KR102355984B1 - Stone separator - Google Patents

Abstract

The present invention relates to a stone separator capable of sorting stones and foreign substances mixed in raw materials, and the stone separator includes: a stone plate on which raw materials including grains and foreign substances are supplied and loaded from a storage tank, which is disposed obliquely so that a height thereof gradually decreases from a front to a rear, and which has a foreign substance discharge port at a front side thereof; a hopper which is disposed below the stone plate; a vibration generation unit which applies vibration to the hopper so that the stone plate vibrates; a wind generator which is rotatably installed in the hopper and generates wind by the rotation; and a fall prevention cover which surrounds a circumference of the stone plate and protrudes upward to prevent grain from escaping to an outside of the stone plate.

Description

Stone SEPARATOR {STONE SEPARATOR}

The present invention relates to a stone mill, and more particularly, to a stone mill capable of sorting stones and foreign substances mixed in raw materials.

In general, the rice harvested from the production area is browned while going through a rice milling period, then polished through a rice milling period, and then stones and foreign substances are extracted from the rice and shipped to the market while going through a stone milling period again.

If foreign substances such as stones are mixed in the raw materials, the grains are selected from the raw materials by removing the foreign substances such as stones through a stone mill.

The background technology of the present invention is disclosed in Korean Patent Application Laid-Open No. 10-2000-0001810 (Title of the Invention: Stone Selector).

An object of the present invention is to provide a stone grinder capable of sorting stones and foreign substances mixed in raw materials.

The stone crusher according to the present invention includes: a stone plate in which raw materials including grains and foreign substances are supplied from the storage tank and loaded, and the height is gradually lowered from the front to the rear, the stone plate is inclined so that the height is gradually lowered, and the foreign material outlet is provided on the front side; a hopper disposed under the stone plate; a vibration generator for applying vibration to the hopper so that the stone plate is oscillated; a wind generator that is rotatably installed in the hopper and generates wind by rotation; and a fall prevention cover that surrounds the perimeter of the quarry plate to prevent the grain from escaping to the outside of the quarry plate, and is formed to protrude upward.

In the present invention, the protrusion height of the fall prevention cover is characterized in that the front end is higher than the rear end.

In the present invention, the protrusion height of the fall prevention cover is 5 to 10 cm.

In the present invention, the fall prevention cover includes: a first cover disposed on the top of the stone stone plate; and a second cover disposed on the opposite side of the first cover from the upper portion of the stone plate, wherein the front end of the first cover and the front end of the second cover contact each other.

In the present invention, an angle between the inner wall of the first cover and the inner wall of the second cover is an acute angle.

In the present invention, the foreign material outlet is disposed at a portion where the first cover and the second cover contact each other.

In the present invention, the fall prevention cover is characterized in that the inner wall is formed in a flat shape.

The first cover and the second cover in the present invention is characterized in that it is detachably mounted to the stone plate.

In the present invention, foreign substances having a higher specific gravity than grain are discharged through the foreign material outlet while being pushed forward by the wind, and the grain is discharged through the grain outlet 112 while moving backward by the fluctuation of the grating plate. characterized by being

According to the present invention, it is possible to select stones and foreign substances mixed in the raw material.

1 is a view schematically showing a stone mill according to an embodiment of the present invention.
2 is a side view showing a stone grinder according to an embodiment of the present invention.
3 is a perspective view of the stone stone plate of the stone stone machine according to an embodiment of the present invention as viewed from the side.
4 is a perspective view of the stone stone plate of the stone grinder according to an embodiment of the present invention as viewed from above.
5 is a perspective view of the stone stone plate of the stone grinder according to an embodiment of the present invention, as viewed from the front.
6 is a view showing the opening and closing plate of the stone grinder according to an embodiment of the present invention.
7 is an operation state diagram showing an open state of the opening and closing plate in the stone grinder according to an embodiment of the present invention.
8 is an operation state diagram showing a closed state of the opening and closing plate in the stone grinder according to an embodiment of the present invention.
9 is a view showing a windmill of a stone grinder according to an embodiment of the present invention.
10 is a perspective view of a stone stone plate of a stone grinder according to another embodiment of the present invention as viewed from the front.
11 is a view showing an opening and closing plate of a stone grinder according to another embodiment of the present invention.
12 is an operation state diagram showing an open state of the opening and closing plate according to another embodiment of the present invention.
13 is an operation state diagram showing a closed state of the opening and closing plate in the stone grinder according to another embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving the same, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, the terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention.

