KR101359538B1 - Apparatus for automatic control frame holding rope with aquatic seed - Google Patents

Abstract

Seedling automatic control device according to the invention, the cradle is installed in the water; Seedling frame is fixed to the holder to be automatically rotated, the seedling is attached to the engagement; It includes; and a drive unit for providing a driving force for the automatic rotation of the seedling frame.
As described above, the present invention includes a cradle installed in the water and a seedling frame which is automatically rotated by the driving unit in the holder, so that the floating larvae are uniformly attached to the seedling mold, and the water flow of the breeding tank is improved, thereby improving the water flow of the seedling. The yield and survival rate can be greatly improved.

Description

Jongmyottle Automatic Control Unit {APPARATUS FOR AUTOMATIC CONTROL FRAME HOLDING ROPE WITH AQUATIC SEED}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic seedling automatic control device for efficiently cultivating seedlings so that the seedlings are uniformly attached to the entire part of the working body to which the seedlings are attached.

In general, farming methods using a seedling frame are attached to a specific attachment substrate (seeds, nets, etc.) and grown for a certain period of time, and transferred to the growing breeder to grow the seed itself with the grown seedlings. It is then used to grow by attaching it back to ropes or other tools.

Korean Patent Laid-Open Publication No. 2004-0067183 describes a technique for a method of farming a squirrel that improves the survival rate by simplifying the process and avoiding stress in young seeds during the transfer to the sea. This Patent Publication No. 2004-0067183 discloses a palm yarn line wound on the outer circumferential surface of a cloth line formed by twisting a cloth so as to be submerged in the tank surface, and radiates eggs to the tank so that the hatched seeds are attached to the palm yarn or cloth line. Period seed is incubated, and then the seed line in which the seed is incubated is moved to the sea and installed at a certain depth underwater.

In addition, Published Utility Model Publication No. 2011-0002540 relates to a lobster seedling and growing machine, and in Published Utility Model Publication No. 2011-0002540, a field of worms is formed on a frame of a rafter which is formed by winding palm yarn horizontally on a circular frame made of plastic. A method of raising a squirrel is described by attaching a squirrel, fastening the mold and the mold to a predetermined interval, and then placing the mold at a desired depth.

However, in the prior art, when seedling molds are provided in water, there are limitations in efficiently cultivating seedlings because seedlings do not adhere homogeneously to the entire site of engagement.

Specifically, in the case of hanging the hook simply by hanging on a support fixedly placed in the water and dropping it into the lower water, if the larva just before attachment is negative or positive, it attaches to a specific working area in large quantities to produce seedlings with efficient and economical efficiency. There was a difficulty.

Moreover, when several seedlings are arrange | positioned and overlapped, the water flow of a tank and the water quality of a bottom deteriorate, the protozoa proliferate, and the survival rate of an attachment seedling is greatly reduced.

In order to cope with this, there are various difficulties in changing the location of the seedling frame by manpower one by one, and this work is not made, resulting in inefficiency in terms of productivity. In addition, even if the above work, the conditions of the device suitable for the work is not satisfied, there is a problem that waste of manpower and excessive expenses are inevitable, and work efficiency is also significantly reduced.

Accordingly, there is a need for a device that can efficiently and smoothly perform work in a short time in order to contribute to the increase of fisherman's income by reducing the cost and time of fishers suffering from manpower shortage.

The present invention has been devised to solve the above problems, when floating invertebrate larvae such as scallop cultured in the tank is attached to the seedling frame, which is an attachment substrate made of palm sand or light fishing nets, etc. It is an object of the present invention to provide an automatic seedling frame automatic control device capable of uniformly attaching many seedlings to the top, bottom, left, and right surfaces by rotating.

In addition, the present invention can simply rotate the seedlings attached to the seedlings when incubating the young invertebrate larvae (shellfish, sea cucumber, sea squirt, etc.) in the water tank so that the seedlings are homogeneous in the entire area of the job attached to the seedlings It is an object of the present invention to provide a seedling automatic control device for efficiently cultivating seedlings by attaching them.

In addition, an object of the present invention is to provide a seedling frame automatic control device capable of improving the survival rate of seedlings and producing healthy and superior seedlings by attaching seedlings to the entire part of the seedlings.

Seedling frame automatic control device according to a preferred embodiment of the present invention in order to achieve the above object, the cradle is installed in the water; Seedling frame is fixed to the holder to be automatically rotated, the seedling is attached to the engagement; It includes; and a drive unit for providing a driving force for the automatic rotation of the seedling frame.

