KR102373402B1 - Apparatus for removing attached organism of shellfish - Google Patents

Abstract

The present invention relates to a device for removing an attached organism of shellfish capable of reducing fuel and improving thermal efficiency by returning heat used for heating water to remove the organism attached to the shellfish such as oyster or the like and escaping to the outside; removing the attached organism of the shellfish while allowing the shellfish to stay for a predetermined time in a water tank which is provided in a work vessel and accommodates hot water inside in a step of moving a circle line with multiple rows to which shellfishes are formed from a front side to a back side; and discharging sludge which is the removed attached organism to the outside of the water tank. A heating pipe for heating the accommodated water to a predetermined temperature is installed in a lower part of the water tank. The work vessel comprises: a burner which supplies combustion gas toward one end of the heating pipe; a chimney which communicates with the other end of the heating pipe and is installed in an upper side to discharge the combustion gas; and a waste heat returning tank which surrounds the chimney and is filled with replenishment water up to a predetermined height. The replenishment water is heated by the combustion gas passing through the chimney and is supplied to the water tank.

Description

Apparatus for removing attached organism of shellfish

The present invention relates to a device for removing attached organisms, and more particularly, to a device for removing attached organisms capable of heating water used to remove organisms attached to shellfish such as oysters and recovering heat escaping to the outside.

If we look at the process of cultivating oysters, one of the shellfish, we connect a number of water lines at regular intervals on a thick and long line, attach seeds to each line, and let them hang under the surface of a licensed farm in the coastal blue and red waters. After a certain period of time has elapsed, the seeds attached to the mantle grow to the extent that they can be commercialized, so they are salvaged and collected.

During the growth process of these shellfish, it is necessary to remove the attached organisms such as pirate plants and small mixtures that are attached to the main line or the substring, or parasitize the shellfish and hinder the growth.

In order to easily remove the attached organisms of the shellfish, a vessel equipped with a hot water tank and a conveyor comprising a conveyor disposed in front and behind the hot water tank is used. In the process of lifting the shellfish being cultured through the front conveyor and moving it to the rear conveyor, the attached organisms are removed by allowing it to stay in the hot water tank containing about 60℃ water for a certain period of time.

When the removed sludge, an attached organism, accumulates on the floor inside the hot water tank, the efficiency of the hot water line that heats the water contained in the hot water tank is reduced. are doing

At this time, the air heated through the burner is configured to heat the water accommodated in the hot water tank as the heating tube provided at the bottom of the hot water tank passes. At this time, the air heated in the hot water tank is configured to be discharged to the outside, so that the fuel is continuously used to keep the water in the hot water tank at a constant temperature, and there is a problem in that the thermal efficiency is not good.

Republic of Korea Registered Utility Model No. 20-0450749 'Oyster Attached Creature Remover' Korean Patent Laid-Open Patent No. 10-2013-0030342 'Sludge removal device for oyster pirate creature removal device'

The present invention is to solve the above problems, and by heating water used to remove organisms attached to shellfish such as oysters and recovering heat escaping to the outside, it is possible to reduce fuel consumption and improve thermal efficiency. An object of the present invention is to provide a device.

The present invention for achieving the above object is an apparatus for removing adherent organisms of shellfish, which is provided in a working ship and placed in a water tank containing hot water in the process of moving a main line connected with a plurality of water lines in which shellfish are cultured from front to rear. The shellfish stays for a certain time, the attached organisms attached to the shellfish are removed, and the sludge, which is the removed attachment organism, is discharged to the outside of the water tank. The work line consists of a burner that supplies combustion gas toward one end of the heating tube, a stack that communicates with the other end of the heating tube and is piped upward to discharge combustion gas, and surrounds the stack and fills the inside with make-up water to a certain height. Including the waste heat recovery tank, the make-up water is heated by the combustion gas passing through the stack and supplied to the water tank.

In addition, the burner, the stack and the waste heat recovery tank are provided on one side of the water tank, and the heating tube forms an 'S' shape in plan view, and one end of the tank is bent to the other side of the water tank. It is formed to extend toward the burner provided on the side, and the other end is bent to communicate with the stack.

In addition, the waste heat recovery tank is formed to have a 'L' shape in its longitudinal section, and the stack is made of a 'B' shape tube, and one end and the other end protrude to the outside of the waste heat recovery tank, and located at the lower side One end to be connected to the other end of the heating tube, the other end may be in communication with the outside.

