KR102603327B1 - Water treatment device for flooting fish cage - Google Patents

Abstract

The present invention not only forms the water flow in a cage fish farm close to a natural tide, but also supplies external air, oxygen, or a gas stream helpful for the growth of fish and shellfish along with the formation of the water flow, increasing the amount of dissolved oxygen to prevent death and promote growth. To help you;
A frame in which an upper plate provided in a square shape and a lower plate provided at a predetermined distance from the upper plate are connected to each other by holding bars; a vertical tube extending from the upper side of the upper plate toward the lower plate, and an operating tube installed by connecting a horizontal tube with an end exposed to the outside of the frame at the lower end of the vertical tube; a driving means connected to the upper side of the operating tube using a flange; A driving shaft connected to the output shaft of the driving means by a coupling and lowered to the bottom of the vertical pipe body; A drive shaft installed on the horizontal pipe body; A bevel gear installed to engage with the lower end of the driving shaft and the inner end of the driving shaft to transmit the power of the driving means; The outer end of the drive shaft is characterized by including a stirring fan mounted to move water by rotation.

Description

Water treatment device for cage fish farms {WATER TREATMENT DEVICE FOR FLOOTING FISH CAGE}

The present invention relates to a water treatment device for a cage fish farm. More specifically, the present invention relates to a water treatment device for a cage fish farm. It is installed at a desired depth in a cage fish farm and supplies air or oxygen while forcibly rotating the stirring blade to form a water current to remove red tide and green algae bacteria in the water. This relates to the provision of a water treatment device for cage aquaculture that can increase the amount of dissolved oxygen to prevent mortality in cage aquaculture and help the growth of fish and shellfish.

The exact cause of red tide has not yet been identified, but it is reported that moderate solar radiation, water temperature of about 15℃ to 25℃, and abnormal increase in nutrient salts are the main factors.

When a red tide occurs, a large amount of plankton rapidly consumes the amount of dissolved oxygen in the water, so there is a high risk of mass death of fish living in waters near the occurrence of red tide. The method currently used to eliminate this red tide is red clay spraying. am.

In the case of red clay spraying, the red clay is carried on a boat and spread in the water area where red tide occurs. It has the advantage of not contaminating the water quality, but when the water area where red tide occurs is large, it is necessary to carry and spray red clay to relieve red tide. It has the disadvantage of requiring equipment and manpower.

In addition, if red clay is oversprayed, a problem that runs counter to the preservation of the marine ecosystem occurs in that attached organisms such as abalone and algae may die. To solve this problem, it can be installed and used in cage fish farms. Water treatment devices have been developed and used, and representative examples are as follows through patent literature.

Patent Document 1 states that a coupling 13 and a rotating shaft 17 are installed in a vertical direction on the lower side of the reducer 12 to which the motor 11 is connected, forming a stand 16 at a certain distance from the stand 14. , an installation pillar 15 is installed on the holder 14 and the pedestal 16, and a connection bar 30 is connected between the installation pillars 15 and then between the connection stand 30 and the pedestal 16. It includes a stirrer (10) for a cage fish farm, which is installed on the guide ring (31) and the lower guide stand (19) with a rotating shaft (17) in the vertical direction so that the water treatment stirrer device (20) rotates,

A plurality of upper cut holes 26 having a square shape are formed at the portion meeting the rotation axis 17, and through holes 27 are formed to have either a circular or square shape evenly at regular intervals on the entire surface. A water treatment stirring device (20) is installed to rotate and stir the water by protruding the stirring blades (21), which are reinforced by welding by adding reinforcing bars (25) at regular intervals on both sides;

The water treatment stirring device 20 is a water treatment device for a cage fish farm that maintains rigidity by forming a reinforcing ring 22 in the circumferential direction at regular intervals on a plurality of stirring blades 21 connected to a rotating shaft 17,

The stirring blade 21 rotates in the range of 75 to 95 rotations per minute through the rotation shaft 17, and an upper bent portion 23 is formed on the upper side of the outer tip portion, which is bent toward the rotating direction. A lower bent portion 23 is formed on the lower side of the portion, which is bent toward the direction opposite to the rotation direction, and is installed to stir and agitate the water while rotating.

Patent No. 10 - 2038836 - 0000

None.

In the case of Patent Document 1 as described above, a stirrer for a cage fish farm is supplied into the water and the stirrer blade is rotated to mix and stir the water, thereby agitating the water without movement due to algae to increase the amount of dissolved oxygen in the water.

