KR101924550B1 - Grain grinding apparatus and method using rotational friction - Google Patents

Abstract

The present invention relates to a home grain grinding device which comprises a grinding blade provided on the inner bottom of an outer container of the grain grinding device and an inner container between the grinding blade and the outer container to rotate in the opposite direction on the same drive shaft, and generates a rotational friction force by rotating the grinding blade and the inner container in opposite directions to smoothly and finely grinds grains contained in the inner container. The home grain grinding device comprises: the cylindrical outer container (10) which has a first receiving part (12) having an open upper part inside thereof, a support member (16) on a lower side thereof, and a controller (19) on the outer surface thereof; the grinding blade (20) which is spaced apart from an upper side of the center of a bottom body (14) of the outer container (10) and is connected to a shaft (22) of a first motor (21) provided on a lower side of the outer container (10) to grind grains (2) while being rotated forward; and the cylindrical inner container (30) which has edges spaced apart from each other to form a second receiving part (32) having an open upper part inside the first receiving part (12) of the outer container (10), is provided with a rotating bottom plate (34) between a lower side of the grinding blade (20) and the bottom body (14) of the outer container (10), and generates a rotational friction force with the grinding blade (20) while being reversely rotated in the direction opposite to the rotation of the grinding blade (20) without being interfered with the rotation of the grinding blade (20) as a female gear unit (36) formed along a lower edge side of the rotating bottom plate (34) is connected to a second motor (31) provided on one side of the lower side of the outer container (10) through a shaft gear (35).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a grain grinding apparatus and a method for grinding grain using a rotary friction force generated while rotating in opposite directions on the same drive shaft,

[0001] The present invention relates to a domestic grain crushing apparatus, and more particularly, to a domestic grain crushing apparatus having an inner cylinder between a crushing blade and an outer cylinder so as to be rotated in the opposite direction on the same drive shaft as a crushing blade provided in an inner bottom of an outer cylinder of a grain crusher, And the inner cylinder are rotated in mutually opposite directions to generate a rotational friction force so that the grains contained in the inner cylinder are smoothly and finely pulverized, And a grain grinding method.

Conventionally, conventional tools such as mortar and millstone were used as a grinding apparatus for grinding ground materials such as beans, peppers, and the like. The mortar is to crush the crushed material by repeatedly putting the crushed material in the mortar and putting it up and down using a mortar, and grinding the crushed material by grinding the milled material. The object to be ground is crushed by the frictional force between the upper and lower millstones by turning the knob by inserting the object to be ground with the hole formed in the upper millstone.

However, since such mortar and millstone are made by hand, not only a lot of effort is required but also a lot of grinding operation time is required.

In order to compensate for the disadvantages of such conventional tools, the automatic grinding apparatus for grinding grinding by high-speed rotation and rotational force by the rotational force of the automatic motor, which has been turned out, grinds the pulverized material by high- .

Such automatic grinding apparatuses are manufactured to be horizontally arranged, and when the food materials are crushed, the efficiency of centrifugal separation becomes low and the production amount thereof is greatly reduced, and the particles of the crushed food materials are not uniform.

Such a grinding apparatus has been developed and used for domestic use. In a conventional grain grinding apparatus, a grinding blade is provided on the inner bottom of a stationary cylinder, and the grinding blade is rotated to grind the grain. However, since the crushing power is only weak due to the crushing force of the crushing blade at the time of crushing the grain, there is a problem that the crushed grain adheres to the inner wall of the cylinder because the cylinder is fixed.

Patent No. 10-1665592

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an inner cylinder between an outer cylinder and a crushing blade so as to be rotated in the opposite direction on the same driving shaft as a crushing- And the inner cylinder are rotated in mutually opposite directions to generate a rotational friction force so that the grains contained in the inner cylinder are smoothly and finely pulverized, And a method of grinding grain.