In addition, one end of the heating tube and the stack is provided to be spaced apart from the bottom of the water tank to form a sedimentation space between the bottom of the water tank, and the water tank surrounds one end of the heating tube and the stack by the rotational force of the motor. A moving chain is provided on both sides of the heating tube, and both ends are coupled to the chain provided on both sides of the heating tube to move the sludge accumulated in the settling space to the front or rear end of the tank. , the degree of protrusion from the chain can be adjusted.

In addition, the transfer blade has a 'B'-shaped plate shape in its longitudinal section, and both ends of the horizontal plane are coupled to the chain provided on both sides of the water tank and the vertical plane is lower than the height of the settling space. It may include a scraper blade coupled to the vertical surface of the stator blade to move downward.

According to the present invention, by using the combustion gas passing through the heating tube to heat the water contained in the water tank, the make-up water contained in the waste heat recovery tank is heated to supply the heated make-up water to the water tank, the combustion gas exiting to the outside Since the heat of the waste heat recovery tank is recovered, it is possible to reduce fuel and improve thermal efficiency.

In addition, the degree of protrusion of the transfer blade, which moves the sludge, which is attached to the bottom of the tank away from the shellfish, to one side is controlled by its own weight. It does not interfere with the mesh belt.

1 is a side view showing the schematic structure of the apparatus for removing attached organisms of shellfish according to the present invention;
2 is a plan view showing the schematic structure of the apparatus for removing attached organisms of shellfish according to the present invention;
3 is a plan sectional view showing the structure of a water tank applied to the apparatus for removing attached organisms of shellfish according to the present invention;
4 is a front cross-sectional view showing the schematic structure of the apparatus for removing attached organisms of shellfish according to the present invention;
5 is a perspective view showing an example of a transfer blade applied to the apparatus for removing attached organisms of shellfish according to the present invention;
6 is an exemplary view showing that the degree of protrusion of the transfer wings applied to the apparatus for removing attached organisms of shellfish according to the present invention is controlled.

In the present invention, in order to save fuel and improve thermal efficiency by heating water used to remove organisms attached to shellfish such as oysters and recovering heat escaping to the outside, the main row in which shellfish are cultured is connected to the front In the process of moving backward, shellfish stays for a certain period of time in a tank provided on a working ship and accommodates hot water therein, the attached organisms attached to the shellfish are removed, and the sludge, which is the removed attachment organism, is discharged to the outside of the tank, In the water tank, a heating tube for heating the accommodated water to a predetermined temperature is piped at the lower portion, and the working line communicates with a burner for supplying combustion gas toward one end of the heating tube, the other end of the heating tube, and is piped upward for combustion. Shellfish characterized in that it comprises a stack from which gas is discharged, and a waste heat recovery tank in which supplemental water is filled to a certain height while surrounding the stack, wherein the supplementary water is heated by the combustion gas passing through the stack and supplied to the water tank. A device for removing adherent organisms is proposed.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

Hereinafter, the apparatus for removing attached organisms from shellfish according to the present invention will be described in detail with reference to the accompanying FIGS. 1 to 6 .

The present invention apparatus for removing attached organisms of shellfish is provided on a working ship (A) floating on the sea, and includes a water tank 100 , a burner 200 , a stack 410 and a waste heat recovery tank 420 .

The work line (A) is configured to move from the front to the rear by lifting the original line (11) connected at a predetermined interval with a plurality of water lines (12) in which shellfish are cultured, and in the process of moving from the front to the rear, The shellfish stays in the water tank 100 in which the hot water is accommodated for a certain time, the attached organisms attached to the shellfish are removed, and the sludge, which is the removed attachment organism, may be configured to be discharged to the outside of the tank 100 .

To this end, the work line (A) is configured such that the original line 11 lifted from the sea on the front and rear upper sides of the water tank 100 is arranged at a predetermined position above the water tank 100 as shown in FIG. may include, and a first conveyor 510 is provided in front of the water tank 100 so as to move toward the water tank 100 in a state in which the lifted down line 12 is seated, and passes through the water tank 100 A second conveyor 520 may be provided at the rear of the water tank 100 so that the cargo line 12 to which the sludge has been removed and the shellfish is attached is moved toward the sea in a seated state. In this case, the first conveyor 510 and the second conveyor 520 may be mesh conveyors.