Patent documents such as the above describe a stirring blade connected to a driving means such as a motor and a reducer to be rotated in water so that the water moves and performs the same function as the current. However, since it does not have the same strength as the current, it does not have the same strength as the current. Since only the water moves slightly, the practical effect is weak.

Only the stirrer rotates to move the water, but the current effect is weak because the movement of the current is not large, and it is also realistically difficult to supply sufficient air (oxygen) needed in the water, so it is also unrealistic to enrich dissolved oxygen. Due to this lack, there is no effect.

As described above, in the case of Patent Document 1, the stirrer is rotated to induce water to flow, but in reality, because it is the same as the neap tide period when there is almost no flow of sea water, the sea surface temperature of the cage fish farm rises rapidly, and this causes Since it is not possible to prevent the oxygen in the water from disappearing quickly, the result is that it is not possible to prevent the death of fish and shellfish as intended.

For this reason, in order to achieve the same effect as actual algae, many devices must be installed, which not only requires excessive installation costs, but also requires significant costs and manpower to maintain and manage them, which is the cause of the increase in aquaculture costs. This happens.

In addition, when many devices are installed in one cage fish farm, they take up a lot of space, which not only interferes with the activities of fish and shellfish, especially fish, but also causes various problems such as damage or death of fish when they collide with the agitator. .

Accordingly, the present invention was invented to solve the above problems, and maintains an upper plate 101 provided in a square shape and a lower plate 102 provided at a predetermined distance from the upper plate 101. A frame (105) connected by a bar (103);

A vertical pipe body 106 lowered from the upper side of the upper plate 101 toward the lower plate 102, and a horizontal pipe body 107 whose end is exposed to the outside of the frame 105 at the bottom of the vertical pipe body 106. An operating pipe (108) installed by connecting;

A driving means (110) connected to the upper side of the operating tube (108) using a flange (109);

A driving shaft 113 connected to the output shaft 111 of the driving means 110 with a coupling 112 and lowered to the bottom of the vertical pipe 106;

A drive shaft 114 installed on the horizontal pipe body 107;

A bevel gear 115 installed to engage the lower end of the driving shaft 113 and the inner end of the driving shaft 114 to transmit the power of the driving means 110;

The outer end of the drive shaft 114 includes a screw stirring fan (116) mounted to move water by rotation;

Not only does it form the water flow in a cage fish farm closer to a natural tide, but it also supplies external air, oxygen, or gases that help the growth of fish and shellfish along with the formation of the water flow, thereby increasing the amount of dissolved oxygen and preventing death while helping the growth. It is possible to achieve the desired goal.

The present invention allows the direction to be varied while rotating the stirring fan at high speed, thereby creating a flow similar to a real tidal current, allowing the direction of generation of water flow in the form of a tidal current to be freely adjusted, and widening the tidal current generation radius to allow a wide range of water treatment devices to be used with a small number of water treatment devices. It has the effect of covering the cage fish farms in the area.

The present invention not only covers a wide area with a single water treatment device, but also supplies air (oxygen) or elements necessary for the growth of fish and shellfish, thereby substantially enriching the amount of dissolved oxygen inside the cage fish farm, thereby increasing the growth of fish and shellfish. It is an invention that has various effects, including helping with growth.

Figure 1 is an overall perspective view showing a water treatment device for a cage fish farm to which the technology of the present invention is applied.
Figure 2 is a cross-sectional view showing a water treatment device for a cage fish farm to which the technology of the present invention is applied;
Figure 3 is a cross-sectional view of an agitator of a water treatment device for a cage fish farm to which the technology of the present invention is applied.
Figure 4 is a cross-sectional view of portions A and B of the agitator applied to the water treatment device for the cage fish farm to which the technology of the present invention is applied.
Figure 5 is a configuration diagram showing the agitator rotation means of the water treatment device for cage fish farms to which the technology of the present invention is applied.
Figure 6 is another configuration diagram showing the agitator rotation means of the water treatment device for cage fish farms to which the technology of the present invention is applied.

Hereinafter, the preferred configuration and operation of the present invention for achieving the above object will be described in relation to the accompanying drawings.

