KR20170030862A - Automatic cutting apparatus of sea urchin shells for the sea urchin of the drawer - Google Patents

Abstract

The present invention relates to an automatic cutting apparatus of sea urchin shells for extracting sea urchin eggs and, more specifically, to an automatic cutting apparatus of sea urchin shells for extracting sea urchin eggs, which can automatically cut a part of sea urchin shells to quickly and easily withdraw sea urchin eggs for edible use from the sea urchin shells and can induce consumption increase of the sea urchin eggs by reducing production cost depending on daily throughput increase by enabling quick processing of sea urchins.

Description

Technical Field [0001] The present invention relates to an automatic cutting device for cutting sea urchin shells for extracting sea urchin eggs,

The present invention relates to an automatic cutting device for cutting sea urchin shells, and more particularly, to an automatic cutting device for automatically cutting a part of sea urchin shells for quickly and easily pulling sea urchins, The present invention relates to an automatic cutting device for sea urchin shells for extracting sea urchin eggs, which can increase the consumption of sea urchin eggs by lowering the cost due to an increase in daily throughput by enabling quick processing of sea urchins by providing a cutting device.

In general, sea urchins are a type of seafood that is collected in the East Sea and the South Sea from July to August. It is known to be a good aphrodisiac to be eaten in summer that is easy to get tired of heat. It contains more protein than sea cucumber. Especially, It is good for digestion and absorption, and is especially excellent as a tonic agent.

Inside of these sea urchins, sea urchins are composed of tubal legs, thorns, mouthpieces, internal organs, anus and gonads, and the thick corrugated plates of calcium carbonate interlock with each other to form hard shells . The sea urchins stretch out between the thorns and can move to a thin, long tube with a liquid, and the place where the tube comes out is called a walk.

The corrugate is divided into 5 rows of long spines and 5 spines without spines. Five umbilical cords and intercostal cords are formed, and when rotated 1/5 from the center, . Sea urchins are variegated, and the gonads, female ovaries and male testes, are edible.

Such conventional sampling methods require separate screening operations and work hours because the constituent material of the anus and the ball and the thorns are mixed with the gonads, and when the knife touches the gonad, the gonads are scattered to deteriorate quality, There is a problem in that the quality of the collected sea urchins is deteriorated because of the limitation on the technique of the splitter in order to prevent damage to the gonad during the sampling operation such as causing back pain because the hand is pierced and injured because it is squatted .

As a conventionally known technique for solving the above problems, Utility Model Publication No. 20-1996-0005979 (entitled " Sea urchin shell automatic cutter)

A cutting die 4 having a graduation 3 is inserted into the center square hole 2 of the rotary shaft 1 and a compression ring 6 and a butterfly nut 7 are inserted into the threaded portion 5, Is formed by a spring (11) sandwiching a perforation (10) through which a through hole (9) is formed.

In addition, Patent Application No. 10-1337682 (entitled " Sea Urchin Skin Partitioner "

A first lever that extends outwardly of the handle and has a predetermined length and is bent at an end thereof; A lever which is spaced apart from the first lever and into which a finger of an operator is inserted, and a second lever which extends outwardly of the handle to a predetermined length and whose end portion is bent toward the first lever;

An insertion portion provided at each of the distal ends of the first and second levers and having an inclined blade inserted into the inside of the sea urchin shell;

A spring fixed at both ends between the first and second levers to urge the first and second levers; And

And an engaging pin mounted to the first lever and the second lever via the first lever and the second lever to connect the first lever and the second lever in a region where the first lever and the second lever cross each other, do.

However, the sea urchin automatic cutter having the above-described structure is a tool cutter which is a personally used tool cutter, which does not lead to an increase in daily production of sea urchin. Especially, even if a large amount of sea urchin is caught, the shell is removed, It takes a long time to work to cause the corruption of the gonad.

Therefore, a new type of sea urchin automatic cutting device for extracting sea urchin eggs, which can remove the shell through the automated line and capture the edible portion of the sea urchin quickly without damaging it, thereby maintaining the decay and freshness of the edible portion Need to provide.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an automatic apparatus capable of promptly handling trapped sea urchins, thereby enabling the promotion of consumption of sea urchin through the daily production of sea urchin And to provide an automatic cutting device for sea urchin shell for withdrawing a new type of sea urchin.

In addition, in cutting the sea urchin shell automatically, it is possible to cut a certain position at all times, thereby preventing the damage of the portion used for edible inside the sea urchin, thereby obtaining a superior quality sea urchin. And an automatic cutting device for the sea urchin shell.

