KR102460547B1 - Shell pulverizer - Google Patents

Abstract

The present invention relates to a shell crusher, and in particular, by controlling the movement speed of the shell and the coated twisted yarn to prevent kinking or agglomeration of the coated twisted yarn, so that the shell and the coated twisted yarn can be easily crushed and separated and discharged. a housing in which a hopper to be input is provided at one end of the upper side, the pulverized shells are discharged downward, and the coated twisted yarn is discharged at the other end; A cylindrical shape is provided to be laid down inside the housing and rotated, and a screw forming a spiral from one end to the other end is protruded on the outer circumferential surface, and a plurality of ribs protruded to cross the screw in the longitudinal direction are radially centered on the axis of rotation. A rotating drum provided; including, wherein the rotating drum is divided along the longitudinal direction into a first section in which the hopper is located on the upper side and a second section in which the hopper is not located, wherein the screw is separated from one end of the rotating drum A first screw formed to the other end and having a wider pitch than the second section in the first section, and a second screw formed from one end of the rotating drum to at least the first section to be positioned between the pitches of the first screw, The shell and the coated twisted yarn relates to a shell crusher, characterized in that moving faster than the second section in the first section.

Description

Shell pulverizer

The present invention relates to a shell crusher, and more particularly, to a shell crusher capable of effectively crushing shells by controlling the moving speed of shells and coated twisted yarns.

In general, a shell crusher is a device that collects shellfish from shellfish and crushes the remaining shells (hard shells of oysters, clams, cockles, etc.) for recycling.

In the conventional shell crusher, before crushing the crushed object, the worker directly separates and pulverizes the shell and the coated twisted yarn, so the work efficiency is low. Accordingly, in recent years, in order to increase work efficiency, a shell crusher is used that does not separate the shell and the coated twisted yarn, but puts the shell together at once, crushes the shell, and separates the coated twisted yarn.

A recent shell crusher has a housing equipped with a hopper at one end, crushed shells are discharged to the bottom, and a coated twisted yarn is discharged to the other end, a screw forming a spiral forming a constant pitch on the outer circumferential surface, and a rib crossing the screw in the longitudinal direction. It forms a cylindrical shape and includes a rotating drum provided to rotate inside the housing.

When the coating twist and shells are put into such a shell crusher at once, due to a constant pitch, it proceeds at a constant moving speed from the input to the discharge, and a phenomenon of stagnation occurs in the portion where the hopper is continuously input. . That is, the input coated twisted yarn cannot be separated and discharged to the outside, but is moored at the entrance or inside of the shell crusher, and then entangled with the introduced coated twisted yarn, twisting or aggregation occurs, making it more difficult to separate and discharge. There is a problem.

1. Republic of Korea Patent Publication No. 10-2017-0114330 'Shell Crusher'

The present invention is to solve the above problems, and by controlling the movement speed of the shell and the coated twisted yarn to prevent kinking or agglomeration of the coated twisted yarn, thereby providing a shell crusher that can easily crush the shell and separate and discharge the coated twisted yarn has a purpose

The shell crusher according to the present invention for achieving the above object includes: a housing in which a hopper into which shells and coated twisted yarns are put is provided at one end, the crushed shells are discharged downward, and the coated twisted yarns are discharged to the other end; A cylindrical shape is provided to be laid down inside the housing and rotated, and a screw forming a spiral from one end to the other end is protruded on the outer circumferential surface, and a plurality of ribs protruded to cross the screw in the longitudinal direction are radially centered on the axis of rotation. A rotating drum provided; including, wherein the rotating drum is divided along the longitudinal direction into a first section in which a hopper is located on the upper side and a second section in which a hopper is not located, wherein the screw is separated from one end of the rotating drum A first screw formed to the other end and having a wider pitch than the second section in the first section, and a second screw formed from one end of the rotating drum to at least the first section to be positioned between the pitches of the first screw.

In addition, the inclination of the first screw and the second screw with respect to the vertical direction may gradually become gentler toward the other end of the rotating drum in the first section.

In addition, the pitch of the first screw may be gradually reduced as it goes toward the other end of the rotating drum in the first section.

In addition, the second screw includes a 2-1 screw formed to have the same pitch with the first screw positioned on one side from one end of the rotating drum to a point reaching the boundary between the first section and the second section; It may include a 2-2 screw formed along the central point of the pitch of the first screw located on both sides from the point reaching the boundary between the first section and the second section to the vicinity of the beginning of the second section.

In addition, the housing further includes a first cover surrounding the upper part of the rotating drum opened by the hopper, wherein the first cover has an arc shape in a longitudinal section and reaches the uppermost end of the rotating drum from half the height of the rotating drum. It may be formed along the rotational direction of the rotating drum to a point where it does not.