According to an aspect of the present invention, there is provided a grain crusher for household use, comprising: a first receiving portion (12) opened at an upper side; a support member (16) at a lower side; An outer cylinder 10 in the form of a cylinder provided with a controller 19; The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is rotated forward to rotate the grains 2 A pulverizing blade 20 for pulverizing the pulverized powder; And a second accommodating portion 32 which is opened at an upper side in the first accommodating portion 12 of the outer cylinder 10 is formed to be spaced apart from the rim side and the lower side of the crushing blade 20 and the outer cylinder 10 And the second motor 31 provided on one side of the lower side of the outer cylinder 10 is connected to the lower edge side of the rotating bottom plate 34 The hammer portion 36 formed along the crushing blade 20 is connected to the crushing blade 20 via the shaft gear 35 and is rotated counterclockwise in the direction opposite to the rotation of the crushing blade 20 without interfering with the rotation of the crushing blade 20, The present invention relates to a domestic grain crushing apparatus using a rotating friction force generated while being rotated in mutually opposite directions on the same drive shaft.

At this time, on the inner circumferential surface 39 of the inner cylinder 30, a number of concave / convex portions 41 having a tip end 42 in the circumferential direction and the height h direction of the inner circumferential surface 39 are formed continuously, ) Is maximized and the crushing force is increased.

The concavo-convex portion 41 is gradually increased from the lower side toward the upper side in the direction of the height h of the inner circumferential surface 39 so that when the inner tube 30 rotates, In the direction of the pulverizing blade 20 without being released to the upper side of the pulverizing blade 20.

Each of the recessed portions 41 of the inner circumferential surface 39 is engaged with the hinge 52 provided on the inner circumferential surface 39 to be in close contact with the inner circumferential surface 39 when the inner tube 30 is stopped, The auxiliary crushing blade 51 extending perpendicularly to the inner circumferential surface 39 is provided by the rotational force when the cylinder 30 rotates to maximize the rotational friction force in the opposite direction to the crushing blade 20, .

The length W1 of the auxiliary pulverizing blade 51 may be set to be longer than an interval between the end of the auxiliary pulverizing blade 51 and the end of the pulverizing blade 20 facing the auxiliary pulverizing blade 51 W2). ≪ / RTI >

The length W1 of the auxiliary pulverizing blade 51 is gradually increased from the inner circumferential surface 39 toward the center side so that the grain 2 is prevented from moving to the upper side of the inner cylinder 30 And is collected on the lower side of the center in the direction of the pulverizing blade 20. [

A comb-like convex-concave portion 61 on the inner circumferential surface 39 of the inner cylinder 30 on which an oblique friction surface 63 is formed, the upper side of which is inclined forward, facing the rotating direction of the crushing blade 20 So that the crushing force is increased while maximizing the rotational friction force in the mutually opposite directions between the crushing blade 20 and the comb-shaped concavo-convex portion 61 by being formed at regular intervals in the rotating direction of the inner cylinder 30. [

The front protruding portion 62 is extended in the rotating direction of the inner cylinder 30 at the upper end of the comb-like concave-convex portion 61, And the rear protruding portion 64 is formed to extend in the direction of the arrow.

Another embodiment of the present invention is directed to a tubular outer cylinder 10 having a first accommodating portion 12 which is open at the top and a supporting member 16 at the lower side and a controller 19 at the outer surface, The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is connected to the upper end of the outer cylinder 10, A crushing blade 20 for crushing the grain 2 while being rotated is provided so that a second accommodating portion 32 that is opened upward is formed inside the first accommodating portion 12 of the outer cylinder 10, A rotating bottom plate 34 is provided between the lower side of the crushing blade 20 and the bottom body 14 of the outer cylinder 10 and is provided on one side of the lower side of the outer cylinder 10 The armature unit 36 formed along the lower edge of the rotating bottom plate 34 is connected to the second motor 31 via the shaft gear 35 so as to be connected to the crushing blade 20 20) The inner circumferential surface 39 of the inner cylinder 30 is provided with a cylindrical inner cylinder 30 for generating a rotational friction force with the crushing blade 20 while being reversely rotated, wherein a plurality of concave and convex portions 41 having a tip end portion 42 in the direction of the axis h are continuously formed so that a crushing force is generated while maximizing a rotational friction force in a direction opposite to the crushing blade 20. [ The present invention provides a method for grinding a domestic grain using a rotational friction force generated while being rotated in mutually opposite directions.

