism is a little uneconomical considering the discharge of fish seedlings.

In other words, since the discharge device 10 of the present invention is installed and used on the railing of the ship during the discharge operation of fish seedlings, it is economical to apply an expensive hydraulic mechanism or an electric drive to the discharge device 10. Rather, it provides a factor that makes the transportation, mounting, use and handling of the discharge device 10 difficult, so that it is desirable to use a manual height adjustment means having a simple structure as much as possible.

As shown in the enlarged portion of FIG. 4 as the manual height adjusting means, the connecting shaft 18 protrudes outwardly through the height adjusting holes 14a and 15a of the rail frames 14 and 15. The bolt portion 18a is formed at the end of the head), while the bolt portion 18a is in close contact with the outer surface of the rail frame 14 and 15 so that the position of the support leg 13, that is, the discharge case 1 Position fixing knob 16 for fixing the height is fastened and installed, it is also possible to use a washer (16a) with the position fixing knob 16 for the reinforcement of the tightening force if necessary.

As another example of the manual height adjusting means, a plurality of height adjusting holes are formed in the rail frames 14 and 15 instead of the height adjusting holes 14a and 15a, and the upper and lower ends of the support legs 13 are provided. By forming a hole corresponding to the height adjustment hole of the rail frame 14, 15, the hole of the support leg 13 is matched with the height adjustment hole at an arbitrary position according to the height of the discharge case 1 required. The fixing pin may be inserted through the hole, and a manual screw jack may be installed between the discharge case 1 and the support plate 12. In addition, various other types of manual height adjusting means may be applied. Of course.

In addition, although not shown in the drawings, wheel-shaped rollers are installed at the upper end and the lower end of the support legs 13 moving along the rail frames 14 and 15, and the roller shaft of the roller is connected to the connecting shaft 18. When installed in the form of, the height adjustment of the discharge case 1 according to the movement of the support leg 13 can be performed more smoothly and smoothly by the roller mechanism.

As an additional component included in the discharge device 10 of the present invention, a hook-type railing hook 17 having a hook on the rail of the ship is installed at the front side of the case support 11, the railing hook ( 17 is preferably installed on the outer side of the lower side rail frame 14, each railing 17 is also installed to enable the angular movement by the connecting shaft 18 through the rail frame 14 It is preferable that the railing auxiliary hook 17a may be further provided on the lower side of the discharge case 1 as necessary.

Hereinafter, the working relationship of the present invention having the above configuration will be described in detail with reference to FIG. 7.

First, by using the vessel 20 to move to the nearby waters to discharge fish seedlings, the discharge device 10 of the present invention is located inside the handrail 19 of the vessel 20, the discharge channel (4) While letting the lower end of the crest reach the water surface over the handrail 19, the handrail hanger 17 and the auxiliary hanger 17a are hung on the handrail frame 19a to discharge the discharge device 10 of the present invention. It will be set according to the task.

In the above state, when the discharger holds a basket, a small container or a plastic bag containing fish seedlings by hand, and puts the fish seedlings together with seawater into the discharge case 1, the front side of the discharge case 1 Fish seedlings are introduced into the water along with the opening 9 and the discharge channel 4 formed in the water, and the bottom surface of the discharge case 1 is the inclined surface 1a, and the discharge case is provided through the discharge water supply pipe 21. (1) If seawater is supplied inside, discharge of fish seedlings can be performed more quickly and reliably.

As described above, the discharger does not lean forward while leaning against the railing 19 of the ship 20, and puts the fish seedling into the discharge case 1 using a basket or a small container containing fish seedlings from the deck of the ship 20. Discharge work can be carried out just by making it possible, which makes it easier and more efficient at sea discharge work while securing the safety of the discharger first.

In addition, the fish seedling slides along the surface of the discharge channel 4 installed in an inclined state from the discharge case 1 to the water surface and slides into the water so that the stress and physical shock applied to the fish seedling during the discharge operation. Minimize and prevent wounds, disease infections, and malformations and deaths, thereby improving the health status and survival rate of fish seedlings.

