KR20220114950A - Improved shellfish collector using lift - Google Patents

Abstract

An improved apparatus for harvesting a seashell using a lifting force is provided in the present invention, in which a shellfish buried on seabed rises together with mud on the seabed by a hydraulic pressure of water sprayed toward the seabed, and at the same time, a lifting force is generated by high-pressure water sprayed to a front, so the shellfish is quickly sucked in, ejected into a harvesting net coupled to the front and harvested through a hollow of a main body, accordingly the shellfish can be harvested further easily and harvested quickly, thereby increasing an efficiency of work. The improved apparatus for harvesting a shellfish of the present invention comprises: a main body (20) having a horizontal body (22) with both sides open and having a hollow (21) formed therein, having a hollow (23) inclined downward at a rear end of the horizontal body (22) and one side thereof in communication with the hollow (21) of the horizontal body (22), and having an inclined body (24) into which the shellfish is sucked in through the other side thereof; a cover (30) coupled to an open rear end of the main body (20); and a nozzle body (40) having a first spray nozzle (41) provided at the rear end of the main body (20) for spraying water into the hollow (21) of the horizontal body (22) through the cover (30) and having a second spray nozzle (42) for spraying water in the other direction of the inclined body (24).

Description

Improved shellfish collector using lift

The present invention relates to an improved shellfish harvester using lift, and more specifically, by spraying high-pressure water to the seabed and forward, the shellfish buried in the seafloor by the water pressure of the water sprayed toward the seabed is removed from the seabed. It floats along with the mud, and at the same time, lift is generated by the high-pressure water sprayed forward, and the shellfish is quickly sucked in and ejected through the hollow of the body to the collecting net connected to the front, making it easier to collect the shellfish. , It relates to an improved shellfish harvester using lift, which can be quickly harvested to increase work efficiency.

In general, shellfish such as clams that inhabit the seabed in various ways are manually harvested by a diver (aka: meoguri boat) diving while relying on an oxygen supply device mounted on the boat.

The method of collecting shellfish is to dive to the bottom of the sea with a net to hold the shellfish, a hook as a collection tool, and a jet nozzle that sprays water at high pressure to find hidden shellfish using a hook between the sand on the bottom of the ocean, and to put it in a net or The spray nozzle is placed in the hole formed between the sand and a signal is given to the worker waiting on the ship. The worker who receives the signal from the diver sprays water at high pressure using the compressor provided on the ship, and the water is ejected through the sand through the spray nozzle connected through the nozzle. The hidden shellfish will be revealed. At this time, the divers collected only the shellfish by a method of sorting them and putting them in a net.

However, when divers collect shellfish in this way, it is difficult to collect large amounts of shellfish in a day by manually picking up shellfish found by searching the bottom of the sea floor with a hook.

And since the water sprayed through the spray nozzle is sprayed with sand, not only the types of shellfish float, but also the sand floats around, which obscures the view.

Due to such a problem, a device for collecting shellfish has been proposed. As shown in FIG. 1, the shellfish harvester of Patent Document 1 has an inner tube 11 formed as a tubular body through which the inside is penetrated, and the ejection section 40 in one direction. The inlet 18 for coupling is formed to be tapered 19 by having a thread 18a therein, and several coupling holes 12a are drilled in the outer circumferential surface of the other side, and a handle 14 is formed. ) is fixed and provided by the support piece 13, the pressure adjusting unit 15 is provided above the central outer circumferential surface, and the suction nozzle 17 is inclined toward the inlet 18 toward the rear and protrudes downward. It is formed, and the first, second, and third support plates (1,2,3) for supporting the ejection section 40 in the penetrated body 10, the support tube (4) is formed; An inner tube 21 through which the inside is provided, several fastening holes 22a are drilled in the outer circumferential surface of the inner tube 21, and the outer surface 22 provided with a locking ring 24 on the upper and lower sides is a fixed piece ( 23) and a jet nozzle 20 fixed and formed by; It is characterized in that it includes a guide rod 30 having a plurality of screw holes 31 drilled at both ends.