The water tank 100 may have an open upper surface and an empty cylindrical shape inside, and may be provided under the work line (A). Water is accommodated in the inside of the water tank 100, and the received water is hot water heated to a temperature of about 60 to 70° C. for the removal of sludge. A third conveyor 530 that can be moved from the front to the rear with the water line 12 seated can be provided in the water tank 100 in which the hot water is accommodated in this way so that the shellfish attached to the water line 12 can be contained. there is.

The third conveyor 530 has one end positioned adjacent to one end of the first conveyor 510 positioned at the front upper side of the water tank 100 , and the second conveyor 520 having the other end positioned at the rear upper side of the water tank 100 . ) may be located adjacent to one end, and the portion between one end and the other end sinks into the water tank 100 so that the shellfish attached to the seated water line is put in the hot water. The third conveyor 530 is preferably configured as a mesh conveyor, and as the mesh conveyor is configured, sludge, which is an adherent organism removed from the shellfish, falls to the bottom of the water tank 100 .

In the water tank 100, a heating tube 110 for heating the received water to a predetermined temperature as shown in FIGS. 1 to 4 is piped at the lower portion. Combustion gas passes through the inside of the heating tube 110 , and heat due to the combustion gas heats the water contained in the water tank 100 through the heating tube 110 . Accordingly, the working line A in the present invention includes a burner 200 for supplying combustion gas into the heating tube 110 as shown in FIG. 2 . The burner 200 is provided at a point adjacent to one end of the heating tube 110 to supply combustion gas toward one end of the heating tube 110 , and the combustion gas supplied through the burner 200 is the heating tube 110 . is moved to the other end of In addition, a plurality of heating tubes 110 may be provided to be symmetrical in consideration of the size of the water tank 100 and the balance of the working line A.

And the work line (A) includes a stack 410 for discharging the combustion gas moved to the other end of the heating tube 110 to the outside as shown in FIGS. 1, 2 and 4, the stack 410 Silver one end communicates with the other end of the heating tube 110 and is piped upwardly so that the other end communicates with the outside. In addition, the work line (A) is filled with make-up water to a certain height inside while surrounding the stack 410 as shown in FIGS. 1, 2 and 4, and can supply the make-up water to the tank 100 It includes a waste heat recovery tank (420). At this time, although not shown in the drawing, the waste heat recovery tank 420 may be provided with a pipe through which the make-up water flows to the outside.

The combustion gas used for heating the water tank 100 heats the make-up water accommodated in the waste heat recovery tank 420 while it exits to the outside through the stack 410, and the heated make-up water goes to the water tank 100. Since the supplied bar, the heat of the combustion gas escaping to the outside is recovered in the waste heat recovery tank 420, it is possible to obtain the effect of saving fuel and improving thermal efficiency.

Specifically, the burner 200, the stack 410, and the waste heat recovery tank 420 may be provided on one side of the water tank 100 in the work line A as shown in FIG. 2, and the burner 200 ) may be provided in the boiler room formed on one side of the water tank 100 in the lower part of the work line (A). At this time, as shown in FIGS. 2 and 3 , the heating tube 110 has an 'S' shape in a plan view, and one end of the water tank 100 is bent to the other side of the water tank 100 . It may be formed to extend toward the burner 200 provided on one side, and the other end may be bent to communicate with the stack 410 . That is, the combustion gas supplied to the heating tube 110 passes through the heating tube 110 and passes through a plurality of bent points, and is continuously combusted with stagnant air at each of the plurality of bent points, so that the combustion efficiency is increased. can be improved

And as an example, as shown in FIG. 3 , one end of the heating tube 110 extending toward the burner 200 is fixed to one side wall of the water tank 100 , and a stack 410 connected to the other end of the heating tube 110 . ) may be fixed to one side wall of the water tank 100 . In addition, it is preferable that a portion of the heating tube 110 near the other side wall of the water tank 100 is spaced apart from the other side wall of the water tank 100 and fixed so that the sludge can fall downward.

For example, as shown in FIG. 4 , the waste heat recovery tank 420 is formed to have a 'B' shape in its longitudinal section, and the stack 410 is made of a pipe having a 'B' shape, so that one end and the other end are waste heat It may be provided to protrude to the outside of the recovery tank 420 . In this case, the stack 410 may be provided such that one end positioned at the lower side is connected to the other end of the heating tube 110 , and the other end communicates with the outside. The waste heat recovery tank 420, which has a 'B' shape in its longitudinal section, can accommodate a large amount of make-up water while occupying a narrow space, so as to increase the space utilization of the work ship (A), as well as the stack 410 A large amount of make-up water heated by the combustion gas passing through is continuously supplied to the water tank 100 .