The concavo-convex portion 41 is gradually increased from the lower side toward the upper side in the height h direction of the inner circumferential surface 39 so that the grain 2 rotates in the inner cylinder 30 In the direction of the pulverizing blade 20 without being released to the upper side of the pulverizing blade 20.

Each of the recessed portions 41 of the inner circumferential surface 39 is engaged with the hinge 52 provided on the inner circumferential surface 39 to be in close contact with the inner circumferential surface 39 when the inner tube 30 is stopped, The auxiliary crushing blade 51 extending perpendicularly to the inner circumferential surface 39 is provided by the rotational force when the cylinder 30 rotates to maximize the rotational friction force in the opposite direction to the crushing blade 20, The length W1 of the auxiliary pulverizing blade 51 is set such that the distance between the end of the auxiliary pulverizing blade 51 and the end of the pulverizing blade 20 opposed to each other when the inner tube 30 rotates, (W2).

The length W1 of the auxiliary pulverizing blade 51 is gradually increased from the inner circumferential surface 39 toward the center side so that the grain 2 is prevented from moving to the upper side of the inner cylinder 30 And is collected on the lower side of the center in the direction of the pulverizing blade 20. [

Another embodiment of the present invention is directed to a tubular outer cylinder 10 having a first accommodating portion 12 which is open at the top and a supporting member 16 at the lower side and a controller 19 at the outer surface, The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is connected to the upper end of the outer cylinder 10, A crushing blade 20 for crushing the grain 2 while being rotated is provided so that a second accommodating portion 32 that is opened upward is formed inside the first accommodating portion 12 of the outer cylinder 10, A rotating bottom plate 34 is provided between the lower side of the crushing blade 20 and the bottom body 14 of the outer cylinder 10 and is provided on one side of the lower side of the outer cylinder 10 The armature unit 36 formed along the lower edge of the rotating bottom plate 34 is connected to the second motor 31 via the shaft gear 35 so as to be connected to the crushing blade 20 20) And then the crushing blade 20 is rotated in the reverse direction to form a cylindrical inner cylinder 30 for generating a frictional force with respect to the crushing blade 20. The crushing blade 20 is rotated in the rotating direction of the crushing blade 20 on the inner circumferential surface 39 of the inner cylinder 30 Like concave and convex portions 61 in which the inclined friction surfaces 63 are formed so that the upper side faces the front side are formed at regular intervals in the rotating direction of the inner cylinder 30, A front protruding portion 62 is extended in the rotating direction of the inner cylinder 30 and a rear protruding portion 64 is formed in the lower end portion of the comb-shaped protruding and recessed portion 61 in the direction opposite to the rotation of the inner cylinder 30 So that the crushing force is increased while maximizing the rotational frictional force in the mutually opposite directions between the crushing blade (20) and the comb-shaped concavo-convex portion (61). The rotational friction force generated in the opposite direction on the same drive shaft A home grain crushing method is provided.

According to the present invention, an inner cylinder is provided between the crushing blade and the outer cylinder so as to be rotated in the opposite direction on the same drive shaft as the crushing blade provided on the inner bottom of the outer cylinder of the grain crusher, so that the crushing blade and the inner cylinder rotate So that it is possible to smoothly and finely grind the grains contained in the inner barrel.

