KR101661752B1 - Third stage millstone - Google Patents

Abstract

The present invention relates to a three-stage millstone, which enables the taste of grains to have the nutty taste and is harmless to the human body. The three-stage millstone of the present invention comprises: an upper stone (10) formed with an inflow path (12); middle stones (20, 20) formed with a vertical penetration hole (22) in the center; a lower stone (30) formed with a discharge path (32); and a central shaft (40) enables the middle stones (20, 20) to be rotated and enables the upper stone (10) and the lower stone (30) to be prevented from being rotated.

Description

Third stage millstone < RTI ID = 0.0 >

The present invention relates to a millstone which is traditionally used to carry grain, and more particularly to a millstone comprising three stages of a top stone, a middle stone and a bottom stone, and between the top stone and the middle stone, and between the middle stone and the bottom stone, So as to make the grain more finely and to make the taste of the food more delicious and to form a minute gap between the upper stone and the middle stone and between the middle stone and the lower stone so that the upper and lower millstones do not directly bump into each other, Thereby preventing the generation of powder and preventing harm to the human body.

Millstone is a traditional domestic pulverizer that has been used for a long time since it crushed soybeans, mung beans and other grains by the compression force between two cylindrical stones. Generally, a millstone is composed of a top stone 100, a bottom stone 110, and a handle 101 for rotating the top stone 100, as shown in FIG. An injection port 102 for injecting the grain to be ground is formed in the upper stone 100, and the injection hole 102 penetrates the upper stone 100 vertically. The periphery of the injection port 102 is formed to be concave so that the grains flow well toward the injection port. A knob 101 is formed on the side of the top stone 100. In the illustrated example, the knob 101 is fixed by the bolt 103. [ In this case, a female threaded portion (not shown) is preliminarily embedded in the corresponding top stone 100 portion. Of course, the mounting structure of the handle 101 may be different.

The contact surface between the upper stone 100 and the lower stone 110 is an inclined surface such as an umbrella which is lowered toward the periphery around the center and is formed at the center of the upper surface of the lower stone 110, (Not shown) to be inserted into the main body (not shown).

It is preferable to use a material having a large pore nature such as basalt, since the contact surface between the upper stone 100 and the lower stone 110 can be roughened by grains. In addition to basalt, granite and elvan stone can be used.

The conventional millstone continues the work of turning the upper stone 100 with the handle 101 while inserting the grain called water into the injection port 102 of the upper stone 100 little by little with water. In this case, the swollen grains are sidewardly crushed by the pressing force and the frictional force at the contact surface between the upper stalk 100 and the lower stalk 110, and the grains continue to be crushed as they flow to the outer periphery. The ground grains are discharged to the outside through a gap between the upper stones 100 and the lower stones 110 and stored in the lower storage container.

Examples of the food using the above-mentioned ground grains include a soybean meal, a soybean meal, and a mugongjeon.

The above-mentioned conventional millstone is designed to crush the grains by the pressing force and the frictional force only on the contact surface of the upper and lower stones 100 and 110, so that the grains can not be finely crushed, and there is no taste.

Further, since the conventional millstone is strongly contacted with the upper stone 100 and the lower stone 110, strong impact is applied to the contact surface thereof, and the impact portion is worn out to produce fine stone powder, which is contained in the ground product, .

Disclosure of the Invention The object of the present invention is to solve the problems of the conventional millstone as described above, and to provide a three-stage mill for grinding grain twice so as to finely grind the grain to make the grain taste more sophisticated have.

Another object of the present invention is to provide a three-stage mill for preventing generation of stones due to abrasion of the millstone by preventing strong impact between upper and lower millstones.

In order to accomplish the above object, the present invention provides a millstone for crushing grains by a pressing force between a stone and a stone, the millstone having a center hole for injecting grain to be ground, A top stone on which an inflow path is formed; A middle stone having a vertical through-hole formed at the center thereof by crushing the grains primarily by the pressing force with the upper stones, the grains flowing into the middle of the upper surface through the inflow path of the upper stones located below the upper stones; The crushed grains flowing from the edges of the intermediate stones are flowed to the central portion and the grains are secondarily crushed by the pressing force with the intermediate stones by being positioned below the middle stones. In order to discharge the crushed grains, And a discharge passage extending downward; And a central shaft penetrating through the vertical through hole of the intermediate stone, the upper shaft coupled to the upper shaft and the lower shaft coupled to the lower shaft to make the intermediate shaft rotatable, and the upper shaft and the lower shaft not rotatable; The gap between the middle stones and the lower stems is characterized by being recessed downward so that the grain can flow from the edge to the center portion.

