KR20030025356A - Grain powder machine - Google Patents

Abstract

PURPOSE: Provided is a grain grinder which rotates a rotation crushing sheet at low speed to grind powder so that it enables to produce ultrafine powder with minimizing sound in working and dust in generation. CONSTITUTION: The grain grinder comprises the parts of: a body case which includes a hopper, a release cup, a lever for adjusting the size of particles, a drive motor and a cooling fan; a body(2) which is placed at the upper part of the drive motor; a bearing housing(3) which is placed inside the drive motor and elevated by the lever for adjusting the size of the particles; a rotation axis(5) which is placed inside the bearing housing and rotated by a power transmission tool of the drive motor; the rotation crushing sheet(6) which is placed at the upper edge of the rotation axis and rotated by the rotation axis; and a cover sheet which is placed at the upper part of the rotation crushing sheet and combined with the upper part of the body through the combination tool to include a cooling tool and a grin insertion hole(71) at the upper center.

Description

Grain powder machine

The present invention relates to a grain powder machine that grinds and grinds grains of grain form, and in particular, by forming a crushing blade and a crushed surface together on a rotary grinding plate, when the grains are powdered, the first crushing and the second grinding operation is continuously performed. As a result, the rotating grinding plate rotates at a low speed and can produce atomized powder, and has excellent performance, and greatly reduces operating noise and dust, thereby making it very convenient to use.

Powder machine is used to make grains and medicines to fine particles. It is often used in mills, pharmaceuticals, hospitals and restaurants. Powder machines for mills are generally used to make a pair of rollers rotate in contact with each other. It is a way to powder the grain by passing the grain, and the other type of powder machine is used to install a grinding blade on the rotating plate to rotate the rotating plate at high speed to grind the grain by grinding the product is used.

However, the conventional powder machines as described above have a problem in that the grains are repeatedly passed through the machine several times in order to powder the grains.

That is, in the case of the former mainly used in the mill, the grain is crushed by the pressure between the two rollers while the grain is introduced between the two rollers while driving a pair of rollers having a smooth surface with a motor or the like. In order to do this, the crushed grain is re-injected and crushed again and repeated several times, and then reduced slightly at intervals between the rollers so that the grain is powdered into fine particles. There was a problem of inefficient efficiency.

In addition, the latter is also a method of obtaining a powder by pulverizing the fine mesh after grinding the grain using the grinding blade while the rotating plate is rotated at a high speed by installing a grinding blade on the rotating plate, so that the spacing between the blades are not very fine to fine particles of the powder In order to achieve this, not only the grains have to be repeatedly crushed several times, but also the operation noise due to the high-speed rotation of the rotating plate is very large, so that most of the devices not only exceed the environmental limits but also generate dust, which is very easy to use. There was a problem.

The present invention has been made in order to solve such a conventional problem, by forming a double crushing unit for grinding the grain crushed grains and small grains crushed grains into fine particles to powder the grain into fine particles in one operation only Not only can be reduced, but also less noise, and the size of the powder is free to adjust the very convenient as described in more detail by the accompanying drawings as follows.

1 is a vertical cross-sectional view showing the configuration of the present invention

Figure 2 is an exploded perspective view of the main part of the present invention

3 is an exploded perspective view showing a body of the present invention

4 is a front view of the body of the present invention

5 is a plan view showing a state in which the cover plate is installed on the main body of the present invention

Figure 6 is an illustration of the bottom surface of the rotary grinding plate of the present invention

7 is a bottom view of the cover plate of the present invention.

8 is an enlarged cross-sectional view of a state in which the rotary grinding plate is lowered

9 is an enlarged cross-sectional view illustrating a state in which the rotary grinding plate is raised

FIG. 10 is an exemplary enlarged cross-sectional view of a portion of FIG. 9.

* Explanation of symbols for the main parts of the drawings

1: body case 2: body

21: engaging protrusion 22: discharge hole

23: inclined long hole 3: bearing housing

31: guide 4: lifting plate

41: rack gear 5: rotating shaft

51: driven gear 6: rotary grinding plate

6a: grinding surface 61: protrusion

61a: shredding blade 62: powder discharge plate

7: cover plate 7a: grinding surface

71: grain inlet 72: discharge groove

73: crushing blade portion 74: locking projection

A main body case having a hopper 11 formed on the upper side and a discharge cup 12 and a particle size control lever 13 installed on one side thereof, and a drive motor 14 and a cooling fan 15 installed therein. (1);

A body 2 installed on the drive motor 14;

A bearing housing (3) installed inside the body (2) and elevating by a particle size control lever (13);

A rotating shaft 5 installed inside the bearing housing 3 to rotate through a power transmission means from a drive motor 14;

A rotary grinding plate 6 installed at an upper end of the rotary shaft 5 and rotating by the rotary shaft 5;

The rotary grinding plate 6 is installed on the upper part, but is coupled to the upper part of the body 2 through the coupling means, and provided with a cooling means, in the upper center with a cover plate 7 formed grain inlet 71 It is a configuration.