Brief Description of the Drawings Fig. 1 is an overall side cross-sectional view of a household grain crushing apparatus using rotation frictional force generated while being rotated in opposite directions on the same drive shaft according to the present invention
Fig. 2 is an explanatory diagram of a concavo-convex portion formed on the inner peripheral surface of the inner cylinder according to the present invention
3 is a modification example of the concavo-convex portion according to the present invention
Fig. 4 is an exploded view of the embodiment of Fig. 3
5 is an exemplary diagram of the concave-convex portion and the auxiliary pulverizing blade according to the present invention
Figures 6 and 7 illustrate the use of Figure 5
Fig. 8 is another modification example of the concavo-convex portion according to the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides an inner cylinder between a crushing blade and an outer cylinder so as to be rotated in the opposite direction on the same drive shaft as the crushing blade provided on the inner bottom of the outer cylinder of the grain crushing apparatus so that the crushing blade and the inner cylinder rotate in opposite directions, The present invention relates to a domestic grain crushing apparatus and a grain crushing method using a rotational friction force generated while being rotated in mutually opposite directions on the same drive shaft to smoothly and finely crush the grains contained in the inner cylinder, An outer cylinder 10 and a crushing blade 20 and an inner cylinder 30 provided between the outer cylinder 10 and the crushing blade 20 and rotated in a direction opposite to the crushing blade 20 .

In the crushing apparatus for a domestic grain according to the present invention, the outer cylinder 10 has a first receiving portion 12 opened at the upper side and a receiving member 16 at the lower side And a controller 19 for controlling and controlling the grain grinding apparatus is provided on the outer surface of the receiving member 16. [ At this time, the outer cylinder 10 is preferably formed in a cylindrical shape as a rotating body.

The crushing blade 20 is spaced apart from the center of the bottom of the outer cylinder 10. 1, the crushing blade 20 is connected to a shaft 22 of a first motor 21 provided at a lower side of the outer cylinder 10 and configured to crush the grain 2 while rotating forward.

In this case, the crushing blade 20 may be formed in various shapes other than those shown in the figure, but it is generally applied that the crushing blade 20 is formed in a horizontal shape. The first motor (21) is connected to the controller (19) and is controlled in operation.

An inner cylinder (30) is provided between the outer cylinder (10) and the crushing blade (20).

1, the inner cylinder 30 is provided with a second receiving portion 32 opened to the inside of the first receiving portion 12 of the outer cylinder 10, And a rotating bottom plate 34 is provided between the lower side of the crushing blade 20 and the bottom body 14 of the outer cylinder 10. Which is in the form of a cylinder in the form of an outer cylinder 10.

However, the outer cylinder 10 is formed as a fixed structure, but the inner cylinder 30 is configured to have a rotating structure in the present invention.

To achieve this, the second motor 31 provided on one side of the lower side of the outer cylinder 10 is provided with a gear unit 36 formed along the lower edge side of the rotating bottom plate 34, So as to be rotated without being interfered with the rotation of the pulverizing blade 20. [ At this time, the inner cylinder 30 rotated by the second motor 31 is rotated counterclockwise in the direction opposite to the rotation of the crushing blade 20, . As a result, the crushing blade 20 and the rotating friction force are generated as described above, and the crushing of the grain 2 contained in the inner cylinder 30 is smoothly and finely performed due to such a structure.

As shown in FIG. 2, the inner circumferential surface 39 of the inner cylinder 30 has an inner circumferential surface 39, which is smooth and fine, A plurality of concave and convex portions 41 having a tip end portion 42 in the circumferential direction and the height h direction of the crushing blade 20 are continuously formed to maximize the rotational friction force in the opposite direction to the crushing blade 20 and to increase the crushing force .

3, if the concavoconvex portion 41 is formed so as to become gradually larger from the lower side toward the upper side in the height (h) direction of the inner peripheral surface 39, as shown in FIG. 4, The grinding effect of the grain 2 can be further maximized since the grain 2 can be gathered toward the lower center of the grinding blade 20 in the direction of the grinding blade 20 without being released to the upper side of the inner tube 30 .