In order to achieve this object,

According to an aspect of the present invention,

A hopper 10 into which the sea urchins are introduced and on which a moving part 11 is formed;

A part feeder 20 for introducing the sea urchin through the moving part 11 and aligning and moving the sea urchin by centrifugal force;

A conveyor 30 having a plurality of jigs 31 on which the sea urchins introduced through the parts feeder 20 are seated;

A pair of support rods 41 fixed to both sides of the conveyor 30 and having upper and lower jaws (not shown) and female screws (not shown) so as to adjust the height of the urchin moving by the conveyor 30 The bolt 44 is fastened to the female screw hole (not shown) in the state where the pressure plate 42 is inserted into the upper part and the spring 43 is inserted into the edge and the pressure plate 42 is pressed by the pressure of the spring 43 at the upper part A height adjusting portion 40 formed in a shape of a circle;

A case 51 formed at the rear of the height adjuster 40 and fixed to both sides of the conveyor 30 at both sides thereof; a motor 52 formed at one side of the case; A cutout portion 50 composed of a drive pulley 53 and a driven pulley 54 connected to the case 51 and a cutting blade 55 connected to the drive pulley 53 and the driven pulley 54 and rotated;

Shaped table 62 having a hollow portion 61 therein for pulling out the adult eggs of the sea urchin into which the upper shell is cut by the cut portion 50 and the sea urchin is exposed, A discharge hopper 63, a water inflow hose 66 on the other side, and a draw-out portion 60 formed integrally with a plurality of inflow portions.

A pressing rod 45 having a slope in the form of a wedge in the longitudinal direction on both sides of the same position as the moving position of the jig 31 formed on the conveyor 30 is provided below the pressing plate 42 of the height aligning unit 40 .

The cutouts 70 include a pair of supports 72 fixed to both sides of the conveyor 30 and having guide holes 71;

A motor 73 formed on one side of the supporter 72;

A cylindrical cam 74 connected to the rotation shaft of the motor 73 and having a guide groove 741 formed therein;

And a cutting blade (76) inserted into the cylindrical cam (74) so that one side cutting edge (75) is inserted to be slidable,

Here, the vertical motion 75 connected to the rotation of the cylindrical cam 74 due to the driving of the motor 73 is moved to the left and right, and the cutting blade 76 integrally connected to the vertical motion 75 is moved to the left and right to cut the urchin from the front .

And a sponge for fixing the sea urchin is attached to the inner surface of the seating groove formed in the jig.

As described above, according to the present invention, the automatic cutting device for sea urchin shells for extracting sea urchin is capable of quickly repairing sea urchins by extracting sea urchins from the inflow of sea urchins in one line, thereby increasing daily production of sea urchins It is effective.

In addition, since the shell of a certain portion of the sea urchin is cut off by the cut portion, the inner sea urchin can be withdrawn without being damaged, thereby providing high quality sea urchin to the consumer, It is effective.

1 is a schematic view showing an apparatus flow of an automatic sea urchin shell cutting apparatus for extracting sea urchin according to the present invention;
FIG. 2 is a schematic view showing a partial configuration of a conveyor of an automatic sea urchin shell cutting apparatus for withdrawing urchin eggs according to the present invention.
Fig. 3 is a perspective view of a portion of a height-aligned portion of an automatic sea urchin shell cutting apparatus for extracting sea urchin eggs according to the present invention
FIG. 4 is a perspective view of a cutout portion of an automatic sea urchin shell cutting apparatus for extracting sea urchin eggs according to the present invention
FIG. 5 is a perspective view showing another embodiment of the cutout portion of the sea urchin shell automatic cutting apparatus for pulling out sea urchin eggs according to the present invention. FIG.
Fig. 6 is a perspective view of the sea urchin outlets of the sea urchin shell automatic cutting apparatus for withdrawing urchin eggs according to the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 1 is a schematic view showing an apparatus flow of an automatic sea urchin shell cutting apparatus for withdrawing urchin eggs according to the present invention. FIG. 2 is a schematic view showing a part of a conveyor of an automatic sea urchin shell cutting apparatus for withdrawing sea urchin eggs according to the present invention. FIG. 3 is a perspective view of a portion of a height-aligning portion of an automatic sea urchin shell cutting apparatus for withdrawing urchin eggs according to the present invention, and FIG. 4 is a cross- FIG. 5 is a perspective view showing another embodiment of the cut-out portion of the sea urchin shell automatic cutting apparatus for pulling out the sea urchin according to the present invention, and FIG. 6 is a perspective view showing a cut- Is a perspective view of a sea urchin egg out of a sea urchin shell automatic cutting apparatus.