In particular, it is possible to adjust the height of the discharge case 1 in accordance with the handrail 19 of the ship 20 and the height of the discharger, and by installing the discharge channel 4 in a telescope form, it is possible to not only fish breeding The discharge device 10 of the present invention can also be applied to the marine discharge operation of other fish seedlings interchangeably, and the convenience of carrying, mounting, handling and using the discharge device 10 can be maximized.

Finally, each component constituting the discharge device 10 of the present invention is preferably made of a plastic material in consideration of the weight reduction of the device and corrosion resistance to seawater, but some components or the entire component if necessary It is also possible to produce a metal having excellent corrosion resistance and mechanical strength, for example, stainless steel, and in the case of handrail 17 or auxiliary hook 17a, a metal material is more preferable.

1: discharge case 1a: slope 1b: shaft hole
2: input case 3,6: lower support frame 4: discharge channel
4a: upper channel 4b: middle channel 4c: lower channel
4d: round part 5: main channel 6a: reinforcement
7: buoy 7a: outer case 7b: buoyancy material
7c: binding rope 7d: buoyancy space 8: rotating shaft
8a: hinge 9 9: opening 10: discharge device
11: case support 12: support plate 13: support legs
14,15: rail frame 14a, 15a: height adjustment hole 16: position fixing knob
16a: washer 17: railing rack 17a: auxiliary rack
18: connecting shaft 18a: bolt 19: handrail
19a: handrail frame 20: ship 21: discharge water supply pipe
V: Valve mechanism

Claims (7)

delete Discharge case (1) having a tray (Tray) for the introduction of fish seedlings, the opening 9 is formed on the front bottom surface,
The discharge channel 4 is inserted into the upper end through the opening 9 of the discharge case 1, the discharge channel 4 is connected to the lower side (7) is connected to the lower side,
Is installed in the lower portion of the discharge case (1) consists of a case support (11) for supporting the discharge case (1),
The upper end of the discharge channel 4 is connected to the discharge case 1 by the rotation shaft 8,
The case support 11 is installed through a pair of support legs 13 installed at the lower sides of both sides of the discharge case 1 in an "X" shape, and intersecting portions of the support legs 13. It consists of a connecting shaft 18 and the supporting plate 12 of the support leg 13,
On the lower side of the discharge case 1 and the upper surface of the support plate 12, rail frames 14 and 15 having a “U” -shaped cross section into which the upper end and the lower end of the support leg 13 are inserted are installed. The upper and lower ends of the legs 13 are connected to the rail frames 14 and 15 by a connecting shaft 18 penetrating the rail frames 14 and 15 in the horizontal direction.
Height adjustment holes (14a) (15a) for guiding the movement of the connecting shaft (18) connected to the support legs 13 are formed in the rail frame (14, 15) incision along the longitudinal direction, the case support (11) ) Is provided with a height adjusting means for adjusting the height of the discharge case 1 by moving the support legs 13 along the rail frames 14 and 15 together with the connecting shaft 18. Device. According to claim 2, wherein the height adjusting means, the bolt portion (18a) of the connecting shaft 18 protruding to the outside through the height adjusting holes (14a, 15a) of the rail frame (14, 15), Fish seed discharge device characterized in that the fastening is installed in the bolt portion (18a) is a position fixing knob (16) in close contact with the outer surface of the rail frame (14, 15). 4. The fish seedling discharge device according to claim 2 or 3, wherein the discharge channel (4) is installed to be telescopically stretchable. The fish seedling discharge device according to claim 2 or 3, wherein the discharge case (1) is provided with a discharge water supply pipe (21). The fish seedling discharging device according to claim 2 or 3, wherein a hook-type railing hook (17) hooked to the railing (19) of the vessel (20) is installed on the front side of the case support (11). The fish seed discharging device according to claim 6, characterized in that the railing hook (17) is installed to be angularly connected to the case support (11).

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