5, each of the protrusions 41 of the inner circumferential surface 39 is coupled to the hinge 52 provided on the inner circumferential surface 39, The auxiliary pulverizing blade 51 which is closely attached to the inner circumferential surface 39 and spreads perpendicularly to the inner circumferential surface 39 by the rotational force when the inner tub 30 is rotated as shown in FIG. So that the crushing force can be increased.

At this time, the length W1 of the auxiliary pulverizing blade 51 is set such that the width of the auxiliary pulverizing blade 51, which is opened when the inner cylinder 30 rotates, and the end of the pulverizing blade 20 facing the auxiliary pulverizing blade 51 W2, it is possible to secure a space in which the grain 2 can be moved between the crushing blade 20 and the auxiliary crushing blade 51. [0054]

7, the length W1 of the auxiliary pulverizing blade 51 is gradually increased from the inner circumferential surface 39 toward the center side as shown in FIG. 7, so that the inner tube 30 The grains 2 can be gathered toward the lower center of the grinding blade 20 in the direction of the grinding blade 20 without being released to the upper side of the inner cylinder 30. [

8, on the inner circumferential surface 39 of the inner cylinder 30, an inclined friction surface 63 is formed on the upper surface of the inner cylinder 30 facing the rotation direction of the crushing blade 20, The generated comb-like concavo-convex portions 61 are formed at regular intervals in the rotating direction of the inner cylinder 30 to maximize the rotational frictional force between the crushing blade 20 and the comb-shaped concave- Can be increased.

At this time, a front protruding portion 62 is extended in the rotating direction of the inner cylinder 30 at the upper end of the comb-shaped concave-convex portion 61, The rear protruding portion 64 may be formed to extend in the direction of the arrow.

The method for crushing grain by a domestic grain crushing apparatus using the rotational friction force generated while rotating in opposite directions on the same drive shaft of the present invention as described above is characterized in that a first accommodating portion (12) And a controller 19 is provided on the outer surface of the outer cylinder 10. The outer cylinder 10 is spaced apart from the center of the bottom body 14 of the outer cylinder 10 A crushing blade 20 for crushing the grain 2 while being rotated forward by being connected to a shaft 22 to a first motor 21 provided at a lower side of the outer cylinder 10, The bottom of the outer cylinder 10 and the bottom of the outer cylinder 10 are spaced apart from each other so as to form a second accommodating portion 32 that is opened upward inside the first accommodating portion 12 of the outer cylinder 10, 14 is provided with a rotating bottom plate 34 and a second motor 31 provided on one side of the lower side of the outer cylinder 10 is provided with a rotating bottom plate 34 are connected to each other through the shaft gear 35 and are rotated in the opposite direction to the rotation of the pulverizing blade 20 without being interfered with the rotation of the pulverizing blade 20, A cylindrical inner cylinder 30 for generating a rotating friction force with the inner cylinder 30 is provided on the inner circumferential surface 39 of the inner cylinder 30 and a tip end A plurality of concave and convex portions 41 having a plurality of concave portions 42 are continuously formed so that crushing forces are generated while maximizing the rotational friction force in the opposite direction to the crushing blade 20.

The concavo-convex portion 41 is gradually increased from the lower side toward the upper side in the height h direction of the inner circumferential surface 39 so that the grain 2 rotates in the inner cylinder 30 The inner circumferential surface 39 and the inner circumferential surface 39 of the inner circumferential surface 39 are not separated to the upper side of the inner circumferential surface 39, An auxiliary pulverizing blade 51 which is engaged with the inner tube 30 and is in close contact with the inner circumferential surface 39 at the time of stopping the inner tube 30 and spreads perpendicularly to the inner circumferential surface 39 So that the crushing force is increased while the rotational friction force in the opposite direction to the crushing blade 20 is maximized while the length W1 of the auxiliary crushing blade 51 is increased (W2) between the end of the auxiliary pulverizing blade 51 and the end of the pulverizing blade 20 opposed thereto The castle is possible.