However, the shellfish collector 100 uses the suction nozzle 17 to suck seawater to collect shellfish scattered or buried on the sea floor, and uses the support tube 4 to apply strong water pressure to the inner tube 11 ), the suction power of the suction nozzle 17 is low, so there is a problem in that the efficiency of collecting shellfish scattered on the sea floor is low. Since silver is discharged to the side of the guide rod 30 through the inside of the main body 10, the injection pressure is lowered by that much, and the lift generated at the lower end of the suction nozzle 17 of the main body 10 is lowered, and thus the shellfish is sucked. The suction power of the suction nozzle 17 was lowered, so there was a problem in that it was difficult to effectively collect the shellfish.

Patent Document 1: Domestic Patent Publication No. 10-0828305 (Registered on May 01, 2008) A shellfish harvester that collects shellfish by generating lift and a shellfish harvesting method using the same

Therefore, the present invention has been proposed to improve such conventional problems, and by spraying high-pressure water forward and toward the seafloor, shellfish buried in the seabed by the water pressure of the water sprayed toward the seabed are combined with the mud and mud of the seabed. It floats together, and at the same time, lifting force is generated by the high-pressure water sprayed forward, and the shellfish is quickly sucked in and ejected through the hollow of the main body to the collection network coupled to the front, so that the collection of shellfish is easier and faster. It is a task to be solved to provide an improved shellfish harvester using a new type of lifting force that can be harvested quickly and thus increase the efficiency of work.

In particular, a large amount of shellfish can be easily collected by allowing the buried shellfish to rise from the sand at the bottom of the sea and be sucked and collected by lift at the same time, and the working time according to shellfish collection can be shortened. Another problem to be solved is to provide an improved shellfish harvester using a new type of lift that can increase the efficiency.

And, the injection hole of the first injection nozzle is configured to have a larger diameter than that of the second injection nozzle, and by spraying into the hollow of the horizontal body of the main body, the lift generated in the hollow of the main body is increased and sucked from the other side of the inclined body. Another problem to be solved is to provide an improved shellfish harvester using a new type of lift that allows the shellfish to be sucked and collected more quickly.

According to the features of the present invention for achieving the above object, both sides are open, and has a horizontal body 22 having a hollow 21 therein, and is formed to be inclined downward from the rear end of the horizontal body 22 and , a main body 20 having a hollow 23 communicating with the hollow 21 of the horizontal body 22 on one side, and having an inclined body 24 through which shellfish is sucked through the other side; a cover 30 coupled to the open rear end of the main body 20; A first injection nozzle 41 for injecting water into the hollow 21 of the horizontal body 22 through the cover 30 from the rear end of the main body 20, and the inclined body 24 It characterized in that it comprises a nozzle body 40 having a second injection nozzle 42 for spraying water in the other direction of the.

In the improved shellfish harvester using lift according to the present invention, the nozzle body 40 includes a connector 43 connected to the nozzle 110 of the water supply tank; It has a vertical pipe 44 coupled to the lower side of the connector 43 , is vertically coupled to the vertical pipe 44 , passes through the cover 30 , and flows into the hollow 21 of the horizontal body 22 . a first branch pipe 45 having a first injection nozzle 41 formed with an injection hole 411 for spraying; A second injection nozzle 42 coupled to the lower side of the vertical pipe 44 of the first branch pipe 45 and having a jetting hole 421 for spraying water in the other direction of the inclined body 24 is formed. characterized by including.

And in the improved shellfish harvester using lift according to the present invention, the injection hole 411 of the first injection nozzle 41 has a larger diameter than the injection hole 421 of the second injection nozzle 42. do.

In addition, in the improved shellfish harvester using lift according to the present invention, the nozzle body 40 is coupled to the upper side of the first branch pipe 45, and a second for discharging the water supplied from the water supply tank to the outside. It is characterized in that it includes a branch pipe (46).