Figure 1 is an overall perspective view showing a water treatment device for a cage fish farm to which the technology of the present invention is applied, Figure 2 is a cross-sectional view showing a water treatment device for a cage fish farm to which the technology of the present invention is applied, and Figure 3 is a cage fish farm to which the technology of the present invention is applied. A cross-sectional view of the agitator of the enteric water treatment device, Figure 4 is a cross-sectional view of parts A and B of the agitator applied to the water treatment device for cage fish farms to which the technology of the present invention is applied, and Figure 5 is a cross-sectional view of parts A and B of the agitator applied to the water treatment device for cage fish farms to which the technology of the present invention is applied. Figure 6 is a configuration diagram showing the agitator rotating means of the water treatment device, and Figure 6 is another configuration diagram showing the agitator rotating means of the water treatment device for cage fish farms to which the technology of the present invention is applied.

The water treatment device 100 for a cage fish farm to which the technology of the present invention is applied includes an upper plate 101 provided in a roughly square shape, and a lower plate 102 provided at a predetermined distance from the upper plate 101. The frame 105 is formed by connecting to the four edges with retaining bars 103.

On the upper side of the upper plate 101 constituting the frame 105, there is a vertical pipe 106 lowered from the upper side of the frame 105 toward the lower plate 102, and a frame 105 at the lower end of the vertical pipe 106. ) A roughly L-shaped operating pipe (108) connected to the horizontal pipe body (107) is installed symmetrically so that the end is exposed to the outside of the pipe.

Of course, it is natural that it can be made small by installing only one operating pipe 108, or it can be made large by installing two or more operating pipes 108 in multiple directions, etc.

The driving means 110 is connected to the upper side of the operating tube 108 using a flange 109, and the output shaft 111 of the driving means 110 is connected to the driving shaft 113 using a coupling 112. is connected so that it is lowered to the bottom of the vertical pipe body 106, and a drive shaft 114 is installed on the horizontal pipe body 107.

A bevel gear 115 is engaged with each other at the lower end of the driving shaft 113 and the inner end of the driving shaft 114 to transmit the power of the driving means 110, and the driving shaft 113 and the driving shaft 114 are vertical. Stability is ensured by maintaining the tube body 106, the horizontal tube body 107, and bearings, and an airtight material is interposed between the drive shaft 114 and the horizontal tube body 107 to ensure airtightness without interfering with rotation. Maintain it to block the inflow of moisture.

A screw stirring fan (116) is mounted on the outer end of the drive shaft 114 to move water by rotation, and an air supply passage 120 is provided between the upper and lower sides of the operating tube 108. 113) and the drive shaft 114 are arranged so as not to interfere with each other so that air can be supplied to the seawater from the outside.

The air supply passage 120 forms a wide supply chamber 123, the upper side of which is connected to an inlet pipe 121 to receive external air and is finished with an airtight partition wall 122, and the supply chamber 123 The shape of the tubular body is maintained from the lower side, and an air supply fan 125 is installed on the driving shaft 113 at the supply chamber location to supply air as if forcibly pumped.

The operating tube 108 is further equipped with an angle adjustment means 130 to rotate the screw stirring fan (116) at a predetermined angle, thereby expanding the range (area) for forming the water flow and the range for supplying air. Let it happen.

The angle adjustment means 130 is equipped with an eccentric cam 133 on the output shaft 132 of the angle adjustment motor 131 installed on the upper plate 101, and the eccentric cam 133 and the flange 109 or the operation By connecting the angle adjustment frame 134, which is further fixed to the pipe 108, to the operating link 135, the operating pipe 108 can be moved at a predetermined angle, thereby expanding the range of formation of water flow and the supply range of air. Let it happen.

As another example of the angle adjusting means, a driving gear 140 is mounted on the output shaft 132 of the angle adjusting motor 131 installed on the upper plate 101, and the driving gear 140 and the flange 109 or the operation This can be done in various ways, such as connecting the angle adjusting gear 141, which is further fixed to the pipe 108, with an intermediate gear 142 so that the operating pipe 108 can be moved at a predetermined angle.

Although the angle adjusting means 130 is illustrated as being installed on the upper plate 101, it is obvious that it can be installed on the lower plate 102 by seeking an airtight means.

The state of use of the water treatment device 100 for cage fish farms of the present invention to which the technology of the present invention as described above is applied is as follows.

The water treatment devices 100 for cage fish farms are installed to have a predetermined depth in the cage fish farms, and the number of water treatment devices 100 for cage fish farms is appropriately distributed and placed according to the area of the cage fish farms and the depth is adjusted. It would be natural.