As shown in the drawing, the automatic sea urchin shell cutting apparatus 100 for extracting the sea urchin according to the present invention comprises a hopper 10 into which the harvested sea urchins 200 are introduced, A conveyor 30 on which a plurality of jigs 31 are formed to receive a parting feeder 20 which is fed by a feeder 11 and a urchin moving in a line by the parts feeder 20, A height aligning portion 40 formed at an upper portion of the jig 30 to adjust the height of the sea urchin seated on the jig 31 to a constant height, a cutout portion 50 for cutting the upper portion of the sea urchin arranged at a predetermined height, And a lead-out part (60) for pulling out the adult bullet (210) exposed by the cutout part (50).

In the figure, a reference numeral 80 denotes a container for holding captured sea urchin eggs.

The hopper 10 has a vertically open lowered shape with an open upper part and an opening part (not shown) formed on a lower side of the hopper 10 to form a moving part 11 in the form of a conveyor, To the part feeder 20 side.

The parts feeder 20 is an automatic apparatus that aligns and feeds a product in a direction that can be used in a machine tool by using vibration or centrifugal force, and is a structure generally used in an automation apparatus, and a detailed description thereof will be omitted in the present invention.

The conveyor 30 has an elliptical conveyor belt 32 provided with a plurality of jigs 31 on its surface connected between a drive pulley (not shown) and a driven pulley (not shown) And the jig 31 has a shape in which a part of the sea urchin can be inserted and fixed.

The jig 31 is formed with a seating groove 311 in which the lower portion of the sea urchin is seated on the upper portion so that the sea urchin can be fitted and fixed to the jig 31. Preferably, Not shown) so that the viscera of the sea urchin can be easily fixed to the sponge.

3, the height aligning unit 40 is formed on the conveyor 30 and presses the upper part of the sea urchin seated on the jig 31 to adjust the height of the sea urchins to be constant, The blade 51 can be cut at the same position of the sea urchin, thereby preventing the sea urchin from being damaged.

That is, the height regulation unit 40 is provided on a pair of support rods 41 fixed to both sides of the conveyor 30 and having a stepped portion (not shown) and a female screw hole (not shown) The bolt 44 is fastened to the female screw hole (not shown) and the pressing plate 42 is pressed by the pressure of the spring 43 at the upper part.

A pressure bar 45 having a plurality of inclined surfaces in the form of wedges is formed on the lower portion of the pressure plate 43 so as to be positioned above the jig 31 formed on the conveyor 30, As shown in Fig.

The pressing rod 45 may be formed on the upper surface of the jig 31 so that the pressing rod 45 is pressed against the upper surface of the jig 31, By pressing the sea urchin through it, you can adjust the height of the sea urchin more accurately.

The cut-out portion 50 is provided at the rear of the height-directing portion 40 to cut the upper part of the shell of the sea urchin, the height of which is fixed. As shown in FIG. 4, A drive pulley 53 connected to the rotation shaft of the motor 52 and a driven pulley 54 connected to the case 51; And a cutting blade 55 connected to the drive pulley 53 and the driven pulley 54 and rotating.

In addition, a seat plate 56 is formed inside the case 51 so that the sea urchin shell cut by the cutting blade 55 is seated to ensure smooth transport of the cut sea urchin.

Preferably, the edge of the seating plate 56 is tapered so that the cut sea shell can be easily introduced into the upper portion of the seating plate 56.

The umbrella which is exposed to the lower portion of the drive pulley 53 and the driven pulley 54 and the case 51 of the cutting blade 55 and the seat plate 56 to move the conveyor 30, Thereby preventing it from being caught in the lower part.

In addition, the cutting blade 55 is firmly held by the guide roller 57 formed at the center of the case 51 so that the cutting of the sea urchin shell can be smoothly performed.

5 shows another embodiment of the cutout according to the present invention.

The cutouts 70 of the present embodiment include a pair of supports 72 fixed to both sides of the conveyor 30 and having guide holes 71 and a motor 73 formed on one side of the support 72 A cylindrical cam 74 connected to the rotation shaft of the motor 73 and having a guide groove 741 formed therein and a cylindrical follower 75 inserted into the cylindrical cam 74 to be slidably connected to the cylindrical cam 74, The cutting blade 76 is moved to the left and right by the rotation of the cylindrical cam 74.

As the cylinder 73 is driven by the motor 73, the driven pulley 75 connected to the rotation of the cylindrical cam 74 moves left and right. The cutting blade 76 integrally connected to the rotary blade 75 moves left and right, It is to cut.

Although the structure for moving the cutting edge 76 in the above is described as driving by using the cylindrical cam, the present invention is not limited to the above-described embodiment, Several variations are possible

The pulled-out portion 60 is received in the jig 31 by the cutting edge 55 formed in the cut-out portion 50, and the upper part of the shell of the urchin moving is cut so that the operator can easily grasp the edible portion As shown in Fig. 6, a discharge hopper 63 and a plurality of legs 64 are provided on one side of a table 62 having a hollow portion 61 therein, Respectively.