As described above, according to the improved shellfish harvester using lift according to the present invention, by spraying high-pressure water to the seabed and forward, the shellfish buried in the seabed by the water pressure of the water sprayed toward the seabed are combined with the mud and dirt of the seabed. It floats together, and at the same time, lifting force is generated by the high-pressure water sprayed forward, and the shellfish is quickly sucked in and ejected through the hollow of the main body to the collection network coupled to the front, so that the collection of shellfish is easier and faster. It has the effect of increasing the efficiency of work because it can be collected in

In particular, a large amount of shellfish can be easily collected by allowing the buried shellfish to rise from the sand at the bottom of the sea and be sucked and collected by lift at the same time, and the working time according to shellfish collection can be shortened. It has the effect of increasing efficiency.

And, the injection hole of the first injection nozzle is configured to have a larger diameter than that of the second injection nozzle, and by spraying into the hollow of the horizontal body of the main body, the lift generated in the hollow of the main body is increased and sucked from the other side of the inclined body. The shellfish has the effect of allowing it to be sucked and collected more quickly.

1 is a view for explaining the prior art;
2A and 2B are perspective views of an improved shellfish harvester using lift according to a preferred embodiment of the present invention;
3 is an exploded perspective view of an improved shellfish harvester using lift according to a preferred embodiment of the present invention;
4 is a cross-sectional view of an improved shellfish harvester using lift according to a preferred embodiment of the present invention;
5 is an enlarged view of part A and part B of FIG. 4;
6A and 6B are views for explaining the use state of the improved shellfish harvester using lift according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in FIGS. 2A to 6B, the same reference numerals are assigned to components performing the same functions. On the other hand, in the drawings and detailed descriptions, detailed descriptions and illustrations of specific technical configurations and actions of elements not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly illustrated or explained.

2 to 6b , the improved shellfish harvester 10 using lift according to a preferred embodiment of the present invention includes a body 20 , a cover 30 , and a nozzle body 40 . Here, the shellfish includes various shellfish that inhabit in groups such as clam, cockle, and cockle.

The main body 20 is formed in a cylindrical shape, both sides are open, has a horizontal body 22 having a hollow 21 therein, is formed to be inclined downward from the rear end of the horizontal body 22, and one side is a horizontal body ( It has a hollow 23 communicating with the hollow 21 of 22), and includes an inclined body 24 through which the shellfish 200 is sucked through the other side.

On the other hand, the collection network 300 for accommodating the shellfish 200 collected on the open side of the horizontal body 22 of the main body 20 is coupled. Here, the collecting network 300 may be coupled through a string, etc., and may be fixedly coupled with a ring or a clamp.

In addition, although not shown on the horizontal body 22 of the main body 20 in the improved shellfish harvester 10 using lift according to a preferred embodiment of the present invention, a shoulder strap is formed so that a diver can wear it on the shoulder and work comfortably. The handle may be formed on the main body to be easy to grip.

The cover 30 is coupled to the other open side of the horizontal body 22 of the main body 20 and has a through hole 31 through which the first injection nozzle 41 of the nozzle body 40 to be described later penetrates and is fixedly coupled. , by closing the other side of the horizontal body 22 after the fixed coupling of the first injection nozzle 41, in a preferred embodiment of the present invention, the cover 30 is fastened to the other side of the horizontal body 22 in a screw type. , it will be well understood by those skilled in the art that various changes and modifications are possible without departing from the technical spirit of the present invention.