The hinge 52 provided on the inner circumferential surface 39 is in contact with the inner circumferential surface 39 at the time of stopping the inner cylinder 30. In other words, And the secondary crushing blade 51 extending perpendicularly to the inner circumferential surface 39 due to the rotational force when the inner cylinder 30 rotates is provided so as to maximize the rotational frictional force in the opposite direction to the crushing blade 20, The length W1 of the auxiliary pulverizing blade 51 is gradually increased from the inner circumferential surface 39 toward the center side so that the grain 2 can be prevented from rotating in the inner cylinder 30 30 without being released to the upper side of the pulverizing blade 20.

As another example of the grain crushing method using the domestic grain crushing apparatus using the rotational frictional force generated while being rotated in opposite directions on the same drive shaft of the present invention, the first accommodating portion 12 opened at the top is formed inside, And a controller 19 is provided on the outer surface of the outer cylinder 10. The outer cylinder 10 is separated from the upper side of the center of the bottom body 14 of the outer cylinder 10 A crushing blade 20 for crushing the grain 2 while being rotated forward by being connected to a shaft 22 to a first motor 21 provided on the lower side of the outer cylinder 10, And a second accommodating portion 32 which is opened at an upper side in the first accommodating portion 12 of the outer cylinder 10 and which is spaced apart from the edge of the second accommodating portion 32. The lower end of the crushing blade 20, (31) provided on one side of the lower side of the outer cylinder (10) is provided with a rotary bottom plate (34) The female gear portion 36 formed along the lower edge side of the plate 34 is connected via the shaft gear 35 and is reversely rotated in the direction opposite to the rotation of the pulverizing blade 20 without being interfered with the rotation of the pulverizing blade 20 A cylindrical inner cylinder 30 for generating a rotating friction force with the crushing blade 20 is provided on the inner peripheral surface 39 of the inner cylinder 30 so as to be opposed to the rotating direction of the crushing blade 20, Like concavo-convex portion 61 in which the forward inclined friction surface 63 is generated is formed at a predetermined interval in the rotating direction of the inner cylinder 30, The front protruding portion 62 is extended in the rotating direction of the inner cylinder 30 and the rear protruding portion 64 is extended in the direction opposite to the rotation of the inner cylinder 30 at the lower end portion of the comb- The crushing force can be increased by maximizing the rotational frictional force in the mutually opposite directions between the comb-like concavo-convex part (20) and the comb-shaped convex-concave part (61) .

According to the method for grinding a home grain and crushing a grain using the rotational frictional force generated while being rotated in opposite directions on the same drive shaft of the present invention as described above, According to the pulverizing apparatus and the grain pulverizing method, an inner cylinder is provided between the pulverizing blade and the outer cylinder so as to be rotated in the opposite direction on the same drive shaft as the pulverizing blade provided in the inner bottom of the outer cylinder of the grain pulverizing apparatus, So that the crushed grains contained in the inner cylinder can be smoothly and finely crushed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be clarified. Therefore, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

2: grain 10:
12: first receiving portion 14: bottom body
16: support member 19: controller
20: crushing blade 21: first motor
22: shaft 30: inner cylinder
32: second receiving portion 34: rotating bottom plate

Claims (13)