In addition, a plurality of inflow grooves 65 are formed in the upper portion of the table 62 so that the adult eggs drawn out by the operator can be introduced into the inflow grooves 65 and discharged to the discharge hopper 63 side.

At this time, the sea urchin introduced into the inflow groove 65 is washed down toward the discharge hopper 63 together with the water flowing through the water inflow hose 66 formed at one side of the table 62, (63), and has a characteristic that basic cleaning is performed in the process of moving together with water.

In addition, the number of the inflow grooves 65 and the height of the legs 64 may be variously modified according to the working environment.

As described above, the sea urchin shells are characterized in that they can be processed more quickly and more conveniently than in the processing apparatus of the known art. As a result, sea urchins from sea urchins are in a better state than the known art apparatus, It will reach the export market. The use of a device to break the shell of the sea urchin, which is automated, results in a substantial reduction in damage to the sea urchin and at the same time an increase in the production of sea urchin. In addition, the number of workers engaged in shoreline processing can be greatly reduced, thereby significantly reducing the overall processing cost.

The present invention has been described with reference to the embodiments shown in the attached drawings, but it will be understood that various modifications and other embodiments are possible for those skilled in the art.

10: hopper 11: moving part
20: parts feeder 30: conveyor
31: jig 40: height-regulating portion
41: support rod 42: pressure plate
43: Grommet 44: Bolt
45: pressure rod 50:
51: Case 52: Motor
53: drive pulley 54: driven pulley
55: cutting blade 56: seating plate
57: guide roller 60: seat part
61: hollow part 62: table
63: Exhaust hopper 64: Leg
65: inlet groove 66: water inlet hose
70: Cutting section 71: Guide ball
72; Support 73: motor
74: Cylinder cam 75:
76: Cutting blade

Claims (4)

A hopper 10 into which the sea urchins are introduced and on which a moving part 11 is formed;
A part feeder 20 for introducing the sea urchin through the moving part 11 and aligning and moving the sea urchin by centrifugal force;
A conveyor 30 having a plurality of jigs 31 on which the sea urchins introduced through the parts feeder 20 are seated;
A pair of support rods 41 fixed to both sides of the conveyor 30 and having upper and lower jaws (not shown) and female screws (not shown) so as to adjust the height of the urchin moving by the conveyor 30 The bolt 44 is fastened to the female screw hole (not shown) in the state where the pressure plate 42 is inserted into the upper part and the spring 43 is inserted into the edge and the pressure plate 42 is pressed by the pressure of the spring 43 at the upper part A height adjusting portion 40 formed in a shape of a circle;
A case 51 formed at the rear of the height adjuster 40 and fixed to both sides of the conveyor 30 at both sides thereof; a motor 52 formed at one side of the case; A cutout portion 50 composed of a drive pulley 53 and a driven pulley 54 connected to the case 51 and a cutting blade 55 connected to the drive pulley 53 and the driven pulley 54 and rotated;
Shaped table 62 having a hollow portion 61 therein for pulling out the sea urchins of the sea urchin into which the upper shell is cut by the cut portion 50 and the sea urchin is exposed, And an outlet 60 formed integrally with the discharge hopper 63 and the water inflow hose 66 at the other side and a plurality of inflows integrally formed at the upper side of the discharge hopper 63. The apparatus for automatically cutting sea urchin shells for extracting sea urchin eggs.
The method according to claim 1,
A pressing rod 45 having a slope in the form of a wedge in the longitudinal direction on both sides of the same position as the moving position of the jig 31 formed on the conveyor 30 is provided below the pressing plate 42 of the height aligning unit 40 Characterized in that the sea urchin shell cutting device for extracting sea urchin eggs.
The method according to claim 1,
The cutouts 70 include a pair of supports 72 fixed to both sides of the conveyor 30 and having guide holes 71;
A motor 73 formed on one side of the supporter 72;
A cylindrical cam 74 connected to the rotation shaft of the motor 73 and having a guide groove 741 formed therein;
And a cutting blade (76) inserted into the cylindrical cam (74) so that one side cutting edge (75) is inserted to be slidable,
Here, the vertical motion 75 connected to the rotation of the cylindrical cam 74 due to the driving of the motor 73 is moved to the left and right, and the cutting blade 76 integrally connected to the vertical motion 75 is moved to the left and right to cut the urchin from the front Characterized in that the sea urchin shell is cut automatically for retrieval of sea urchin eggs.
The method according to claim 1,
And a sponge for fixing the sea urchins is attached to the inner surface of the seating groove formed in the jig.

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