The nozzle body 40 is connected to the water supply tank and the supply nozzle 110 to supply water supplied from the water supply tank to the hollow 21 of the horizontal body 22 of the body 20 and the other side of the inclined body 24 . For spraying water in the direction, it has a connector 43 connected to the nozzle 110 of the water supply tank, and a vertical pipe 44 coupled to the lower side of the connector 43, and is perpendicular to the vertical pipe 44 A first branch pipe 45 having a first injection nozzle 41 that is coupled to pass through the cover 30 and has an injection hole 411 for injecting water into the hollow 21 of the horizontal body 22 and , A second injection nozzle 42 coupled to the lower side of the vertical pipe 44 of the first branch pipe 45 and formed with an injection hole 421 for spraying water in the other direction of the inclined body 24; It is coupled to the upper side of the first branch pipe 45 and comprises a second branch pipe 46 for discharging water supplied from the water supply tank to the outside. Here, the other side direction of the inclined body 24 refers to the seabed surface to which the other side of the inclined body 24 is adjacent, and the water sprayed from the injection hole 421 of the second injection nozzle 42 is sprayed to the sea floor. .

On the other hand, as shown in FIG. 5 , the diameter d₁ of the injection hole 411 of the first injection nozzle 41 is larger than the diameter d₂ of the injection hole 421 of the second injection nozzle 42 . It is formed to have a diameter (d₁) of the injection hole 411 of the first injection nozzle 41 is 5.5 mm, and the diameter d₂ of the injection hole 421 of the second injection nozzle 42 is 3 mm. However, according to the length and diameter of the horizontal body 22 of the main body 20, the diameter d₁ of the injection hole 411 of the first injection nozzle 41 and the injection hole 421 of the second injection nozzle 42 The diameter (d2) of may be changed.

As described above, the injection hole 411 of the first injection nozzle 41 is configured to have a larger diameter than the injection hole 421 of the second injection nozzle 42, so that the hollow of the horizontal body 22 of the main body 20 is formed. By spraying to (21), a lot of water sprayed into the hollow (21) of the horizontal body (22) of the main body (20) increases the lift force generated in the hollow (21) of the main body (20), so that the other side of the inclined body (24) The shellfish 200 sucked from the has the effect of allowing it to be sucked and collected more rapidly. That is, when the diameter of the injection hole 421 of the second injection nozzle 42 is larger than the injection hole 411 of the first injection nozzle 41, through the injection hole 421 of the second injection nozzle 42 Because there is a lot of sprayed water, the shellfish 200 buried in the seabed rises quickly, and at this time, the lifting force of the hollow 21 is weakened, so that it is not possible to quickly suck the shellfish 200 that rises.

The second branch pipe 46 is vertically coupled to the vertical pipe 47 and the vertical pipe 47 coupled between the lower side of the connector 43 and the first branch pipe 45 , and by a valve 48 . A horizontal pipe 49 for discharging water moving through the vertical pipe 47 to the outside is included.

The second branch pipe 46 allows the diver to control when the amount of water supplied from the water supply tank is large or when water is supplied at a pressure higher than the set pressure because the diver works underwater when collecting the shellfish 200 . it is to do That is, the valve 48 formed in the horizontal pipe 49 is opened so that water can be discharged to the outside.

On the other hand, as shown in FIG. 3 , the nozzle body 04 includes a connection pipe 51 between the connector 43 , the second branch pipe 46 , the first branch pipe 45 , and the second injection nozzle 42 . more can be provided.

As described above, according to the improved shellfish harvester using lift according to the present invention, by spraying high-pressure water to the seabed and forward, the shellfish buried in the seabed by the water pressure of the water sprayed toward the seabed are combined with the mud and dirt of the seabed. It floats together, and at the same time, lifting force is generated by the high-pressure water sprayed forward, and the shellfish is quickly sucked in and ejected through the hollow of the main body to the collection network coupled to the front, so that the collection of shellfish is easier and faster. It has the effect of increasing the efficiency of work because it can be collected in

In particular, a large amount of shellfish can be easily collected by allowing the buried shellfish to rise from the sand at the bottom of the sea and be sucked and collected by lift at the same time, and the working time according to shellfish collection can be shortened. It has the effect of increasing efficiency.