In constructing a domestic grain crusher,
An outer cylinder 10 in the form of a cylinder having a first accommodating portion 12 which is opened upward, a receiving member 16 provided on a lower side thereof, and a controller 19 on the outer surface thereof;
The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is rotated forward to rotate the grains 2 A pulverizing blade 20 for pulverizing the pulverized powder;
And a second accommodating portion 32 which is opened at an upper side in the first accommodating portion 12 of the outer cylinder 10 is formed to be spaced apart from the rim side and the lower side of the crushing blade 20 and the outer cylinder 10 And the second motor 31 provided on one side of the lower side of the outer cylinder 10 is connected to the lower edge side of the rotating bottom plate 34 The hammer portion 36 formed along the crushing blade 20 is connected to the crushing blade 20 via the shaft gear 35 and is rotated counterclockwise in the direction opposite to the rotation of the crushing blade 20 without interfering with the rotation of the crushing blade 20, And an inner cylinder (30) having a cylindrical shape for causing the inner rotor (30) to rotate.
The method according to claim 1,
A plurality of concave and convex portions 41 having a tip end portion 42 in the circumferential direction and the height h direction of the inner circumferential surface 39 are continuously formed on the inner circumferential surface 39 of the inner cylinder 30, Wherein the crushing force is increased while maximizing the rotational frictional force in mutually opposite directions of the driving shaft.
3. The method of claim 2,
The convexo-concave portion 41 is gradually increased from the lower side toward the upper side of the inner circumferential surface 39 in the height h direction so that the grain 2 is smoothly formed at the time of rotation of the inner cylinder 30, Wherein the crushing blade (20) is assembled to the lower side of the center in the direction of the crushing blade (20) without being released to the upper side.
The method according to claim 2 or 3,
Each of the recessed portions 41 of the inner circumferential surface 39 is engaged with the hinge 52 provided on the inner circumferential surface 39 so as to be brought into close contact with the inner circumferential surface 39 when the inner tube 30 is stopped, 30 is provided with auxiliary pulverizing blades 51 which extend perpendicularly to the inner circumferential surface 39 by the rotational force thereof so as to maximize the rotational frictional force in the opposite direction to the crushing blade 20 and to increase the crushing force Wherein the rotating shaft is rotated in opposite directions on the same drive shaft.
5. The method of claim 4,
The length W1 of the auxiliary pulverizing blade 51 is set to be a width W2 between the end of the auxiliary pulverizing blade 51 and the end of the pulverizing blade 20 facing the auxiliary pulverizing blade 51 when the inner cylinder 30 rotates. Wherein the rotating shaft is rotated in opposite directions on the same drive shaft.
5. The method of claim 4,
The length W1 of the auxiliary pulverizing blade 51 is gradually increased from the inner circumferential surface 39 toward the center side so that the grain 2 is separated from the upper side of the inner cylinder 30 when the inner cylinder 30 rotates And is gathered toward the center lower side in the direction of the crushing blade (20). The crushing apparatus according to claim 1, wherein the crushing blade (20)
The method according to claim 1,
A comb-like convex-concave portion 61 on the inner circumferential surface 39 of the inner cylinder 30 on which an oblique friction surface 63 whose upper side is inclined forward is formed facing the rotating direction of the crushing blade 20, (20) and the comb-shaped concavo-convex part (61) are maximized, and the crushing force is increased by increasing the crushing force of the crushing blade (20) A home grain crushing apparatus using rotational friction generated by rotating in the opposite direction.
8. The method of claim 7,
A front protruding portion 62 is formed at an upper end portion of the comb-shaped concavo-convex portion 61 in the rotating direction of the inner cylinder 30 and a protruding portion 62 is formed at a lower end portion of the comb- And a rear protruding portion (64) is formed on the same drive shaft.