On the other hand, the apparatus for removing attached organisms of shellfish according to the present invention may further include a configuration for collecting the sludge accumulated in the water tank 100 on one side of the water tank 100 and a configuration for discharging the sludge collected on one side to the outside.

With respect to the configuration of collecting the sludge accumulated in the water tank 100 to one side of the water tank 100, one end of the above-described heating tube 110 and the stack 410 is the bottom of the water tank 100, as shown in FIG. It is provided to be spaced apart from the water tank 100, it is possible to form a settling space 120 between the bottom and. That is, the sludge separated from the shellfish due to the hot water is accumulated in the settling space 120 . And as shown in FIGS. 1, 3, and 6, the water tank 100 has a chain 310 moving by the rotational force of the motor while surrounding one end of the heating tube 110 and the stack 410, the heating tube 110 ) provided on both sides of the heating tube 110, both ends are coupled to the chain 310 provided on both sides of the heating tube 110 to move the sludge accumulated in the settling space 120 to the front or rear end of the water tank 100 ( 320) may be further provided.

At the inner lower front end and rear end of the water tank 100, a chain gear 320 to which the chain 310 engages while being spaced apart from the bottom of the water tank 100, respectively, is provided rotatably at a point adjacent to both side walls of the water tank 100. The at least one chain gear 320 may be coupled to the motor to rotate the chain 310 surrounding it. In addition, a part of the chain gear 310 provided adjacent to the other side wall of the water tank 100 may be positioned between the heating tube 110 and the other side wall of the water tank, and the chain gear 310 and the shaft are coupled. Considering that the other chain gear 310 provided adjacent to one side wall of the water tank 100 should face at a position corresponding to the one chain gear 310, the other end of the heating tube 110 is connected to the water tank 100 ) may be provided biased to the inside.

As shown in FIGS. 1 and 6 , a plurality of conveying blades 320 are coupled to the chain 310 to be spaced apart from each other, and are provided to protrude outward from the chain 310 . Accordingly, the transfer blades 320 provided in the chain 310 passing through the sedimentation space 120 move the sludge accumulated in the sedimentation space 120 to one side of the water tank 100 . These transfer wings 320 may be configured to adjust the degree of protrusion from the chain 310 .

As a specific example, the transfer blade 320, as shown in FIGS. 5 and 6, has a 'L'-shaped longitudinal cross-section and a plate-shaped stator blade 320a and a vertical surface of the stator blade 320a. It may include a scraper blade (320b) coupled to. The fixed wings (320a), both ends of the horizontal plane is coupled to the chain 310 provided on both sides of the water tank 100, the vertical plane is formed lower than the height of the settling space (120). The scraper blade 320b is coupled to the vertical surface of the stator blade 320a so as to form a plate having a straight longitudinal cross-section and move downward by its own weight. The scraper blade 320b may be formed to correspond to the vertical plane height of the fixed blade 320a or to achieve a height lower than that, and when it is moved downward by its own weight, the lower end is near the bottom of the water tank 100 It is preferable to be provided so as to be adjacent to each other.

For example, as shown in FIG. 5 , a rectangular guide hole 321 may be formed through the vertical surface of the stationary wing 320a in the height direction, and the scraper blade 320b has one point of the guide hole 321 and A fixing hole 322 through which the bolt can be penetrated may be formed while corresponding thereto. At this time, as shown in FIG. 5 , with reference to the fixed wings 320a arranged to form a 'L' shape in the longitudinal section, the fixing hole 322 is formed at a position corresponding to the upper end of the guide hole 321. This is preferable. The fixed blade 320a and the scraper blade 320b are coupled so as not to be separated by a bolt passing therethrough and a nut fastened to an end of the bolt.

As another example, a rectangular guide hole may be formed through the scraper blade 320b in the height direction, and a fixing hole through which a bolt may be penetrated while corresponding to a point of the guide hole may be formed on the vertical surface of the fixed blade 320a. may be The fixed blade 320a and the scraper blade 320b are coupled so as not to be separated by a bolt passing therethrough and a nut fastened to an end of the bolt.

As another example, a rectangular guide hole may be formed through the scraper blade 320b in the height direction, and a fixing pin penetrating the guide hole may protrude from the vertical surface of the fixed blade 320a. The fixed blade (320a) and the scraper blade (320b) are coupled so as not to be separated by fastening a nut to the end of the fixing pin.

