KR102126156B1 - Shell foreign material removal device - Google Patents

Abstract

The present invention relates to a waste shell foreign matter removal device. More particularly, the present invention relates to a waste shell foreign matter removal device having a sturdy structure to minimize damage or failure during use. The waste shell foreign matter removal device comprises: a handle for supplying high pressure air; an operation means coupled to the handle and operated by the air supplied to the inside; and a drive means driven by the operation means.

Description

Shell foreign material removal device{.}

The present invention relates to an apparatus for removing foreign substances from shells, and more particularly, to an apparatus for removing foreign substances from shells having a sturdy structure to minimize damage or failure during use.

Shells of shellfish such as abalone or shellfish collected from the sea are symbiotic with several species such as aquatic plants and barnacles, but the adherent crustaceans attached to the shell are only impurities impairing the marketability of cultured abalone. As it is recognized as, it is necessary to remove crustaceans such as barnacles for commercialization of cultured shellfish.

In the past, foreign substances attached to shells of shellfish such as farmed abalone or shellfish were removed by scratching or pulling them with scissors or a knife.However, when removing foreign substances by this method, many shellfish are hand-held to remove foreign substances. Because of this, there was a problem in that, of course, it took a lot of work time as well as manpower, and injured hands during the work due to the use of scissors or a knife.

In order to solve this problem, as a technique for removing foreign matter from shellfish driven by using electric power, a device for removing foreign matter overturned shellfish in Korean Registered No. 10-1160046 is disclosed.

In the above technique, when the air pressure is input through the valve body, while the piston reciprocates in the cylinder, the blade for removing the shell foreign material is vibrated to remove the dust adhered to the shell of the shell. However, when the piston reciprocates, the piston collides with the lower end of the valve body, causing wear of the valve body, and thus the length of the reciprocating section of the piston fluctuates.

Republic of Korea Registration No. 10-1160046

In view of the above-mentioned problems, desired points, and the like, the present invention has an object to provide an apparatus for removing shell foreign substances for securing the speed of operation or the operational stability of a device to remove foreign substances attached to various shellfish.

The present invention for achieving the above object is characterized in that it comprises a handle for supplying high pressure air, a handle coupled to the handle, and an operating means operated by the air supplied therein and a driving means driven by the operating means. do.

In addition, the driving means applied to the present invention is characterized in that it comprises a cutter.

In addition, the cutter applied to the present invention is characterized in that the operating space is integrally formed.

Other objects and effects of the present invention will become apparent from the following detailed description, and the detailed description and examples showing preferred embodiments of the present invention are not intended to limit the scope of the present invention.

According to the invention according to the present invention, it has a simple structure, and due to the reliability of the operation due to this, the occurrence of a malfunction during operation is small, leading to the efficiency of the operation.

1 is a view showing a shell foreign matter removal device according to the present invention assembled.
Figure 2 is an exploded view of Figure 1;
Figure 3 is a view showing the operating state of the operating means applied to the present invention.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. First, the same reference numerals are used for functionally identical or similar parts throughout the drawings.

1 is a view showing a shell foreign matter removal device according to the present invention is assembled, Figure 2 is a view showing an exploded view of Figure 1, Figure 3 is a view showing the operating state of the driving means through the operating means applied to the present invention .

1 to 3, the shell foreign material removal apparatus applied to the present invention includes a handle (H) for supplying high pressure air, and a body (B) coupled with the handle (H).

The main body (B) comprises an operating means (S) operated by air supplied into the interior through a handle (H) and a driving means (C) driven by the operating means (S).

The handle (H) is to control the compressed air through the lever (10), which is applied to a known technique that is commonly applied, is fastened to one side of the body (B).

The operation means (S) applied to the present invention consists of a structure operated by compressed air supplied through the handle (H), and is installed inside the body (B).

Specifically, the operation means (S) is a cylinder 20 and the piston 30 that is advanced or retracted by the compressed air supplied from the inside of the cylinder 20, and prevents departure when the piston 30 is advanced, and the piston ( It consists of a liner 40 that can adjust the operating distance of 30).

The cylinder 20 has a plurality of air passage grooves 22 for guiding compressed air, and an air hole 24 is formed at one side of the air passage groove 22, and the inside has a hollow shape. As the inner wall 26 is formed, the thread 28 is integrally formed on the outside, and a fastening groove 29 for fastening the thread 28 is formed on the upper part of the cylinder 20.

The screw thread 28 is a structure that is fastened to the body B, and is rotated using a screwdriver, a wrench, etc. through the fastening groove 29 to be coupled to the body B.

The air passage groove 22 serves to guide compressed air flowing through the handle H to be introduced into the air hole 24.

At this time, the outer wall of the cylinder 20 is a structure in close contact with the inner surface of the body (B), it is possible to prevent the compressed air from leaking through the outer wall of the cylinder 20, the compressed air through the air hole 24 cylinder (20) It flows in without great loss.

Compressed air introduced into the cylinder 20 through the air hole 24 collects in the chamber 26a formed in the inner wall 26 of the cylinder 20 and then applies pressure to the piston 30 to advance the piston 30. .

The compressed air collected in the chamber 26a operates the piston 30. At this time, the working hole 32 for guiding the compressed air to flow into the piston 30 penetrates the side of the rod 36 of the piston 30. It is done.