In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and/or "comprising" does not exclude the presence or addition of elements other than those mentioned.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs.

Hereinafter, an embodiment of the wind separator according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

1 is a view schematically showing a stone grinder according to an embodiment of the present invention, FIG. 2 is a side view showing a stone grinding machine according to an embodiment of the present invention, and FIG. 3 is a stone grinder according to an embodiment of the present invention A perspective view of the stone stone plate of the erection from the side, FIG. 4 is a perspective view of the stone stone plate of the stone mill according to an embodiment of the present invention, as viewed from above, and FIG. is a perspective view viewed from the front, FIG. 6 is a view showing the opening and closing plate of the stone grinder according to an embodiment of the present invention, and FIG. 7 is an operation showing the open state of the opening and closing plate in the stone grinder according to an embodiment of the present invention It is a state diagram, and FIG. 8 is an operation state diagram showing a closed state of the opening and closing plate in the stone grinder according to an embodiment of the present invention, and FIG. 9 is a view showing the windmill of the stone grinder according to an embodiment of the present invention. 10 is a perspective view of the stone stone plate of the stone grinder according to another embodiment of the present invention, as viewed from the front, FIG. An operational state diagram showing an open state of the opening and closing plate according to another embodiment, and FIG. 13 is an operational state diagram showing the closed state of the opening and closing plate in the stone grinder according to another embodiment of the present invention.

1 to 9 , a stone crusher according to an embodiment of the present invention includes a stone stone plate 110 , a hopper 120 , a vibration generator 130 , and a wind generator 140 .

A storage tank 90 is disposed on the upper portion of the stone plate 110 . The storage tank 90 stores raw materials including grains and foreign substances, and supplies the raw materials on the stone plate 110 through an inlet (not shown).

In this embodiment, the storage tank 90 is composed of two storage tanks (90A, 90B), but is not limited thereto, and thus may be composed of one storage tank or three or more storage tanks.

The storage tank 90 is provided with a discharge port 91 at the bottom. The raw material stored in the storage tank 90 through the outlet 91 is discharged to the stone plate 110 side. The outlet 91 can be selectively opened and closed by a discharge door (not shown). The opening and closing of the exhaust door may be manually operated by a user or may be automatically operated by a separately configured power unit.

The stone plate 110 is loaded with the raw material supplied from the storage tank (90). When viewed from the side of the stone plate 110, the front portion is disposed higher than the rear portion.

The stone plate 110 is inclined so that the height is gradually lowered from the front to the rear.

The stone stone plate 110 is fixed to the frame F of the stone stone machine by a plurality of cradles (H). Since the stone plate 110 is oscillated in the vertical direction by the vibration of the hopper 120, the cradle (H) is elastically deformable to stably support the stone plate 110 even when the stone plate 110 is vertically oscillated. It may be formed of a material or shape that can be adjusted in length.

The limestone plate 110 is formed of a perforated plate provided with a plurality of through-hole portions 110a of a predetermined size. Accordingly, foreign substances smaller than the size of the through hole portion 110a among the raw materials supplied on the limestone plate 110 may be discharged to the outside through the through hole portion 110a.

The hopper 120 is disposed under the stone plate 110 and is formed in a container shape. Accordingly, foreign substances falling through the through hole 110a may be stored in the hopper 120 .

The vibration generating unit 130 is disposed in contact with the hopper 120 . Therefore, when vibration is generated in the hopper 120 by the driving of the vibration generating unit 130, the stone plate 110 that is directly coupled to the hopper 120 on the hopper 120 is oscillated in the vertical direction.

The vibration generating unit 130 includes a cam 131 and a cam power unit 136 .

The cam 131 is formed to have an eccentric rotational center. The cam 131 may be formed as a flat cam, and changes a rotational motion into a reciprocating motion. The cam 131 is disposed in contact with the lower surface of the hopper 120 .

The cam power unit 136 provides a rotational force to the rotation shaft 132 of the cam 131 . When the cam 131 is rotated through the cam power unit 136 , the hopper 120 in direct contact with the cam 131 reciprocates in the vertical direction according to the rotation of the cam 131 .

Accordingly, vibration is generated in the hopper 120 by the rotation of the cam 131 , and vibration is also generated in the stone plate 110 in contact with the hopper 120 .

The wind generating unit 140 includes a windmill 141 and a windmill driving unit 142 .

The windmill 141 is rotatably installed inside the hopper 120 and generates wind by rotation. The hopper 120 is formed in a hollow shape so that the windmill 141 is disposed therein. The windmill 141 rotates counterclockwise with reference to FIG. 2 to flow the wind from the rear of the stone plate 110 to the front.