The three-stage mill of the present invention is also characterized in that the gap between the upper and intermediate stones is formed so as to be convex upward so that the grain to be ground can flow from the center portion to the edge.

The three-stage mill according to the present invention is further characterized in that a hollow is formed in the center lower portion of the lower stone and is exposed to the outside, and the discharge passage of the lower stone is communicated with the hollow.

The three-stage mill according to the present invention is also a millstone for crushing grains by a pressing force between a stone and a stone. In the millstone, a grain inlet for injecting the grain to be ground and an inflow path for moving the injected grain to the bottom are formed at the center Top stone; A middle stone having a vertical through-hole formed at the center thereof by crushing the grains primarily by the pressing force with the upper stones, the grains flowing into the middle of the upper surface through the inflow path of the upper stones located below the upper stones; The crushed grains flowing from the edges of the intermediate stones are flowed to the central portion and the grains are secondarily crushed by the pressing force with the intermediate stones by being positioned below the middle stones. In order to discharge the crushed grains, And a discharge passage extending downward; And a central shaft penetrating through the vertical through hole of the intermediate stone, the upper shaft coupled to the upper shaft and the lower shaft coupled to the lower shaft to make the intermediate shaft rotatable, and the upper shaft and the lower shaft not rotatable; The upper surface diameter of the lower pad is formed to be larger than the lower surface diameter of the middle pad and the upper surface of the upper pad of the lower pad extending outwardly from the middle pad is inclined so that the grain flows inward.

The three-stage mill according to the present invention is further characterized in that an annular ridge is formed on an upper surface edge of the intermediate stone and a plurality of ridges extending from the ridge to the bottom surface are formed.

The three-stage mill according to the present invention is also characterized in that thrust bearings are provided between the upper and intermediate stones of the central shaft and between the intermediate stones and the lower stones to smooth the rotation of the intermediate stones, And the generation of stones due to abrasion is prevented between the lower limbs.

The three-stage mill according to the present invention is further characterized in that a heater wire is embedded in the vicinity of the upper surface of the lower shaft.

The three-stage mill of the present invention is characterized in that a heat insulating material is embedded in the periphery of the lower shaft so that heat heated by the embedded heater wire of the lower shaft is not transmitted to the outside.

Since the three-stage mill according to the present invention is designed to crush the grain between the upper and intermediate stones and between the middle stalk and the lower stalk, the grain can be more finely crushed and the grain taste becomes more sophisticated I will exert.

Since the thrust bearing is provided between the upper and lower stones and between the upper stones and the lower stones, strong shocks do not occur between the upper and lower mills, and therefore the stones are not produced by the abrasion of the millstone, It has no harmful effect on the human body.

1 is a perspective view showing a conventional millstone,
2 is a perspective view of a three-stage mill according to an embodiment of the present invention,
Fig. 3 is an exploded perspective view of a three-stage mill according to the embodiment of Fig. 2 according to the present invention,
Fig. 4 is a sectional view of a three-stage mill according to the embodiment of Fig. 2 according to the present invention,
5 is an exploded perspective view of a three-stage mill according to another embodiment of the present invention,
Fig. 6 is a sectional view of a three-stage mill in Fig. 5 according to the present invention.

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

As shown in Figs. 2 to 4, the three-stage mill is a millstone for crushing grains by a pressing force between a stone and a stone like a normal millstone. The millstone has a top stone 10, a middle stone 20, (30), and a central axis (40).

The upper portion 10 has a central portion formed with a grain inlet 11 into which the grain to be ground is put and an inflow path 12 through which the grain is moved to the bottom. The grain inlet 11 is formed in the center and the lower end of the inflow passage 12 is adapted to allow grain to flow outward at a position slightly deviated from the central axis 40.

The intermediate stone 20 is positioned below the upper stone 10 and flows through the inflow path 12 of the upper stone 10 to the edge of the upper portion of the upper surface, And a vertical through-hole 22 is formed at the center thereof. The knob 21 is coupled to the side surface of the intermediate stone 20.

The damper 30 is positioned below the middle stone 20 to allow the ground grain flowing from the edge of the middle stone 20 to flow to the center portion and to crush the grain secondarily by the pressing force with the middle stone 20. [ An annular furrow 31 and a downwardly extending discharge passage 32 are formed at a central portion of the upper surface to discharge the pulverized grain.