An outer cylinder (10) of a cylindrical shape having a first accommodating portion (12) opened on the upper side, a receiving member (16) on the lower side and a controller (19) The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is rotated forward to rotate the grains 2, And a second receiving portion 32 opened upward in the first receiving portion 12 of the outer cylinder 10 is formed so as to be spaced apart from the edge side of the crushing blade 20, A rotary bottom plate 34 is provided between the lower side of the blade 20 and the bottom body 14 of the outer cylinder 10 and a second motor 31 The hammer portion 36 formed along the lower edge side of the rotating bottom plate 34 is connected to the crankshaft 35 via the shaft gear 35 so as not to be interfered with the rotation of the crushing blade 20, As shown in FIG. The inner peripheral surface 39 of the inner cylinder 30 is provided with a wedge blade 20 and a cylindrical inner cylinder 30 for generating a rotational friction force in the circumferential direction of the inner peripheral surface 39 and in the direction of the height h Wherein a plurality of concave / convex portions (41) having tip portions (42) are continuously formed so as to generate a crushing force while maximizing a rotational friction force in a direction opposite to the crushing blade (20) A method of crushing a domestic grain by using a rotational friction force generated as a result.
10. The method of claim 9,
The convexo-concave portion 41 is gradually increased from the lower side toward the upper side of the inner circumferential surface 39 in the height h direction so that the grain 2 is smoothly formed at the time of rotation of the inner cylinder 30, Wherein the crushing blade (20) is gathered toward the lower side of the center in the direction of the crushing blade (20) without being released to the upper side.
11. The method according to claim 9 or 10,
Each of the recessed portions 41 of the inner circumferential surface 39 is engaged with the hinge 52 provided on the inner circumferential surface 39 so as to be brought into close contact with the inner circumferential surface 39 when the inner tube 30 is stopped, 30 is provided with auxiliary pulverizing blades 51 extending perpendicularly to the inner circumferential surface 39 by the rotational force thereof so as to maximize the rotational friction force in the opposite direction to the pulverizing blade 20 so as to increase the pulverizing force The length W1 of the auxiliary pulverizing blade 51 is set to be equal to the width W2 between the end of the auxiliary pulverizing blade 51 and the end of the pulverizing blade 20 opposed to the auxiliary pulverizing blade 51, The method for crushing a domestic grain according to claim 1, wherein the crushing method comprises the steps of:
11. The method according to claim 9 or 10,
Each of the recessed portions 41 of the inner circumferential surface 39 is engaged with the hinge 52 provided on the inner circumferential surface 39 so as to be brought into close contact with the inner circumferential surface 39 when the inner tube 30 is stopped, 30 is provided with auxiliary pulverizing blades 51 extending perpendicularly to the inner circumferential surface 39 by the rotational force thereof so as to maximize the rotational friction force in the opposite direction to the pulverizing blade 20 so as to increase the pulverizing force And the length W1 of the auxiliary pulverizing blade 51 gradually increases from the inner circumferential surface 39 to the center side so that the grain 2 rotates at the upper side of the inner cylinder 30 when the inner cylinder 30 rotates And is collected at a center lower side in the direction of the crushing blade (20) without releasing the crushing blade (20).
An outer cylinder (10) of a cylindrical shape having a first accommodating portion (12) opened on the upper side, a receiving member (16) on the lower side and a controller (19) The shaft 22 is connected to the first motor 21 provided at the lower side of the outer cylinder 10 and is rotated forward to rotate the grains 2, And a second receiving portion 32 opened upward in the first receiving portion 12 of the outer cylinder 10 is formed so as to be spaced apart from the edge side of the crushing blade 20, A rotary bottom plate 34 is provided between the lower side of the blade 20 and the bottom body 14 of the outer cylinder 10 and a second motor 31 The hammer portion 36 formed along the lower edge side of the rotating bottom plate 34 is connected to the crankshaft 35 via the shaft gear 35 so as not to be interfered with the rotation of the crushing blade 20, As shown in FIG. And the upper side is provided on the inner peripheral surface 39 of the inner cylinder 30 so as to face the rotating direction of the crushing blade 20, Like concave and convex portions 61 in which a forward inclined friction surface 63 is generated are formed at regular intervals in the rotating direction of the inner cylinder 30, 30 and the rear protruding portion 64 is extended in the direction opposite to the rotation of the inner cylinder 30 at the lower end of the comb-like concavo-convex portion 61, 20 and the comb-shaped concavo-convex part (61) are maximized and the crushing force is increased. The method for grinding a domestic grain according to claim 1, wherein the crushing force is generated while rotating in opposite directions on the same drive shaft.

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