The wind generated in the hopper 120 by the rotation of the windmill 141 is discharged to the upper side of the crushing plate 110 through the through hole portion 110a of the crushing plate 110 disposed on the hopper 120 .

The windmill 141 is rotatably installed inside the hopper 120 . As the windmill 141 rotates inside the hopper 120, wind is generated. Depending on the rotation speed of the windmill 141, the amount of wind and the blowing speed may be adjusted.

Referring to FIG. 9 , the windmill 141 includes a shaft coupling part 10 , a rotary blade part 20 , and a connection guide part 30 .

The shaft coupling part 10 is coupled to a rotation shaft (not shown) disposed inside the hopper 120 .

Two shaft coupling portions 10 are disposed to be spaced apart from each other. The shaft coupling part 10 is disposed at the rotation center of the rotation shaft, and has a coupling hole part 11 so that the rotation shaft is inserted and coupled. The rotating shaft may be coupled to the shaft coupling part 10 while passing through the coupling hole part 11 .

The rotor blade 20 includes an attachment portion 21 and a blade plate 22 .

On the outer surface of the shaft coupling portion 10, a plurality of attachment portions 21 are disposed to protrude outward in a radial direction. In this embodiment, six attachment parts 21 are exemplified, but the present invention is not limited thereto, and thus may be provided with 5 or less, or 7 or more.

The plurality of attachment parts 21 are arranged such that adjacent attachment parts 21 have the same rotational distance from each other. Accordingly, the attachment part 21 is disposed so as to be rotationally symmetrical on the shaft coupling part 10 .

The same number of attachment parts 21 are disposed on the shaft coupling part 10 on one side and the shaft coupling part 10 on the other side, and the spacing is the same.

Each attachment part 21 coupled to the shaft coupling part 10 of one side is disposed on the same virtual plane as each attachment part 21 coupled to the shaft coupling part 10 of the other side.

In the present embodiment, the first attachment part 21a among the attachment parts 21 on one side and the first attachment part 21c among the attachment parts 21 on the other side are disposed on the same virtual plane. Similarly, the second attachment part 21b among the attachment parts 21 on one side and the second attachment part 21d among the attachment parts 21 on the other side are disposed on the same virtual plane.

One wing plate 22 is installed on the two attachment parts 21 arranged on the same virtual plane.

In this embodiment, one wing plate 22a is commonly attached to the first attachment part 21a among the attachment parts 21 on one side and the first attachment part 21c among the attachment parts 21 on the other side. Similarly, the other wing plate 22b is commonly attached to the second attachment part 21b among the attachment parts 21 on one side and the second attachment part 21d among the attachment parts 21 on the other side, and the other wing plate (22) is also commonly attached one by one to the two attachment portions 21 spaced apart from each other.

The wing plate 22 is formed in a plate shape and is connected to the outer end of the attachment part 21 .

The wing plate 22 is provided with a plurality, is connected to the outer end of the attachment portion 21, and protrudes radially outward. The plurality of blade plates 22 are arranged such that the adjacent blade plates 22 have the same rotational interval from each other.

Accordingly, the first attachment part 21a among the attachment parts 21 on one side, the first attachment part 21c among the attachment parts 21 on the other side, and the first attachment part 21a and the first attachment part 21c The wing plate 22a commonly attached to the is disposed on the same virtual plane. The remaining wing portions 22 are also disposed on the same virtual plane as the respective attachment portions 21 supporting each wing portion 22 .

The connection guide part 30 connects the plurality of rotary blade parts 20 to each other. The connecting guide unit 30 includes an inner connecting guide 31 and an outer connecting guide 32 .

The inner connection guide 31 connects the inner ends of the plurality of wing plates 22 to each other. The plurality of attachment parts 21 are disposed to be spaced apart from each other, and the wing parts 22 coupled to the attachment part 21 are also disposed to be spaced apart from each other. Accordingly, the inner ends of the plurality of wing portions 22 are disposed to be spaced apart from each other.

The inner connection guide 31 is formed in a circular ring shape, and connects the inner ends of each of the wing portions 22 spaced apart from each other. As a result, each of the wing portions 22 separated from each other is integrated by the inner connection guide 31 .

Accordingly, even when the windmill 141 rotates at a high speed, it is possible to reduce vibration and noise generation due to the distortion of the blade plate 22 , and improve the mechanical stability of the device. In addition, it is possible to stably generate and supply wind even with a small rotational power.