And, the injection hole of the first injection nozzle is configured to have a larger diameter than that of the second injection nozzle, and by spraying into the hollow of the horizontal body of the main body, the lift generated in the hollow of the main body is increased and sucked from the other side of the inclined body. The shellfish has the effect of allowing it to be sucked and collected more quickly.

When the state of use of the improved shellfish harvester using lift according to a preferred embodiment of the present invention is described with reference to FIGS. 6a and 6b, a diver has an improved shellfish harvester 10 using lift and shellfish 200 are clustered After entering the water, the water supply tank is operated according to the signal of the diver to supply water to the nozzle body 40 . Thereafter, water is supplied through the inside of the nozzle body 40 , and the water supplied from the inside of the first branch pipe 46 is branched and the injection hole 411 of the first injection nozzle 41 and the second injection nozzle It is injected through the injection hole 421 of (42). The water injected through the first injection nozzle 41 is injected into the hollow 21 of the horizontal body 22 of the main body 20 to generate lift, and the water injected through the second injection nozzle 42 is It is sprayed to the seafloor, and as the seafloor is ejected, the shellfish 200 buried in the seafloor rises. At this time, the floating shellfish 200 is sucked into the other side of the inclined body 24 by the lift generated in the hollow 21 of the horizontal body 22 , and enters the hollow 21 of the horizontal body 22 . ) is gathered in the collection network 300 coupled to one side. At this time, the diver does not collect the shellfish 200 in one place, but moves the body 20 to the left and right to collect the shellfish 200 .

As described above, although the improved shellfish harvester using lift according to a preferred embodiment of the present invention has been shown according to the above description and drawings, this is merely an example and various types of shellfish harvesters are provided without departing from the technical spirit of the present invention. It will be appreciated by those skilled in the art that changes and modifications are possible.

10: improved shellfish harvester using lift
20: body 21: hollow
22: horizontal body 23: hollow
24: inclined body 30: cover
40: nozzle body 41: first injection nozzle
411: injection hole 42: second injection nozzle
421: injection hole 43: connector
44: vertical pipe 45: first branch pipe
46: second branch
110: supply nozzle 200: shellfish

Claims (4)

Both sides are open and have a horizontal body 22 having a hollow 21 formed therein, is formed to be inclined downward from the rear end of the horizontal body 22, and one side is hollow 21 of the horizontal body 22 a body 20 having a hollow 23 communicating therewith and having an inclined body 24 through which shellfish is sucked through the other side;
a cover 30 coupled to the open rear end of the main body 20;
A first injection nozzle 41 for injecting water into the hollow 21 of the horizontal body 22 through the cover 30 from the rear end of the main body 20, and the inclined body 24 An improved shellfish harvester using lift, characterized in that it comprises a nozzle body (40) having a second injection nozzle (42) for spraying water in the other direction.
The method of claim 1,
The nozzle body 40 includes a connector 43 connected to the nozzle 110 of the water supply tank;
It has a vertical pipe 44 coupled to the lower side of the connector 43, is vertically coupled to the vertical pipe 44, passes through the cover 30, and flows into the hollow 21 of the horizontal body 22. a first branch pipe 45 having a first injection nozzle 41 formed with an injection hole 411 for injecting the ;
A second injection nozzle 42 coupled to the lower side of the vertical pipe 44 of the first branch pipe 45 and having an injection hole 421 for spraying water in the other direction of the inclined body 24 is formed. An improved shellfish harvester using lift, comprising:
3. The method of claim 2,
The improved shellfish harvester using lift, characterized in that the injection hole 411 of the first injection nozzle 41 has a larger diameter than the injection hole 421 of the second injection nozzle 42.
3. The method of claim 2,
The nozzle body 40 is coupled to the upper side of the first branch pipe 45 and lift, characterized in that it includes a second branch pipe 46 for discharging the water supplied from the water supply tank to the outside. An improved shellfish harvester using

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