Here, the drive unit, a power transmission member wound on one side of the rotating shaft of the seedling frame; And a motor member wound on the other side of the power transmission member on a motor shaft.

At this time, the power transmission member is a chain, the present invention may further include a driven chain gear mounted to the rotating shaft of the seedling frame so that the rotational power is transferred to the chain wound.

Correspondingly, the present invention further includes a drive chain gear mounted to a drive shaft of the motor member such that the chain is wound so that rotational power is transmitted. When the plurality of drive chain gears are configured to correspond to the chain gears, the plurality of drive chain gears may be detachably mounted to the drive shaft of the motor member so that the plurality of seedling frames may rotate simultaneously or independently. .

The motor member is preferably a geared motor.

The driving unit may further include a control box installed to be electrically connected to the motor member to control the driving force of the motor member.

On the other hand, the seedling frame, side support members disposed on each side; An employment fixing part in which the engagement is fixed while connecting two side support members; And a rotation shaft which is fixed while passing through the two side support members, and both ends of which are rotatably installed on the holder.

Here, the two side support members are formed in a quadrangle, and the engaging fixing part has a plurality of fixing bars connected from one edge of the side support member to the opposite edge of the other side support member, which are arranged side by side. A first fixing surface configured; And a second fixing surface configured to have a plurality of fixing bars connected to one side of the side support member from the other edge of the side support member to the opposite edge of the side support member so as to face the first fixing surface. desirable.

In addition, each of the first fixing surface and the second fixing surface is a pair of two adjacent fixing bars in sequence, the engagement is, the pair of the fixing bar and the second fixing surface of the first fixing surface It is preferable to be unfolded between the other pair of fixing bars facing each other and fixed by the fixing member.

In addition, the employment fixing portion may further include a rib that connects the paired fixing bars.

Furthermore, it is preferable that the plurality of seedling molds are arranged on the holder.

The holder may further include a bushing provided at a portion where the rotary shaft is mounted so that the rotary shaft of the seedling frame is fitted into and fastened.

In addition, the cradle preferably has a cube shape in which the seedling frame is disposed inside.

According to the seedling frame automatic control device of the present invention, when floating invertebrate larvae such as scallop cultured in the tank attached to the seedling frame, which is an attachment substrate made of palm sand or fishnet, etc. There is an advantage in that a lot of seedlings can be uniformly attached to the left and right sides.

According to the seedling frame automatic control device of the present invention, when incubating a young invertebrate larvae (shellfish, sea cucumber, sea squirt, etc.) in the water tank, the seedling frame attached to the seedlings can be simply rotated, so that the entire seedlings can be attached. There is an advantage that the seedling is uniformly attached to the site can be cultured efficiently.

In addition, according to the seedling frame automatic control device of the present invention, by attaching the seedling to the entire portion of the seedling frame, by improving the water flow of the breeding tank there is an advantage that can greatly improve the production and survival rate of the seedling seedling. In addition, by automatically rotating the seedling frame, there is an advantage that can contribute to the fisherman's income increase by reducing the cost and efficient and smooth operation of the fisherman suffering from manpower shortage.

1 is a view showing the engagement of the fixing member wound.
2 is a view showing a seedling automatic control device according to a preferred embodiment of the present invention.
3 is a plan view illustrating the seedling frame automatic control device of FIG. 2.
4 is a perspective view illustrating a seedling frame in the seedling frame automatic control device of FIG. 2.
5 is a side view illustrating the seedling frame of FIG. 4.
FIG. 6 is a view showing that the engagement of FIG. 1 is fixed to the seedling frame of FIG. 4 by the fixing member.
FIG. 7 is a view illustrating a chain wound around a rotating shaft of a seedling frame in the seedling frame automatic control device of FIG. 2.
8 is a view illustrating a chain wound around a drive shaft of a motor member in the seedling frame automatic control device of FIG. 2.
9 is a view showing a motor member and a control box in the seedling automatic control device of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view showing the engagement of the fixing member, Figure 2 is a view showing the seedling frame automatic control device according to a preferred embodiment of the present invention.

Referring to the drawings, the seedling frame automatic control device of the present invention is a cradle 20 installed in the water, the seedling frame 40 mounted on the holder 20, and the driving force for the automatic rotation of the seedling frame 40 It includes a driving unit for providing.

The cradle 20 is installed in water, and is configured to be stably seated in a container for receiving water such as a water tank.

As an example, as shown in FIG. 2, the holder 20 may have a hexahedral shape in which the seedling frame 40 is disposed inside.