On the other hand, the body (2) is formed in the lower portion of the fixing portion (2a) bolted to the fixing plate (14b) installed on the upper portion of the drive motor 14, the upper portion by forming the crushing portion (2b) Several coupling protrusions 21 are formed on the inner side of the surface, and discharge holes 22 are formed on the bottom surface, and a bearing housing 3 is installed at the center, but both sides of the body 2 are inclined long holes 23. Guide bolts 31 which are nut-coupled to the coupling grooves 33 of the outer side of the bearing housing 3 are inserted into the inclined long holes 23 so as to be inclined along the bottom surface outside the rack gear. Fit the elevating plate 4 to the outside of the body by inserting the bolt (42a) to the long hole 42 formed in the elevating plate (4) formed on the 41 and one side end of the elevating plate (4) 31 is combined with the pinion gear 13a rotated by the particle size adjusting lever 13 and the rack gear 41 to form a particle size adjusting lever (1). 3) allows the bearing housing 3 to move up and down inside the body 2.

In addition, the power transmission means provided between the drive motor 14 and the rotary shaft 5 is engaged with the drive gear 14a of the drive motor 14, the interlocking gear 16 formed in the upper and lower stages, and the interlocking gear ( It is composed of a driven gear 51 is engaged to the upper gear of 16) coupled to the lower end of the rotary shaft (5).

In addition, the rotary grinding plate 6 is formed on the upper surface of the disc-shaped main body of the concave-convex grinding surface 6a in various directions, and the outer periphery is formed by embedding a plurality of powder discharge plate 62 in the upper center of the main body Conical projections 61 are formed to form several fractured blades 61a around the projections 61.

In addition, the cover plate 7 is formed on the bottom surface, such as the rotary grinding plate 6, the irregular grinding surface (7a) in a plurality of directions and several discharge grooves (72) inward to form a rotary grinding plate ( 6) to abut the crushing surface (6a), the outer peripheral surface to form a locking protrusion (74) in a number of places to be combined with the engaging protrusion 21 of the body (2), inside the cooling water passage (75) Cooling water inlet pipe (75a) and the cooling water discharge pipe (75b) is installed on each of the upper side to form a coolant pump (75c) to operate the interlocking gear 16, the grain inlet 71 is formed in the center of the inner peripheral surface Several crushing blade portions 73 are formed in the grooves.

When explaining the embodiment of the present invention as described above is as follows.

First, when the grain to be powdered is introduced through the hopper 11 on the upper part of the main body case 1 formed in FIG. 2, the driving gear 14a of the driving motor 14 installed inside the main body is By rotating the driven gear 51 engaged with the upper gear of the interlocking gear 16 by operating the interlocking gear 16 while rotating, the rotating shaft 5 which pin-couples the lower end to the center of the driven gear 51 is rotated. (5) The rotary grinding plate 6 coupled to the upper end is rotated.

At this time, a conical protrusion 61 having a plurality of crushing blades 61a formed around the upper surface of the rotary grinding plate 6 is formed, and the protrusion 61 has a crushing blade portion 73 formed on the inner circumferential surface thereof. The crushing blade 61a of the rotating pulverizing plate 6 is fixed because the lid plate 7 is inserted into the grain inlet 71 at the center of the plate 7 and the cover plate 7 is coupled to the upper portion of the body 2. The grain introduced into the grain input hole 71 by the shredding blade portion 73 of the cover plate 7 is shredded into small chunks once, and the gap between the shredding blade 61a and the shredding blade portion 73 downwards. As it gets narrower, the grain gradually decreases in size as it is fed downwards.

Thus, the grains broken into small pieces reach the upper surface of the rotary grinding plate 6. The upper surface of the rotary grinding plate 6 is formed with crushed surfaces 6a having an uneven shape in all directions. Since the bottom surface of the corresponding cover plate 7 is formed with a grinding surface 7a having the same shape as the grinding surface 6a of the rotary grinding plate 6, the grains that have already been broken into small chunks during the feeding process are divided into two grinding pieces. Powder formed into the outer periphery of the rotating grinding plate 6 which is discharged to the outside of the rotating plate while falling into the bottom of the grinding plate 2b of the body 2 while being powdered into small particles by the surfaces 6a and 7a. As the discharge plate 62 pushes the powder to the discharge hole 22 formed in the bottom surface of the crushing unit 2b, the powder is discharged to the outside through the discharge cup 12 on one side of the main body, which is first broken into small pieces. Grinding surface 6a, 7a for powdering As a result, not only the powdering is effectively performed, but also the gap between the two grinding surfaces 6a and 7a is made fine and the irregular grinding surfaces 6a and 7a are formed in various directions, so that the rotary grinding plate 6 is formed at high speed. Since the grains can be powdered into fine particles without rotating, the noise of the operating part due to the high speed rotation can be prevented.