The center of each of the wing portions 22 spaced apart from the center of the inner connection guide 31 is the same. Therefore, the inner connection guide 31 is coupled to the wing portion 22 at the same point of each wing portion (22).

The inner connection guide 31 is attached to each wing plate 22 by laser processing.

The outer connecting guide 32 connects the outer ends of the plurality of wing plates 22 to each other. The plurality of attachment parts 21 are disposed to be spaced apart from each other, and the wing parts 22 coupled to the attachment part 21 are also disposed to be spaced apart from each other. Accordingly, the outer ends of the plurality of wing portions 22 are disposed to be spaced apart from each other.

The outer connection guide 32 is formed in a circular ring shape, and connects the outer ends of each of the wing portions 22 spaced apart from each other. Accordingly, each of the wing portions 22 separated from each other is integrated by the outer connecting guide 32 .

Accordingly, even when the windmill 141 rotates at a high speed, it is possible to reduce vibration and noise caused by the distortion of the blade plate 22 , and to improve the mechanical stability of the device. In addition, it is possible to stably generate and supply wind even with a small rotational power.

The center of each of the wing portions 22 disposed to be spaced apart from the center of the outer connection guide 32 is the same. Therefore, the outer connection guide 32 is coupled to the wing portion 22 at the same point of each wing portion (22).

The outer connection guide 32 is attached to each wing plate 22 by laser processing.

The windmill driving unit 142 provides rotational power to the windmill 141 . The windmill driving unit 142 may be directly connected to the rotation shaft of the windmill 141 to directly provide rotational force to the windmill 141 . Also, the windmill driving unit 142 may indirectly provide rotational force to the windmill 141 through the transmission belt.

A foreign material outlet 111 through which foreign substances in the raw material is discharged is provided on the front side of the precipitation plate 110 .

The wind generated by the wind generator 140 is discharged toward the stone plate 110 through the through hole 110a. Since the wind generator 140 is disposed on the rear side of the stone plate 110 , the wind flowing in from the wind generator 140 flows from the rear of the stone plate 110 to the front.

Raw materials including grains and foreign substances are loaded on the stone plate 110 . The stone plate 110 is oscillated in the vertical direction by the operation of the vibration generating unit 130 , and the wind flows from the rear to the front by the operation of the wind generating unit 140 .

Accordingly, foreign substances having a larger specific gravity than grains among the raw materials loaded on the quarrying plate 110, for example, foreign substances such as stones, do not bounce high above the quarrying plate 110 even by the shaking of the quarrying plate 110. .

At this time, since the wind from the rear to the front moves while being spread low on the upper surface of the stone plate 110, foreign substances such as stones that do not move in the vertical direction on the stone plate 110 are placed on the movement path of the wind. .

Therefore, while the wind moves from the rear of the stone plate 110 to the front, foreign substances such as stones are also gradually pushed toward the front of the stone plate 110 by the wind, leading to the front end of the stone plate 110 .

A foreign material outlet 111 is provided at the front end of the precipitation plate 110 . Therefore, the foreign material reaching the front end of the stone plate 110 by the wind is discharged to the outside through the foreign material outlet (111).

Among the raw materials, grains are highly bounced upwards of the quarrying plate 110 by the fluctuation of the quarrying plate 110 .

Since the wind from the rear to the front moves while being spread low on the upper surface of the stone plate 110, the grains bouncing high upwards of the stone plate 110 are less affected by the wind, so the forward movement by the wind is limited.

Since the rocking of the stone plate 110 repeatedly occurs in a state in which the stone plate 110 is arranged to be inclined downwardly to the rear, the grain 110 is gradually produced by the shaking of the stone plate 110. It moves to the rear, and eventually leads to the rear end of the stone plate (110).

A grain outlet 112 is provided at the rear end of the limestone plate 110 . Therefore, foreign substances reaching the rear end of the stone plate 110 due to the fluctuation of the stone plate 110 are discharged to the outside through the grain outlet 112 .

The rocking width of the stone plate 110 in the vertical direction does not bounce off a large width on the stone plate 110 so that foreign substances such as stones to be discharged to the foreign material outlet 111 can be moved to the foreign material outlet 111 side by the wind. It is set to not so much, and the grain to be discharged to the grain outlet 112 may be set to bounce high so as to be less affected by the wind.