The seedling frame 40 is mounted on the holder 20 is configured to rotate automatically.

3 is a plan view illustrating the seedling frame automatic control device of FIG. 2, FIG. 4 is a perspective view illustrating the seedling frame in the seedling frame automatic control device of FIG. 2, and FIG. 5 is a side view illustrating the seedling frame of FIG. 4.

6 is a view showing that the engagement of FIG. 1 is fixed to the seedling frame of FIG. 4 by the fixing member.

Referring to the drawings, the seedling frame 40 includes a side support member 42 disposed on both sides, and the engaging fixing portion 44 and the rotating shaft 46 installed on the side support member 42.

The side support member 42 serves as a frame for forming the overall external structure of the seedling frame 40, and constitutes a configuration in which the two are arranged so as to face each other at appropriate intervals so that the employment fixing portion 44 is provided.

As an example, the side support member 42 is formed in a quadrangular shape. Specifically, four outer shape bars 42a each having a predetermined thickness are disposed as corners, and the inside of the side support member 42 is formed for the rotary shaft 46 to be disposed while passing through a center thereof. The support bar 42b may be connected to the outer shape bar 42a in an appropriate form.

In addition, the engagement fixing portion 44 is configured to engage the engagement (4) while connecting the two side support members (42).

Here, the engagement fixing portion 44 is a first fixing surface 44a formed on one surface to fix the engagement 4, and a second fixing having the same configuration as the first fixing surface 44a on the opposite surface. The face 44b is provided.

At this time, the first fixing surface (44a) is composed of a plurality of fixing bars 45 are arranged side by side connected from one corner of the side support member 42 to the opposite edge of the other side support member 42.

In addition, the second fixing surface 44b is a fixing bar connected from the other edge of the side support member 42 to the opposite edge of the other side support member 42 so as to face the first fixing surface 44a ( A plurality of 45) are arranged side by side.

In addition, each of the first fixing surface 44a and the second fixing surface 44b is paired with two adjacent fixing bars 45 in sequence.

Herein, the engaging portion 4 to which the seedling is attached is fixed at both ends to the first fixing surface 44a and the second fixing surface 44b, specifically, a pair of fixing bars of the first fixing surface 44a ( 45 is extended between the other pair of fixing bars 45 facing the second fixing surface 44b to be fixed by the fixing member 49.

At this time, the fixing member 49, as shown in Figure 1, as a bundle member of the form, such as a string, while holding the engaging 4 in a constant arrangement, facing the first fixing surface 44a and the second facing each other Each pair of fixing bars 45 on the fixing surface 44b can be wound so that the engagement 4 can be bundled in a shape hung between the first fixing surface 44a and the second fixing surface 44b. .

In this fixed part 44, it is preferable that the pair of fixing bars 45 are connected to each other by at least one rib 45a.

The rib 45a serves to reinforce the fixed bar 45 formed over a predetermined length so as not to be deformed or broken by an external force.

On the other hand, the rotating shaft 46 is connected to the two side supporting members 42, both ends are configured to be rotatably installed in the holder (20).

At this time, the holder 20 may be mounted to the bushing 22 in the portion where the rotary shaft 46 is mounted, so that the rotary shaft 46 of the seedling 40 is fitted.

Of course, in the present invention, the rotation shaft 46 is not limited to the connection structure to the cradle 20 only need to rotate smoothly while fixing the seedling frame 40.

In addition, the seedling mold 40 may be arranged in a plurality of holder 20, the seedling mold 40 in the holder 20 may be preferably arranged side by side in the transverse direction.

Seedling frame 40 is configured as described above, receives a rotational driving force from the drive unit automatically rotates with respect to the holder (20).

FIG. 7 is a view illustrating a chain wound around a rotating shaft of a seedling frame in the seedling frame automatic control device of FIG. 2, and FIG. 8 is a view illustrating a chain wound around a drive shaft of a motor member in the seedling frame automatic control device of FIG. 2. 9 is a view showing a motor member and a control box in the seedling automatic control device of FIG.

Referring to the drawings, the drive unit includes a power transmission member wound on one side of the rotary shaft 46 of the seedling frame 40, and a motor member 64 wound on the other side of the power transmission member.

Here, the power transmission member may be utilized by the chain 62, in which the present invention is a driven body mounted on the rotary shaft 46 of the seedling frame 40 so that the chain 62 is wound to transmit the rotating power It may further include a gear 66.

In addition, in order to transmit the driving force of the motor member 64, the drive chain gear 67 is mounted on the drive shaft 64a of the motor member 64, and the chain 62 is wound around the drive chain gear 67. Rotational power is transmitted.