In the arrangement described above, if there are algae, the water treatment device 100 for the cage fish farm is not activated. If there is no algae, or if the water temperature of the cage fish farm exceeds an appropriate level, it is activated to produce water like natural algae by the water flow. All you need to do is maintain the condition and supply a means to increase the amount of dissolved oxygen, such as air or liquid oxygen.

The operator of the water treatment device 100 for the cage fish farm may operate it directly according to the situation while visually checking the situation of the cage fish farm, and a controller that receives information from a water quality sensor, a water temperature sensor, or a sensor capable of detecting the flow of birds. It may be operated automatically by .

When it is desired to operate the water treatment device 100 for cage fish farms, when the driving means 110 is operated, power is transmitted to the driving shaft 113 through the output shaft 111 and finally to the driving shaft through the bevel gear 115. It is delivered to (114).

The drive shaft 114 is equipped with a screw stirring fan (116) and rotates underwater, eventually forming a water current, creating a water flow similar to a substantial tidal current, while the water in the cage fish farm flows from the bottom to the top and from the bottom to the top. The goal is to mix evenly toward the bottom.

In this process, water from the lower side with high dissolved oxygen moves to the upper side, allowing the dissolved oxygen to rise naturally. In particular, external air is supplied into the water of the cage fish farm through the air supply passage 120, thereby further increasing the amount of oxygen. It will be possible to increase it.

External air is supplied into the water through the air supply passage 120 because the air supply fan 125 is mounted on the driving shaft 113 at the location of the supply chamber 123 connected to the outside through the inlet pipe 121. As external air is pumped by the rotation of the supply fan (125), it is supplied to the screw agitation fan (116) along the air supply passage 120, so it is evenly distributed inside the cage fish farm by the screw agitation fan (116) that generates water flow. It is dispersed.

In addition, since the operating tube 108 rotates at a predetermined angle by the angle adjusting means 130, the range for forming the water flow and the range for supplying air can be expanded, and the range for supplying air can be expanded, and the range for supplying air can be expanded through the inflow tube 121. By connecting with natural air as well as liquid oxygen equipment, it is possible to smoothly supply air, oxygen, etc. necessary for the cage fish farm.

This invention not only forms the water flow in a cage fish farm close to natural tide, but also supplies external air, oxygen, or gases helpful for the growth of fish and shellfish along with the formation of the water flow, thereby increasing the amount of dissolved oxygen and preventing death. It has advantages such as being able to help.

100; Water treatment equipment for cage fish farms
101; upper plate 102; lower plate
105; frame 106; vertical tube
107; horizontal tube body 108; operating tube
110; Drive means 111; output shaft
113; Drive shaft 114; driving axle
115; Bevel gear 116; Screw stirring fan
120; air supply passage 121; inlet pipe
123; supply room 125; Air supply fan
130; Angle adjustment means

Claims (3)

A frame (105) connected to an upper plate (101) and a lower plate (102) provided at a predetermined distance from the upper plate (101) with a retaining bar (103);
A vertical pipe body 106 lowered from the upper side of the upper plate 101 toward the lower plate 102, and a horizontal pipe body 107 whose end is exposed to the outside of the frame 105 at the bottom of the vertical pipe body 106. An operating pipe (108) installed by connecting;
A driving means (110) connected to the upper side of the operating tube (108) using a flange (109);
A driving shaft 113 connected to the output shaft 111 of the driving means 110 with a coupling 112 and lowered to the bottom of the vertical pipe 106;
A drive shaft 114 installed on the horizontal pipe body 107;
A bevel gear 115 installed to engage the lower end of the driving shaft 113 and the inner end of the driving shaft 114 to transmit the power of the driving means 110;
A screw stirring fan (116) is installed at the outer end of the drive shaft 114 to move water by rotation;
An air supply passage 120 is further provided between the upper and lower sides of the operating tube 108 so as not to interfere with the main shaft 113 and the driving shaft 114 so as to supply air to seawater from the outside;
The air supply passage 120 has an upper side connected to an inlet pipe 121 to receive external air, an operating pipe 108, and a supply chamber 123 closed with an airtight partition wall 122, A water treatment device for a cage fish farm, characterized in that it includes an air supply fan (125) that can be mounted on the driving shaft (113) at the supply room location and supply air as if forcibly pumping it. delete delete