5 to 8 , the stone crusher according to the present embodiment further includes an opening/closing unit 150 . The opening/closing unit 150 is disposed at the foreign material outlet 111 to open the foreign material outlet 111 to allow the discharge of foreign substances through the foreign material outlet 111, or close the foreign material outlet 111 to close the foreign material outlet 111 It blocks the discharge of foreign substances through the

The opening/closing unit 150 includes an opening/closing plate 151 . The opening/closing plate 151 is disposed below the foreign material outlet 111 and selectively opens and closes the foreign material outlet 111 .

The opening/closing plate 151 has through-holes 151a and 151b through which foreign substances can pass. The through-holes 151a and 151b selectively overlap the foreign material outlet 111 by rotation of the opening/closing plate 151, thereby selectively opening and closing the foreign material outlet 111.

A rotation shaft 152 is formed on the opening/closing plate 151 , and the rotation shaft 152 is rotatably coupled to the floor support 179 . Accordingly, the opening/closing plate 151 is rotated with respect to the floor support 179 with the rotation shaft 152 as a rotation center.

In this embodiment, the rotary shaft 152 is illustrated as being coupled to the floor support 179, but is not limited thereto, so the opening and closing plate 151 is rotated so that the through holes 151a and 151b select the foreign material outlet 111. It is also possible to be rotatably coupled to another member if it can be opened and closed with a .

The opening/closing plate 151 is disposed below the foreign material outlet 111 and is rotatably coupled to the floor support 179 by the rotating shaft 152 .

The opening/closing unit 150 may further include an opening/closing rod 153 and a restoration unit 154 .

The opening/closing rod 153 rotates the opening/closing plate 151, and the restoration unit 154 restores the rotated opening/closing plate 151 to its original position.

One side of the opening and closing rod 153 is coupled to the opening and closing plate 151 . Specifically, since the end of the opening/closing rod 153 is inserted into and coupled to the coupling hole portion 151c of the opening/closing plate 151, the opening/closing plate 151 is rotated by the movement of the opening/closing rod 153.

Referring to FIG. 7 , when the opening/closing rod 153 is moved to the left, the opening/closing plate 151 coupled to the end of the opening/closing rod 153 is rotated clockwise with the rotation shaft 152 as the rotation center.

The time when the left movement of the opening and closing rod 153 is completed is when the passage hole 151a of the opening and closing plate 151 overlaps the foreign material outlet 111 .

That is, when the left movement of the opening/closing rod 153 is completed, the passage hole 151a of the opening and closing plate 151 overlaps the foreign material outlet 111, so that foreign substances such as stones pushed by the front end of the crushing plate 110 are discharged through the foreign material outlet. It is discharged to the outside through the (111) and the through hole (151a).

A plurality of through-holes 151a and 151b may be formed in the opening/closing plate 151 . The plurality of through-hole portions 151a and 151b may have different diameters. The diameter of the passage through which the foreign material is discharged depends on the smaller of the diameter of the foreign material outlet 111 and the diameter of the through holes 151a and 151b.

Therefore, when the user wants to adjust the diameter of the passage through which the foreign material is discharged, there is no need to adjust the diameter of the foreign material outlet 111, and the through hole portion 151a overlaps the foreign material outlet 111 among the plurality of through hole portions 151a and 151b. By adjusting 151b), the diameter of the passage through which foreign substances are discharged can be easily adjusted.

For example, when the diameter of the passage hole 151b is smaller than that of the passage hole portion 151a, when the user wants to make the diameter of the passage through which foreign substances are discharged smaller than before, the opening and closing rod 153 passes when the left movement is completed. The through hole 151b, not the hole 151a, may be adjusted to overlap the foreign material outlet 111 .

The opening/closing unit 150 is connected to the opening/closing rod 153 and further includes a handle unit 155 formed to be gripped. The user may move the opening/closing rod 153 to the left by holding the handle 155 and pulling the handle 155 to the left.

The restoration unit 154 provides an elastic restoring force to the opening and closing plate 151 to restore the opening and closing plate 151 rotated by the left movement of the opening and closing rod 153 to its original position.

The restoration part 154 includes an elastic spring, one side is connected to the connection hole part 151d of the opening/closing plate 151, and the other side is connected to the frame F of the stone grinder. When the opening/closing plate 151 is rotated by the left movement of the opening/closing rod 153, the restoration unit 154 is extended from its original state.

Therefore, when the rotational force applied to the opening/closing rod 153 is removed, the restoration unit 154 is restored to its original state, and at this time, the opening/closing plate 151 is also rotated to return to its original position.

Referring to FIG. 8 , when the external force applied to the opening/closing rod 153 is removed, the opening/closing plate 151 connected to one side of the restoration unit 154 is rotated counterclockwise with the rotating shaft 152 as the rotation center.

