KR20110069997A

KR20110069997A - Shellfish automation exuviation system

Info

Publication number: KR20110069997A
Application number: KR1020090126624A
Authority: KR
Inventors: 신승진
Original assignee: 신승진
Priority date: 2009-12-18
Filing date: 2009-12-18
Publication date: 2011-06-24

Abstract

In order to save manpower and maintain the quality of the clam meat, the fixing device to fix the clam, the cutting device to cut the center part of the front end of the clam to form a gaping hole, and a pair of hooks through the gaping hole Opening device to open the shell by inserting it into the shell of the shell, separating device that cuts the inside of the shell of the shell with sticks using a pair of separation knife while the shell of the shell is open, and the shell It provides an automatic shell shell shell system comprising a shell transporting device for adsorption transport of the shells separated from the shell of the.

Clam, Shell, Scallop, Shell, Automatic, Cutting, Fixing, Spreading, Knife, Separation

Description

Shellfish Automation Exuviation System

The present invention relates to a shellfish automatic shelling system, and more particularly, to a shellfish automatic shelling system configured to automatically separate the collected shellfish into shells and shells.

In general, clams are molluscs that surround their shells with two shells. Scallops, clams, cockles, clams, ramie clams, clams, and clams are very diverse.

In order to obtain fresh clams, the shells are separated by opening two shells, and the shell shells are removed by hand, and if the shellfish is to be eaten without such shells, the shells are roasted. If the shell is opened by boiling or boiling, eat the internal shell.

The shelling operation in the above is to open the front end located on the opposite side and the rear end of the two shells are attached to each other, and to remove the part attached to the inner surface of the shell of the clam meat, and proceeds by hand.

However, such a work requires not only skill but also a limited amount of throughput due to insufficient hands, and it is very difficult to handle a large amount of shellfish in order to contain salted fish.

The present invention has been made in view of the above points, the shelling is automatically carried out through a mechanical device for each work step and precisely separate the shells, so that the elimination of manpower shortages and the shellfish automatic shelling capable of quickly and accurately processing a large number of shellfish To provide a system, the purpose is.

Automatic shell shell system proposed by the present invention is a shell fixing device for fixing a shell, a cutting device to form a gap opening by cutting so that the center portion of the front end of the shell cut off, and a pair of hooks through the opening hole A separation device for inserting the inside of the shell of the shell to open the shell, and separating the inner surface and the portion of the shell from the shell with a pair of separation knives with the shell of the shell open. It comprises a device, and a shell feeding device for adsorption transfer of the shells separated from the shell of the shell.

The cutting device includes a pump for pumping liquid at high pressure, a nozzle for spraying liquid at high pressure by the pump at high speed, and a front end of the shell of the shell by the liquid sprayed through the nozzle. It comprises a nozzle moving device for moving the nozzle.

The opening device is a pair of hooks are formed to be caught by the front end of the shell shell and are installed symmetrically with each other, the pair of hooks are inserted into the shell through the opening hole in a narrowed gap between the hook portion It comprises a hook moving device for moving the hook so as to open the gap between the locking portion after moving so as to.

The separation device is made of a material having excellent strength and elasticity, and a pair of separation knives, the ends of which are sharply formed and blades are formed on both sides, and the ends of the separation knife are in close contact with the inner surface of the shell. It includes a moving device for moving the separation knife forward and left and right to the inside of the shell in a state.

The cockle feed device includes a suction device formed with an inlet for adsorbing and fixing the cockle, a plurality of support arms supporting and supporting the cockle in a state in which the cockle is sucked by the inlet and suspended, and the inlet being moved with the cockle adsorbed. It comprises a moving device.

According to the automatic shell shelling system according to the present invention, it is possible to automatically separate from the shell in a fresh state without damaging the shell, it is possible to reduce the manpower and maintain the quality of the shell.

Next, a preferred embodiment of an automatic shell shelling system according to the present invention will be described in detail with reference to the drawings.

One embodiment of the automatic shell shelling system according to the present invention, as shown in Figures 1 and 2, the clam fixing device 20 for fixing the clam (2), and spreads on the shell (4) of the clam (2) The cutting device 40 which forms the hole 5, the spreading device 60 for spreading the said shell 4, and the shell 4 of which the shell 4 of the said clam 2 was opened, is cut off, and the shell 4 Separation device 80 for separating the shell (6) from the, and comprises a shell transporting device 100 for adsorption transfer of the shell (6).

The shell fixing device 20, for example, as the shell 2 is transferred through a conveyor or the like to press and fix the shell 2 using an air cylinder from the top.

Although not shown in the drawing, the clam failure device 20 may be configured to suction-fix the clam 2 by arranging a suction device provided with a suction port in an upper part and / or a lower part of the clam 2.

As shown in Figs. 3 and 4, the cutting device 40 forms the opening hole 5 by cutting so that the center portion of the front end of the shell 4 is cut off.