According to the present invention, the shell and coated yarn injected into the housing move faster than the second section in the first section where the hopper is located by the first screw and the second screw, so that the shell is effectively pulverized because it does not stagnate in the vicinity of the hopper, It can prevent kinking or agglomeration of the coated yarn.

Accordingly, the separation efficiency of the coated twisted yarn can be increased, and the load of the motor that provides the driving force to the rotating drum can be reduced.

1 is a perspective view showing the structure of a shell crusher according to the present invention;
2 is a perspective view showing a structure in which a third cover is removed from the shell crusher according to the present invention;
3 is a side cross-sectional view showing the structure of a shell crusher according to the present invention;
4 is an exemplary view showing that the crushing of the shell and the separation of the coated twisted yarn are made by the shell crusher according to the present invention;
5 is a side view showing the structure of a rotary drum applied to the shell crusher according to the present invention;
6 is a plan view showing the structure of the shell crusher according to the present invention;
7 is a cross-sectional view showing the structure of a portion provided with a hopper in the shell crusher according to the present invention;
8 is a cross-sectional view showing the structure of a part without a hopper in the shell crusher according to the present invention;
9 is a perspective view showing the structure of a third cover applied to the shell crusher according to the present invention.

In the present invention, the hopper into which the shells and the coated twisted yarns are put is at one end of the hopper so that the shells and the coated twisted yarns can be easily crushed and separated and discharged by preventing the kinking or aggregation of the coated twisted yarns by controlling the moving speed of the shells and the coated twisted yarns. a housing provided and the pulverized shell is discharged downward and the coated twisted yarn is discharged to the other end; A cylindrical shape is provided to be laid down inside the housing and rotated, and a screw forming a spiral from one end to the other end is protruded on the outer circumferential surface, and a plurality of ribs protruded to cross the screw in the longitudinal direction are radially centered on the axis of rotation. A rotating drum provided; including, wherein the rotating drum is divided along the longitudinal direction into a first section in which the hopper is located on the upper side and a second section in which the hopper is not located, wherein the screw is separated from one end of the rotating drum A first screw formed to the other end and having a wider pitch than the second section in the first section, and a second screw formed from one end of the rotating drum to at least the first section to be positioned between the pitches of the first screw, The shell and the coated twisted yarn proposes a shell crusher characterized in that it moves faster than the second section in the first section.

The scope of the present invention is not limited to the embodiments described below, and various modifications may be made by those of ordinary skill in the art without departing from the technical gist of the present invention.

Hereinafter, the shell crusher according to the present invention will be described in detail with reference to FIGS. 1 to 9 attached thereto.

The shell crusher according to the present invention basically includes a housing 100 and a rotating drum 200 as shown in FIGS. 1 to 3 .

The housing 100 has a cylindrical shape with an empty space therein, and a floor support is formed on the lower side to be supported on the ground. A hopper 110 into which a shell and a coated twisted yarn are put is provided on the upper side of one end of the housing 100, and the hopper 110 is formed to protrude upward of the housing 100 while forming a cylindrical shape with open top and bottom, and the housing It is provided to communicate with the interior of (100).

In addition, the housing 100, as shown in Figure 4, the pulverized shell is discharged downward, and the coated twisted yarn is discharged to the other end. The shells introduced through the hopper 110 are pulverized by the rotary drum 200 to be described later and fall downward. The present invention provides a rotary drum ( It may further include a punching network 300 formed in a shape surrounding the lower portion of the 200). The punching net 300 is made in the form of a plate having a curved surface, for example, and a plurality of discharge holes are formed through it, and the shells crushed through the discharge holes are discharged to the lower side of the housing 100 and are not completely crushed and pass through the discharge holes. The failed shells are continuously crushed by the rotating drum 200 . And the other end of the housing 100 may be provided with an outlet 120 through which the coated twisted yarn separated from the shell is discharged.

The rotating drum 200 has a cylindrical shape as shown in FIGS. 2 to 5 and is provided to rotate while lying inside the housing 100 . That is, the rotating drum 200 is provided with a rotating shaft 230 penetrating the center along the longitudinal direction, and both ends of the rotating shaft 230 are coupled to one end and the other end of the housing 100 . Although not shown in the drawings, the rotating shaft 230 penetrating through the housing 100 may be configured to receive a driving force from a motor.