When the counterclockwise rotation of the opening/closing plate 151 is completed by the restoring force of the restoration unit 154, the passage hole 151a of the opening/closing plate 151 returns to the original position that does not overlap the foreign material outlet 111. it's time

That is, when the counterclockwise rotation of the opening and closing plate 151 is completed, the passage hole 151a of the opening and closing plate 151 does not overlap with the foreign material outlet 111, so that the stone pushed by the front end of the stone plate 110 and The same foreign material is not discharged to the outside by the opening/closing plate 151 blocking the foreign material outlet 111 .

10 to 13 , the opening/closing unit 150 may further include an opening/closing driving unit 159 and a control unit 200 in place of the restoration unit 154 .

The opening/closing driving unit 159 is operated by the operation control of the control unit 200, and by the operation of the opening/closing driving unit 159, the opening/closing rod 153 is moved to rotate the opening/closing plate 151 in one direction or the opposite direction. can be rotated to

One side of the opening and closing rod 153 is coupled to the opening and closing plate 151 . Specifically, since the end of the opening/closing rod 153 is inserted into and coupled to the coupling hole portion 151c of the opening/closing plate 151, the opening/closing plate 151 is rotated by the movement of the opening/closing rod 153.

12, when the opening/closing rod 153 is moved to the left by the operation of the opening/closing driving unit 159, the opening/closing plate 151 coupled to the end of the opening/closing rod 153 rotates the rotation shaft 152 as the center of rotation. to rotate clockwise.

The time when the left movement of the opening and closing rod 153 is completed is when the passage hole 151a of the opening and closing plate 151 overlaps the foreign material outlet 111 .

That is, when the left movement of the opening/closing rod 153 is completed, the passage hole 151a of the opening and closing plate 151 overlaps the foreign material outlet 111, so that foreign substances such as stones pushed by the front end of the crushing plate 110 are discharged through the foreign material outlet. It is discharged to the outside through the (111) and the through hole (151a).

A plurality of through-holes 151a and 151b may be formed in the opening/closing plate 151 . The plurality of through-holes 151a and 151b may have different diameters. The diameter of the passage through which the foreign material is discharged depends on the smaller of the diameter of the foreign material outlet 111 and the diameter of the through holes 151a and 151b.

Therefore, when the user wants to adjust the diameter of the passage through which the foreign material is discharged, there is no need to adjust the diameter of the foreign material outlet 111, and the through hole portion 151a overlaps the foreign material outlet 111 among the plurality of through hole portions 151a and 151b. By adjusting 151b), the diameter of the passage through which foreign substances are discharged can be easily adjusted.

For example, when the diameter of the passage hole portion 151b is smaller than that of the passage hole portion 151a, when the user wants to make the diameter of the passage through which foreign substances are discharged smaller than before, the opening and closing rod 153 passes when the left movement is completed. The through hole 151b, not the hole 151a, may be adjusted to overlap the foreign material outlet 111 .

Referring to FIG. 13 , the opening/closing plate 151 may be rotated counterclockwise by the operation of the opening/closing driving unit 159 . The counterclockwise rotation of the opening/closing plate 151 is completed when the through-hole portions 151a and 151b of the opening/closing plate 151 return to their original positions that do not overlap the foreign material outlet 111 .

That is, when the counterclockwise rotation of the opening and closing plate 151 is completed, the passage hole 151a of the opening and closing plate 151 does not overlap with the foreign material outlet 111, so that the stone pushed by the front end of the stone plate 110 and The same foreign material is not discharged to the outside by the opening/closing plate 151 blocking the foreign material outlet 111 .

When the opening/closing rod 153 is moved to the left by the operation of the opening/closing driving unit 159 and the opening/closing plate 151 is rotated, the through-hole part 151a is disposed to overlap the foreign material outlet 111, and foreign substances are transferred to the foreign material outlet 111. And it may be discharged to the outside through the through hole (151a).

In addition, when the opening/closing rod 153 is moved to the right by the operation of the opening/closing driving unit 159 and the opening/closing plate 151 is returned to its original position, the passage hole 151a is disposed so as not to overlap with the foreign material outlet 111, and the foreign material is discharged. is blocked

The stone crusher according to the present embodiment further includes a foreign material discharge pipe 160 . The foreign material discharge pipe 160 communicates with the foreign material discharge port 111 to form a discharge passage for the foreign material discharged from the foreign material discharge port 111 .

The foreign material discharge pipe 160 may be coupled to the floor support part 179 by a fastening member (B).