The cutting device 40 includes a pump 42 for pumping liquid at a high pressure, a nozzle 44 for spraying the liquid pumped by the pump 42 at high speed, and a nozzle 44 sprayed through the nozzle 44. And a nozzle moving device 46 for moving the nozzle 44 so that the front end of the shell 4 of the shell 2 is cut off by the liquid.

Water is used as the liquid.

The pump 42 compresses the water to about 2000 to 6000 bar.

The nozzle 44 is formed with a fine hole of about 0.5 ~ 1mm.

When the cutting of the shell 4 using the cutting device 40 as described above, since the cutting precision is high, the processing surface is excellent and it is possible to accurately and neatly cut the desired part.

The opening device 60 opens the shell 4 by inserting the pair of hooks 62 into the shell 4 of the shell 2 through the opening hole 5.

As shown in FIG. 5, the opening device 60 is provided with a pair of hooks 62 formed with symmetrical parts 63 to which the front end of the shell 4 of the shell 2 is formed and symmetrically installed with each other. After moving the pair of hooks 62 to be inserted into the shell 2 through the opening hole 5 in a state where the interval between the locking portions 63 is narrowed, the interval between the locking portions 63 is spaced apart from each other. It comprises a hook moving device 64 for moving the hook 62 to lose.

The separating device 80 is a pair using a pair of separating knives 82 to separate a portion attached to the inner surface of the shell 4 of the clam meat 6 in the state that the shell 4 of the shell 2 is opened Cut between the inner surface of the shell (4) and the shell (6), respectively.

6 and 8, the separation device 80 is made of a material having excellent strength and elasticity, the tip is formed sharply, and a pair of separation knives (83) are formed on both sides ( 82 and a moving device for moving the separating knife 82 forward and leftward and rightward into the shell 4 in a state where the end of the separating knife 82 is in close contact with the inner surface of the shell 4 ( 84).

The cockle feed device 100 adsorptively transports the cockle 6 separated from the shell 4 of the shell 2.

As shown in FIG. 7, the feeder device 100 includes a suction device 102 having a suction port 103 for suction-fixing the cockle 6, and the feeder 6 at the suction port 103. And a plurality of support arms 106 supporting and supporting the cockscrew 6 in a suspended state, and a moving device 106 for moving the suction port 103 in a state where the cockstrap 6 is sucked.

In the above description of the preferred embodiment of the automatic shell shelling system according to the present invention, the present invention is not limited to this, but can be modified in various ways within the scope of the claims and the detailed description of the invention, the accompanying drawings. This also falls within the scope of the present invention.

1 is a perspective view showing an embodiment of an automatic shell shelling system according to the present invention.

Figure 2 is a side view showing a shell fixing device and a cutting device in one embodiment of the automatic shell shelling system according to the present invention.

Figure 3 is a plan view showing a cut shell in an embodiment of the automatic shell shelling system according to the present invention.

Figure 4 is a front view showing a cut shell in one embodiment of the automatic shell shelling system according to the present invention.

Figure 5 is a side view showing a shell open state in one embodiment of the automatic shell shelling system according to the present invention.

Figure 6 is a side view showing a state in which the shell is separated from the shell in one embodiment of the automatic shell shelling system according to the present invention.

Figure 7 is a side view showing a state in which the inhalation of the clam meat from the shell in one embodiment of the automatic shell shelling system according to the present invention.

8 is a perspective view showing a separation knife for separating the clam in one embodiment of the automatic shell shelling system according to the present invention.

Claims

A clam lock that fixes clams,

A cutting device for forming a gaping hole by cutting so that the center of the front end of the shell is cut off;

An opening device for opening the shell by inserting a pair of hooks into the shell of the shell through the opening hole;

A separating device for cutting the inner surface of the clam shell and the attached portion from the shell by using a pair of separating knives while the shell of the clam is opened;

An automatic shell shell shell system comprising a shell transporting device for adsorption of the shells separated from the shell of the shell.

The method according to claim 1,

The cutting device includes a pump for pumping liquid at high pressure, a nozzle for spraying liquid at high pressure by the pump at high speed, and a front end of the shell of the shell by the liquid sprayed through the nozzle. Shell automatic shelling system including a nozzle moving device for moving the nozzle.

The method according to claim 1,

The opening device is a pair of hooks are formed to be caught by the front end of the shell shell and are installed symmetrically to each other, the pair of hooks to be inserted into the shell through the opening hole in the narrowed gap between the hook portion Automatic shell shell shell system including a hook moving device for moving the hook so that the gap between the locking portion after moving.

The method according to claim 1,

The separation device is made of a material having excellent strength and elasticity, and a pair of separation knives, the ends of which are sharply formed and blades are formed on both sides, and the ends of the separation knife are in close contact with the inner surface of the shell. Automatic shell shell system including a moving device for moving the separation knife forward and left and right of the shell in the state.

The method according to claim 1,

The cockle feed device includes a suction device formed with an inlet for adsorbing and fixing the cockle, a plurality of support arms supporting and supporting the cockle in a state in which the cockle is sucked by the inlet and suspended, and the inlet being moved with the cockle adsorbed. Shell automatic shelling system comprising a premature shifter.