At this time, as shown in Figure 2, when the plurality of seedling frame 40 is installed in the cradle 20 to correspond to the plurality of driven chain gear 66, the drive chain gear 67 is composed of a plurality, The plurality of drive chain gears 67 are configured to be detachably mounted to the drive shaft 64a of the motor member 64 such that the two seedlings 40 are rotated simultaneously or individually.

On the other hand, the motor member 64 is preferably a geared motor is utilized.

The geared motor is provided with a reduction gear to reduce rotational speed of the motor to an appropriate rotational speed in consideration of the rotational speed of the seedling frame 40 to be rotated to provide rotational power.

In addition, the drive unit further includes a control box 69 installed to be electrically connected to the motor member 64 to control the driving force of the motor member 64. The control box 69 is configured to control and display the rotational speed as well as on / off.

As a result, according to the present invention, as the seedling mold 40 in which the hook 4 is fixed is automatically rotated in water, the floating larvae are homogeneously attached to the entire part of the hook 4, and the water flow in the bottom of the tank The improvement allows for efficient cultivation of the attached seedlings.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

4: engaged 20: holder
22: bushing 40: seedling
42: side support member 44: palm accident government
44a: first fixing surface 44b: second fixing surface
45: fixed bar 45a: rib
46: shaft 49: holding member
60: drive part 62: chain
64: motor member 64a: drive shaft
66: driven chain gear 67: drive chain gear
69: control box

Claims (13)

In the seedling frame automatic control device having a seedling frame wound with floating invertebrate larvae cultured in a tank,
Cradle installed underwater;
Seedling frame fixing device which is mounted so as to be automatically rotated on the holder, the plurality of seedling frame to which the seedling can be attached; And
Including; a driving unit for providing a driving force for the automatic rotation of the seedling frame;
The seedling frame fixing device,
Side support members each having a rectangular structure disposed on both sides;
A seedling fixing part to which the plurality of seedlings are fixed while connecting two side support members; And
A rotation shaft connecting two side support members and rotatably installed at both ends of the holder;
The seedling fixed part,
A first fixing surface configured by a plurality of fixing bars connected to one side of the side support member from one edge of the side support member to the opposite edge of the side support member; And
And a second fixing surface configured to have a plurality of fixing bars connected to one side of the side supporting member from one edge of the side supporting member to the opposite edge of the other side supporting member so as to face the first fixing surface.
Each of the first fixing surface and the second fixing surface is a pair of neighboring two fixing bars in sequence,
The plurality of seedlings are unfolded between the pair of fixing bars of the first fixing surface and the other pair of fixing bars facing the second fixing surface, and each of the pair of fixing bars is wound around the plurality of fixing bars. The seedling frame automatic control device, characterized in that the seedling frame is fixed by a fixing member consisting of a string that can be tied in a row form in the inner space formed between the first fixing surface and the second fixing surface.
The method of claim 1,
The driving unit includes:
A power transmission member having one side wound on a rotation shaft of the seedling frame; And
A motor member wound on the other side of the power transmission member on a motor shaft;
Seedling frame automatic control device comprising a.
3. The method of claim 2,
The power transmission member is a chain,
A driven chain gear mounted to a rotating shaft of the seedling frame so that the chain is wound so that rotational power is transmitted;
Seedling frame automatic control device further comprising.
The method of claim 3, wherein
And a drive chain gear mounted to a drive shaft of the motor member so that the chain is wound so that rotational power is transmitted.
When a plurality of the seedling frame fixing device is installed in the cradle to the plurality of drive chain gear to correspond to the plurality of driven chain gear,
And a plurality of the drive chain gears are detachably mounted to a drive shaft of the motor member so that the plurality of seedling holders are rotated simultaneously or individually.
3. The method of claim 2,
Seedling automatic control device, characterized in that the motor member is a geared motor.
3. The method of claim 2,
The driving unit includes:
A control box installed to be electrically connected to the motor member to control the driving force of the motor member;
Seedling frame automatic control device further comprising.
delete delete delete The method of claim 1,
The seedling fixed part,
A rib connecting between the pair of fixing bars;
Seedling frame automatic control device further comprising.
delete The method of claim 1,
The cradle,
A bushing provided at a portion on which the rotating shaft is mounted, such that the rotating shaft of the seedling frame is fitted and fastened;
Seedling automatic control device further comprising a.
The method of claim 1,
The cradle,
Seedling automatic control device characterized in that it has a hexahedral shape in which the seedling is disposed inside.

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