The foreign material discharge pipe 160 is elastically deformable. The foreign material discharge pipe 160 is connected to the foreign material discharge port 111, and can be elastically deformed even when the stone plate 110 is vertically oscillated, so that the connection with the foreign material discharge port 111 is not released.

The foreign material discharge pipe 160 includes an elastically deformable material or is formed in an elastically deformable shape. In this embodiment, the foreign material discharge pipe 160 is formed in a shape such as a spiral spring shape to absorb the shock and vibration caused by the vertical movement of the stone plate 110 .

The foreign material discharge pipe 160 may be externally protected by the discharge pipe cover 162 . The discharge pipe cover 162 is formed in a hollow tube shape, and surrounds the periphery of the foreign material discharge pipe 160 .

The foreign material discharge pipe 160 is connected to the discharge pipe unit 165 coupled to the frame F, and foreign substances discharged through the foreign material discharge pipe 160 are collected in the discharge pipe unit 165 and then discharged to the outside. A storage container (not shown) may be disposed below the discharge pipe unit 165 to store foreign substances discharged to the discharge pipe unit 165 .

1 to 5 , the stone grinder according to the present embodiment further includes a fall prevention cover 170 .

The fall prevention cover 170 surrounds the perimeter of the quarrying plate 110 to prevent the raw material from leaving the quarrying plate 110 , and is formed to protrude upward.

The fall prevention cover 170 includes a first cover 170A and a second cover 170B.

4, the first cover 170A is disposed on the upper left side of the quarrying plate 110 to prevent the raw material from being separated to the left side of the quarrying plate 110, and the second cover 170B is the first cover ( 170A) is disposed on the upper right side of the quarrying plate 110, opposite to the quarrying plate 110 to prevent the raw material from escaping to the right side.

The front end 171a of the first cover 170A and the front end 176a of the second cover 170B are disposed to be in contact with each other, and the foreign material outlet 111 is the first cover 170A and the second cover 170B. ) is placed in the abutting area.

The first cover 170A has an inner wall 171 protruding upward from the upper portion of the stone plate 110 , and a roof portion 172 connected to the upper end of the inner wall 171 and extending to the outside of the stone stone plate 110 . ) is included.

The inner wall 171 of the first cover 170A is formed in a flat shape. Therefore, even when the grains protruding upward by the shaking of the stone plate 110 collide with the inner wall 171 , the inner wall 171 is flat, so it slides on the inner wall 171 and guides it to the rear of the stone plate 110 . do.

The second cover 170B includes an inner wall 176 protruding upward from the upper portion of the stone plate 110 , and a roof portion 177 connected to the upper end of the inner wall 176 and extending to the outside of the stone stone plate 110 . ) is included.

The inner wall 176 of the second cover 170B is formed in a flat shape. Therefore, even when the grains protruding upward by the rocking of the stone plate 110 collide with the inner wall 176, the inner wall 176 is flat, so it slides on the inner wall 176 and guides it to the rear of the stone plate 110. do.

The first cover 170A and the second cover 170B are detachably mounted on the stone plate 111 . Therefore, when the user wants to separate the first cover 170A or the second cover 170B from the stone plate 111, this can be easily performed.

The angle between the inner wall 171 of the first cover 170A and the inner wall 176 of the second cover 170B is an acute angle. In addition, the foreign material outlet 111 is disposed at a portion where the first cover 170A and the second cover 170B contact each other.

Therefore, the foreign material moved to the front of the stone plate 110 by the shaking of the stone plate 110 is directly discharged through the foreign material outlet 111, or the inner wall 171 and the second cover (171) of the first cover (170A) ( After colliding with the inner wall 176 of 170B), it may fall to the foreign material outlet 111 side and be discharged through the foreign material outlet 111 .

The foreign material outlet 111 is disposed immediately adjacent to the front end of the inner wall 171 of the first cover 170A and the front end of the inner wall 176 of the second cover 170B.

In this embodiment, two stone plates 110, two hoppers 120, two vibration generating units 130, and two wind generating units 140 in the lower portion of the two storage tanks (90A, 90B), respectively can be placed. In addition, two openings and closing parts 150 for opening and closing the foreign material outlet 111 of each of the stone plates 110 are also provided.

The hopper 120 includes a hopper 120A on the left and a hopper 120B on the right with reference to FIG. 1 . The left hopper 120A is vibrated by the vibration generating unit 130 having the cam 131A and the rotation shaft 132A. The hopper 120B on the right side is vibrated by the vibration generating unit 130 having the cam 131B and the rotation shaft 132B.