The rotating drum 200 has a screw 210 spirally formed from one end to the other end protruding from the outer circumferential surface, and the screw 210 feeds the shell and coated yarn input through the hopper 110 from one end of the housing 100 to the other end. It serves to move towards In addition, the rotary drum 200 is provided with a plurality of ribs 220 protruding so as to cross the screw 210 in the longitudinal direction radially about the rotation shaft 230 . The plurality of ribs 220 serves to crush the shell moved by the screw 210 . At this time, the rib 220 may be provided to have a predetermined angle with the tangential direction of the rotary drum 200 in order to increase the grinding efficiency.

The rotating drum 200 is divided along the longitudinal direction into a first section 200a in which the hopper 110 is located on the upper side and a second section 200b in which the hopper is not located, as shown in FIG. The screws 210 in the first section 200a and the second section 200b are formed differently. Specifically, the screw 210 is a first screw 211 formed from one end (the end of the portion where the hopper 110 is located on the upper side) of the rotating drum 200 to the other end (the end adjacent to the outlet 120). and a second screw 212 formed from one end of the rotating drum 200 to at least the first section 200a.

At this time, the first screw 211 is formed to have a wider pitch than that of the second section 200b in the first section 200a, and the second screw 212 is positioned between the pitches of the first screws 211 . is formed That is, the starting point at which the second screw 212 is formed is approximately 180° from the starting point at which the first screw 211 is formed, and in the first section 200a of the rotating drum 200, the first screw ( While both the 211 and the second screw 212 are formed, in the second section 200b of the rotary drum 200, only the first screw 211 is formed, and the first screw 211 and the second screw ( 212) may be present.

The first screw 211 having a wider pitch than the second section 200b in the first section 200a and the pitch formed by the first screw 211 while positioned between the first screw 211 having a wide pitch and Due to the second screw 212 that can be formed to achieve a corresponding pitch, the shell and coated twists injected into the housing 100 through the hopper 110 are rotated in the first section 200a when the rotating drum 200 is rotated. Since it moves more distance than the second section 200b, it moves quickly in the vicinity of the hopper 110.

Therefore, in the vicinity of the hopper 110, the shells and the coated twists do not stagnate, so that the shells are effectively crushed as well as the kinking or aggregation of the coated twisted yarns can be prevented, so that the separation efficiency of the coated twisted yarns can be increased, and the rotary drum 200 It is also possible to reduce the load on the motor that provides driving power to the motor.

Looking at the screw 210 in the present invention in more detail, as shown in FIG. 5 , the first screw 211 and the second screw 212 are the rotating drum 200 in the first section 200a. It may be formed such that the slope formed with respect to the vertical becomes gradually gentler toward the other end. For this reason, it is possible to easily adjust the pitch of the first screw 211 and the pitch of the second screw 212 in the first section 200a.

In addition, the first screw 211 may be formed such that the pitch of the first screw 211 gradually decreases as it goes toward the other end of the rotating drum 200 in the first section 200a. This can prevent a sudden difference between the moving speed in the first section 200a and the moving speed in the second section 200b. At this time, the second screw 212 is formed from one end of the rotary drum 200 to a point reaching the boundary between the first section 200a and the second section 200b as shown in FIG. It may include a screw 212a and a 2-2 screw 212b formed from a point reaching the boundary between the first section 200a and the second section 200b to near the beginning of the second section 200b. .

The 2-1 screw 212a may be formed to have the same pitch as the first screw 211 positioned on one side. As an example, in FIG. 5A , the pitch between the 2-1 th screw 212a formed on the leftmost side and the first screw 211 formed on the left side thereof, the 2-1 th screw 212a formed on the leftmost side and the first screw 212a formed on the right side thereof in FIG. 5A . The pitch between the first screws 211 and the pitch between the 2-1 screw 212a formed on the second left side and the first screw 211 formed on the left side thereof may be identically formed, and the pitch formed in this case is the second section ( 200b) may be the same as the pitch of the first screw 211 .

In addition, when it is difficult to form a pitch having the same distance as the pitch between the 2-1 screw 212a and the first screw 211 adjacent thereto, the pitch between the first screws 211 is difficult for the 2-2 screw 212b. is relatively large compared to other pitches, so it is formed to compensate for this. For this purpose, the 2-2 screw 212b is formed along the pitch center point of the first screw 211 positioned on both sides as shown in FIG. 5, and the first section 200a and the second section 200b It is possible to prevent the feed rate from increasing near the boundary of

Meanwhile, the housing 100 may further include a first cover 130 surrounding a portion of the upper side of the rotary drum 200 opened by the hopper 100 as shown in FIGS. 6 and 7 . The first cover 130 is, for example, composed of a plate whose longitudinal cross-section is a curved surface forming an arc shape, from a point half the height of the rotating drum 200 to a point not reaching the uppermost end of the rotating drum 200 of the rotating drum 200 . It may be formed along the rotational direction. That is, both ends of the first cover 130 are formed to form an acute angle with respect to the rotation shaft 230 , for example, may be formed to form 60°. This first cover 130 serves to facilitate the movement of the coated twist yarn moved to the lower side of the rotating drum 200 by the rotation of the rotating drum 200 to the upper side of the rotating drum 200 without staying there. do.