Again, the piston 30 is composed of a piston head 34 and a rod 36, the piston head 34 is formed larger than the rod 36, the outer diameter of the rod 36 is the inner wall of the cylinder 20 ( 26).

When the operating hole 32 formed in the rod 36 is located in the pre-operational state inside the cylinder 20, its center point is lower than that of the air hole 24.

The reason is to allow the compressed air introduced through the air hole 24 to easily flow into the working hole 32 located lower than the air hole 24. Due to the low position, the compressed air lowers the piston 30 or To advance.

The liner 40 has the same outer diameter as the cylinder 20, and the inner diameter has a smaller diameter than the cylinder head 34 so that the bottom end of the cylinder head 34 is caught.

The operating distance of the rod 36 can be determined by the liner 40, and when it is difficult to replace the liner 40, the final depth of the rod 36 is adjusted by adjusting the fastening depth through the thread 28 of the cylinder 30. You can also adjust the working distance.

The present invention removes foreign substances attached to the shell by operating the driving means (C) in the forward or downward direction of the rod (36).

The driving means (C) applied to the present invention for this purpose is a handle cover 50 that is fastened to the body B, a cutter holder 52 that is inserted into the handle cover 50 and fastened inside the body B. , It is composed of a cutter 54 is inserted into the cutter holder 52 is fixed.

The handle cover 50 is formed to be penetrated inside to serve to connect and fix the main body B and the cutter holder 52 and the cutter 54 inserted in the cutter holder 52, but the locking jaw ( 50a) is formed, and one side is fastened to the main body (B) around the locking jaw (50a).

The cutter holder 52 is inserted to the other side, but its insertion is restricted by the locking jaw 50a.

In addition, a screw thread is formed on the outer circumferential surface of the cutter holder 52, and the screw thread is inserted into and fastened to the main body B, and a locking end 52a that is caught by the locking jaw 50a is formed at the rear.

The locking end 52a also has a structure in which the cutter holder 52 is inserted into the handle cover 50 when inserted into the handle cover 50.

Again, an air discharge groove 52b is formed on the outer circumferential surface of the cutter holder 52.

The compressed air passes through the working hole 32 of the air hole 24, chamber 26a, and rod 36 to operate the rod 36, and the working hole 32 is lower than the liner 40. When positioned, a portion of the compressed air is discharged from the cylinder 30 to the air discharge groove 52b.

Compressed air that is not discharged is compressed on the bottom surface of the rod 36 to return the rod 36, and the flow is repeated again to operate the rod 36.

The rod 36 that is actuated or pushed downward will hit the cutter 54. After the blow, the cutter 54 is in a state in which pressure is applied to the shell by a manpower to remove foreign substances, and thus the cutter 54 is pushed upward and rises, and according to the downward, rising and maneuvering pressure of the rod 36, the cutter ( 54) removes foreign substances by repeatedly descending and ascending.

To this end, the cutter 54 must be operatively fixed after passing through the cutter holder 52.

The cutter holder 52 has a guide hole 52c through which the cutter 54 is inserted and operated, and the guide hole 52c is perpendicular to the fixed hole 52d formed on the outer circumferential surface of the cutter holder 52. It is pierced to cross.

The ball 56 is inserted into the fixing hole 52d, and a part of the ball 56 protrudes from the guide hole 52c, and the protruding portion is located in the working space 54a formed in the cutter 54 do.

The working space 54a is grooved with a predetermined length, and the ball 56 is limited in operation by the boundary jaw 54b and the ball 56 of the working space 54a when the cutter 54 moves forward or backward. .

On the other hand, the length of the operating space (54a) is proportional to the operating distance of the cutter 54, the ball 56 is prevented from being separated by the inner surface of the handle cover (50).

The present invention can be implemented in various other forms without departing from the spirit or main characteristics. Therefore, the above-mentioned embodiment is only a mere illustration in all respects, and it should not be interpreted limitedly. The scope of the present invention is indicated by the scope of the claims, and is not restricted by the specification text. Again, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.

H: Handle B: Main body
S: Operating means C: Driving means
10: lever 20: cylinder
30: piston 40: liner

Claims (3)

In the shell foreign matter removal device comprising a handle for supplying high pressure air, a handle coupled to the handle, and an operating means operated by the air supplied therein and a driving means driven by the operating means,
The operating means includes a cylinder and a piston that advances or retreats by compressed air supplied from the inside of the cylinder, and a liner that prevents departure when the piston advances and adjusts the operating distance of the piston, wherein the cylinder is compressed air A plurality of air flow grooves are formed on the side surface for guiding the air flow grooves, and an air hole is formed on one side of the air flow groove, and an inner wall is formed in a hollow shape, and a thread is integrally formed on the outside. , A fastening groove for fastening the thread is formed on the upper part of the cylinder,
The driving means comprises a handle cover that is fastened to the main body, a handle holder that is inserted into the handle cover, a cutter holder that is fastened inside the body, and a cutter that is fixed by being inserted into the cutter holder, and an operating space is integrally formed.
The handle cover is formed to be penetrated inside so as to serve to connect and fix the body and the cutter holder and the cutter inserted in the cutter holder, but a locking jaw is formed inside, and one side is fastened to the body with a boundary of the locking jaw. Shell foreign matter removal device, characterized in that. delete delete

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