The cam power unit 136 may be configured in one piece to provide power to the rotation shaft 132A of the left cam 131A and the rotation shaft 132B of the right cam 131B at the same time. Alternatively, two cam power units 136 may be separately configured to separately provide power to the rotation shaft 132A of the left cam 131A and the rotation shaft 132B of the right cam 131B.

The opening/closing unit 150 includes an opening/closing unit 150A on the left and an opening/closing unit 150B on the right with reference to FIG. 1 .

The opening/closing unit 150A on the left includes an opening/closing plate 151, an opening/closing rod 153A, a restoration unit 154A, and a handle portion 155A, and similarly, the opening/closing unit 150B on the right side is an opening/closing plate 151, an opening/closing rod 153B, a restoration portion 154B, and a handle portion 155B.

The two handle portions 155A and 155B may be disposed together on the left side of the frame F of the stone grinder as shown in FIG. The handle portion 155B may be disposed outside the right wall of the frame F.

The foreign substances classified in the stone plate 110 on the left side are discharged through the foreign material discharge pipe 160A on the left side, and the foreign material classified by the stone stone plate 110 on the right side is discharged through the foreign material discharge pipe 160B on the right side. Each foreign material discharge pipe (160A, 160B) may be protected by the discharge pipe cover (162A, 162B).

Each foreign material discharge pipe (160A, 160B) is connected to one discharge pipe part 165, the foreign substances collected in the discharge pipe part 165 are discharged to the outside through the outlet of the discharge pipe part (165). A user may place a storage container at the outlet of the discharge pipe unit 165 to contain the discharged foreign substances.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art to which the art pertains. will understand Therefore, the true technical protection scope of the present invention should be defined by the following claims.

100: stone plate 111: foreign matter outlet
112: grain outlet 120: hopper
130: vibration generating unit 140: wind generating unit
150: opening and closing part 151: opening and closing plate
153: opening and closing rod 154: restoration part
160: foreign material discharge pipe 170: fall prevention cover

Claims (9)

Raw materials including grains and foreign substances are supplied from the storage tank and are loaded, the height is gradually lowered from the front to the rear, the height is inclined so as to gradually decrease, the stone plate is provided with a foreign material outlet on the front side;
a hopper disposed under the stone plate;
a vibration generator for applying vibration to the hopper so that the stone plate is oscillated;
a wind generator that is rotatably installed in the hopper and generates wind by rotation; and
It surrounds the perimeter of the stone plate to prevent the grain from departing to the outside of the stone stone plate, and includes a fall prevention cover that is formed to protrude upward,
Further comprising a foreign material discharge pipe connected to the foreign material discharge port forming a discharge passage for the foreign material discharged from the foreign material discharge port,
The foreign material discharge pipe is elastically deformable, and is formed in a spiral spring shape to absorb shock and vibration caused by the vertical fluctuation of the stone plate,
The wind generator,
a windmill which is rotatably installed inside the hopper and generates wind by rotation; and
and a windmill driving unit for providing rotational power to the windmill;
the windmill,
a shaft coupling part coupled to a rotation shaft disposed inside the hopper;
a plurality of rotary blades installed radially on the shaft coupling part; and
Stone grinding machine, characterized in that it comprises a connecting guide portion for connecting the plurality of rotary blades to each other.
According to claim 1,
The protrusion height of the fall prevention cover is a stone grinder, characterized in that the front end is higher than the rear end.
3. The method of claim 2,
The protrusion height of the fall prevention cover is 5 to 10 cm.
According to claim 1,
The fall prevention cover,
a first cover disposed on the top of the stone stone plate;
and a second cover disposed on the opposite side of the first cover from the top of the stone plate,
The stone removal machine, characterized in that the front end of the first cover and the front end of the second cover contact each other.
5. The method of claim 4,
An angle formed between the inner wall of the first cover and the inner wall of the second cover is an acute angle.
5. The method of claim 4,
The stone removal device, characterized in that the foreign material outlet is disposed at a portion where the first cover and the second cover contact each other.
5. The method of claim 4,
The fall prevention cover is a stone grinder, characterized in that the inner wall is formed in a flat shape.
5. The method of claim 4,
The stone crusher, characterized in that the first cover and the second cover are detachably mounted on the stone stone plate.
According to claim 1,
Foreign matter having a higher specific gravity than grain is discharged through the foreign material outlet while being pushed forward of the stone plate by the wind, and the grain is discharged through the grain outlet while moving backward by the shaking of the stone plate, characterized in that erection.

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