In addition, as shown in FIGS. 6 and 8 , the housing 100 may further include a second cover 140 surrounding a portion of the upper side of the rotary drum 200 even in a portion where the hopper 100 is not formed. The second cover 140 has the same shape as the first cover 130 , that is, along the rotational direction of the rotating drum 200 from a point half the height of the rotating drum 200 to a point that does not reach the uppermost end of the rotating drum 200 . It is formed, so that even in a portion where the hopper 100 is not formed, the coated twisted yarn moved to the lower side of the rotary drum 200 does not stay there and can be easily moved to the upper side of the rotary drum 200 .

In addition, the housing 100 surrounds the upper side of the rotating drum 200 that is not covered by the second cover 140 in the portion where the hopper 100 is not formed, as shown in FIGS. 1, 8 and 9 . A third cover 150 may be further included. The third cover 150 is formed in the form of a curved plate and may be detachably coupled. Accordingly, the user can check the state of the rotating drum 200 or remove the third cover 150 during maintenance.

In the above-described first cover 130 , second cover 140 , and third cover 150 , a portion surrounding the rotary drum 200 is formed in a bar shape as shown in FIG. 9 to form a rotary drum. A movement inducing protrusion 160 disposed along the longitudinal direction of 200 may be formed. A plurality of movement guide protrusions 160 may be formed at predetermined intervals along the curvatures of the first cover 130 , the second cover 140 , and the third cover 150 . Accordingly, the coated twisted yarn is in contact with the movement guide protrusion 160 and the rib 220 of the rotary drum 200 and smoothly moves toward the other end of the housing 100 .

100: housing 110: hopper
120: outlet 130: first cover
140: second cover 150: third cover
160: movement guide projection
200: rotary drum 200a: first section
200b: second section 210: screw
211: first screw 212: second screw
212a: 2-1 screw 212b: 2-2 screw
220: rib 230: rotation shaft
300: punching net

Claims (5)

a housing 100 having a hopper 110 in which shells and coated twisted yarns are put in, one end is provided on the upper side, the pulverized shells are discharged downward, and the coated twisted yarn is discharged to the other end;
A screw 210 that forms a cylindrical shape and is laid down inside the housing 100 to rotate, a screw 210 forming a spiral from one end to the other end is protruded on the outer circumferential surface, and protrudes to cross the screw 210 in the longitudinal direction. A rotary drum 200 having a plurality of ribs 220 provided radially around the rotary shaft 230;
The rotary drum 200 is divided along the longitudinal direction into a first section 200a in which the hopper 110 is located on the upper side and a second section 200b in which the hopper 110 is not located,
The screw 210 includes a first screw 211 formed from one end to the other end of the rotating drum 200 and having a wider pitch than that of the second section 200b in the first section 200a, and the first screw ( Including a second screw 212 formed from one end of the rotating drum 200 to at least the first section 200a to be positioned between the pitches of the 211),
The shell and the coated twisted yarn are moved faster than the second section (200b) in the first section (200a),
The housing 100 further includes a first cover 130 surrounding the upper part of the rotating drum 200 opened by the hopper 110,
The first cover 130 has an arc shape in its longitudinal section and is formed along the rotational direction of the rotating drum 200 from half the height of the rotating drum 200 to a point that does not reach the uppermost end of the rotating drum 200, Shell crusher, characterized in that the plurality of movement guide projections 160 arranged along the longitudinal direction of the rotating drum 200 while forming a bar shape are spaced apart from each other by a predetermined interval along the curvature. The method of claim 1,
The first screw (211) and the second screw (212), in the first section (200a) toward the other end of the rotating drum (200), a shell crusher, characterized in that the inclination formed with respect to the vertical gradually becomes gentle. The method of claim 1,
The first screw 211, a shell crusher, characterized in that the pitch gradually decreases toward the other end of the rotating drum 200 in the first section (200a). 4. The method of claim 3,
The second screw 212 has a pitch formed with the first screw 211 located on one side from one end of the rotating drum 200 to a point reaching the boundary between the first section 200a and the second section 200b. A 2-1 screw (212a) formed to be the same, and
A second formed along the central point of the pitch of the first screw 211 positioned on both sides from the point reaching the boundary between the first section 200a and the second section 200b to the vicinity of the beginning of the second section 200b. - Shell crusher comprising a screw (212b). delete

Images