The transfer blade 320 provided in the chain 310 part passing through the settling space 120, as shown in FIG. 6, the scraper blade 320b moves downward by its own weight, the fixed blade 320a ), a portion protrudes from the vertical surface to move the sludge to one side, and the transfer blade 320 provided in the chain 310 part passing through the upper side of one end of the heating tube 110 and the stack 410 is shown in FIG. As shown, since the scraper blade 320b is moved downward by its own weight and does not protrude from the vertical surface of the fixed blade 320a, it is provided on the upper side of the third conveyor 530 on which shellfish are placed. this will not occur.

On the other hand, in the present invention, in order to discharge the sludge collected on one side to the outside, as shown in FIGS. 1 and 4 , the first transfer for moving the sludge in one direction at the lower front end or rear end of the water tank 100 where the sludge is collected A screw 610 is provided, and a second transfer screw 620 for moving the sludge moved in one direction by the first transfer screw 610 to the outside of the water tank 100 may be further included.

By discharging the sludge existing in the water tank 100 out of the water tank 100 through the first transfer screw 610 and the second transfer screw 620 , the combustion gas passing through the heating tube 110 is in the water tank 100 . The time for heating the contained water can be further shortened.

A: work ship
11: main line 12: lower line
100: water tank 110: heating tube
120: sedimentation space
200: burner
310: chain 320: transfer wing
320a: fixed blade 320b: scraper blade
321: guide hole 322: fixing hole
330: chain gear
410: stack 420: waste heat recovery tank
510: first conveyor 520: second conveyor
530: third conveyor
610: first transfer screw 620: second transfer screw

Claims (5)

In the process of moving from the front to the rear the main line 11, which is connected to a plurality of water lines 12 in which shellfish are cultured, shellfish are placed in the water tank 100 provided in the work line A and containing hot water therein for a certain period of time. While staying, the attached organisms attached to the shellfish are removed, and the removed attached organism sludge is discharged to the outside of the tank 100,
In the water tank 100, a heating tube 110 for heating the received water to a predetermined temperature is piped at the lower portion,
The work line (A), the burner 200 for supplying combustion gas toward one end of the heating tube 110, and the other end of the heating tube 110, and is piped upwards in communication with the stack 410 from which the combustion gas is discharged. ), and a waste heat recovery tank 420 in which the make-up water is filled to a certain height while surrounding the stack 410, the make-up water is heated by the combustion gas passing through the stack 410 and into the water tank 100. supplied,
The burner 200, the stack 410 and the waste heat recovery tank 420 are provided on one side of the water tank 100,
The heating tube 110 has an 'S' shape when viewed in a plan view, and one end that is biased toward the other side of the water tank 100 is bent to extend toward the burner 200 provided on one side of the water tank 100 . is formed, and the other end is bent to communicate with the stack 410,
The waste heat recovery tank 420 is formed to form a 'L' shape in its longitudinal section,
The stack 410 is made of a tube forming a 'L' shape, and one end and the other end protrude to the outside of the waste heat recovery tank 420, and one end located at the lower side is connected to the other end of the heating tube 110, A device for removing attached organisms from shellfish, characterized in that the other end communicates with the outside. The method of claim 1,
One end of the heating tube 110 and the stack 410 is provided to be spaced apart from the bottom of the water tank 100 to form a sedimentation space 120 between the bottom of the water tank 100,
The water tank 100 has a chain 310 moving by the rotational force of the motor while surrounding one end of the heating tube 110 and the stack 410 is provided on both sides of the heating tube 110, the heating tube 110 Both ends are coupled to the chains 310 provided on both sides to move the sludge accumulated in the settling space 120 to the front end or rear end of the water tank 100. A transfer blade 320 is provided,
The transfer blade (320) is an apparatus for removing attached organisms from shellfish, characterized in that the degree of protrusion from the chain (310) is controlled. 3. The method of claim 2,
The transfer blade 320 is formed in the form of a plate having a 'L' shape in its longitudinal section, both ends of the horizontal plane are coupled to the chain 310 provided on both sides of the water tank 100, and the vertical plane is formed lower than the height of the settling space 120 A device for removing attached organisms from shellfish, comprising: a stationary blade (320a); and a scraper blade (320b) coupled to the vertical surface of the stationary blade (320a) to move downward by its own weight. delete delete

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