On the other hand, the particle size control lever 13 is installed on one side of the main body, the pinion gear installed at the shaft end of the particle size control lever 13 when the particle size control lever 13 is rotated from left to right to set the desired particle size. 13a rotates in the same direction as the particle size control lever 13.

However, the pinion gear 13a is engaged with the rack gear 41 formed at the lower end of the elevating plate 4, which is bolted to the outside of the body 2 installed inside the main body, and one side of the elevating plate 4. An end is bolted to one of the pair of guides 31 which are bolted to the outer surface of the bearing housing 3 installed inside the body 2, and the pair of guides 31 is connected to the body 2. Since the lifting plate 4 is moved up and down while rotating along the outer circumferential surface of the body 2 by the pinion gear 13a, the lifting plate 4 is fitted to the inclined long holes 23 formed on both sides of the body. And the one side guide 31 of the bearing housing 3 coupled with the bolt ascends while rotating along the inclined long hole 23 formed in the body of the body 2 so that the bearing housing 3 can be vertically elevated. .

Therefore, the height of the rotary shaft 5 installed at the center of the bearing housing 3 is adjusted as the bearing housing 3 is raised and lowered. However, since the rotary grinding plate 6 is installed at the upper end of the rotary shaft 5, the rotary shaft 5 is rotated. As the rotary grinding plate 6 is raised and lowered according to the lifting and lowering of (5), the interval between the rotary grinding plate 6 and the cover plate 7 is adjusted so that the gap between the grinding surfaces 6a and 7a facing each other is adjusted. It is possible to conveniently adjust the particle size of the powder to be powdered by the crushed surface (6a) (7a).

Therefore, the present invention not only can easily adjust the particle size of the powder in the powdering of the grain, it is possible to produce a finer powder compared to the conventional powder, and because the rotating grinding plate can be manufactured at a low speed while the atomized powder can be manufactured Not only can it minimize operating noise and dust generation by rotating operation, it also has the advantage that it can be used comfortably and conveniently by eliminating repetitive work for the production of fine particles.

Claims (4)

A main body case having a hopper 11 formed on the upper side and a discharge cup 12 and a particle size control lever 13 installed on one side thereof, and a drive motor 14 and a cooling fan 15 installed therein. (1); A body 2 installed on the drive motor 14; A bearing housing (3) installed inside the body (2) and elevating by a particle size control lever (13); A rotating shaft 5 installed inside the bearing housing 3 to rotate through a power transmission means from a drive motor 14; A rotary grinding plate 6 installed at an upper end of the rotary shaft 5 and rotating by the rotary shaft 5; The rotary grinding plate 6 is installed on the upper part, but is coupled to the upper part of the body 2 through the coupling means, and provided with a cooling means, and the cover plate 7 formed a grain inlet 71 in the upper center Composed grain grinder According to claim 1, the body (2) is formed on the lower portion of the fixing portion (2a) bolted to the fixing plate (14b) installed on the upper portion of the drive motor 14, the upper portion to form a crushing portion (2b) To form a couple of engaging projections 21 in the upper surface to the inside and the discharge hole 22 is formed on the bottom, and the bearing housing (3) is installed in the center, the inclined long hole ( 23 is formed so that the guide nut 31 which is nut-coupled to the coupling groove 33 of the outer surface of the bearing housing 3 is fitted into the inclined long hole 23, the outer side of the body inclined along the bottom surface The bolt 42a is inserted into the long hole 42 formed in the elevating plate 4 having the size word 41 to couple the elevating plate 4 to the outside of the body, and one side end of the elevating plate 4 guides the one side. The particle size control lever is engaged with the pinion gear 13a and the rack gear 41 which are rotated by the particle size control lever 13 by being coupled to the sphere 31. Whole grain bunmalgi the bearing housing 3 by means of (13) is elevated inside the body (2) According to claim 1, the rotary grinding plate 6 is formed on the upper surface of the disc-shaped main body of the concave-convex grinding surface 6a in various directions, the outer periphery is formed by embedding a plurality of powder discharge plate 62, the upper portion of the main body A grain powder machine characterized by forming a conical protrusion 61 in the center to form a plurality of shredded blades 61a around the protrusion 61. The cover plate (7) according to claim 1, wherein the cover plate (7) is formed on the bottom surface, such as a rotary grinding plate (6), to form a grinding surface (7a) of irregularities in various directions, and to form several discharge grooves (72) inwardly to rotate the grinding Abuts against the crushed surface (6a) of the plate (6), the outer peripheral surface to form a locking protrusion (74) in several places to be combined with the engaging protrusion 21 of the body (2), inside the cooling water passage ( 75) to form a cooling water inlet pipe (75a) and the cooling water discharge pipe (75b) on the upper side, respectively, but the cooling water pump (75c) to operate the interlocking gear (16), the grain inlet 71 is formed in the center Grain powder machine characterized in that several crushed blades 73 are formed on the inner circumferential surface thereof