As shown in FIG. The upper surface diameter of the lower trunk 30 is formed to be larger than the lower surface diameter of the middle trunk 20 and the upper surface of the lower trunk 30 extending outwardly of the middle trunk 20 is inclined so that the grain flows inward .

The center shaft 40 penetrates through the vertical through hole 22 of the intermediate stone 20 and has an upper end 41 coupled to the upper stone 10 and a lower end 42 coupled to the lower stone 30, (20) to be rotatable and the upper and lower legs (10, 30) to be unrotatable. The upper end 41 and the lower end 42 of the central shaft 40 have an angular section like a quadrangle and are formed on the upper surfaces of the shaft fixing grooves 13 formed on the bottom surface of the upper trough 10 and the upper surface of the lower trough 30 The formed shaft fixing groove 34 also has a rectangular cross section so that relative rotation does not occur between the top 10 and the center shaft 40 and between the bottom shaft 30 and the center shaft 40. A portion of the intermediate stone 20 to be inserted into the intermediate stone 20 has a circular cross section and a space is provided between the vertical through holes 22 of the intermediate stone 20 to make the intermediate stone 20 rotatable.

The clearance c1 between the upper and lower halves 10 and 20 is convex upward so that the grain to be crushed can flow from the center to the edge, 30 is recessed downward so that the grain can flow from the edge to the center portion. It is preferable to make the gaps c1 and c2 as finely as possible since the upper and lower stones only need to be shocked with each other.

The lower part of the lower part of the lower part has a hollow 33 exposed to the outside and the discharge path 32 of the lower part 30 communicates with the hollow 33. A storage container 50 may be disposed in the hollow 33 to receive the pulverized grain discharged from the discharge path 32. However, the discharge path 32 may be formed to the side or bottom of the paraglider 30 to allow the crushed grains to be discharged outside the cul-de-sac 30 and the cul-de-sac 32 may be placed in a large container or connected to a hose to receive the crushed grains .

Thrust bearings 43 and 44 are provided between the upper and lower halves 10 and 20 of the center shaft 40 and between the intermediate shaft 20 and the lower crest 30, This makes it possible to smoothly rotate the intermediate stone 20 and to prevent generation of stones due to wear between the upper stone 10 and the middle stone 20 and between the middle stone 20 and the lower stone 30 .

The heater wire 60 is embedded in the vicinity of the upper surface of the metatarsal 30 so that the comminuted material flowing through the gap between the intermediate stones 20 and the metatarsal 30 is picked up during the grinding and moving process. In order to prevent the heat generated in the heater wire 60 from being transmitted to the side surface, a heat insulating material 61 is embedded around the edge of the rough pad 30.

Figures 5 and 6 illustrate another embodiment of the present invention. As shown in the figure, in another embodiment, an annular ridge 23 is formed on the upper edge of the middle stone 20 ', and a plurality of ridges 24 extending from the ridge 23 to the bottom are formed The rest is the same as the above-described embodiment.

The three-stage mill according to the present invention generally has the shape of a cauldron so that the grain can be crushed and the old mood can be felt.

The three-stage mill of the present invention constituted as described above functions as follows.

The grains to be crushed such as soybean, mung bean, etc. are inflated into water and then the grain and a small amount of water are little by little put into the grain inlet 11 of the upper stone 10. On the other hand, the knob 21 is turned to rotate the intermediate stone 20. At this time, the upper stones 10 are not rotated because they are connected to the lower stones 30 by the central axis 40.

The upper end 41 and the lower end 42 of the central shaft 40 are angled and the shaft fixing hole 13 of the upper stone 10 and the shaft fixing hole 34 of the lower shaft 30 are also engaged with the center shaft 40, The upper and lower halves 41 and 42 are angled such that the upper and lower halves 41 and 42 can be engaged with each other. The center shaft 40 does not rotate while the intermediate portion of the center shaft 40 is cylindrical and the vertical through hole 22 of the intermediate stone 20 is also cylindrical, (40).

The grain of the grain inlet 11 is finely pulverized along the inflow path 12 as it flows from the central portion of the gap c1 between the top 10 and the middle stone 20 to the edge portion.

3 and 4, the primary pulverized grain flows downward along the outer surface of the intermediate stone 20 and is received from the edge of the epidemic 30 to form a gap between the intermediate stone 20 and the epidermis 30 c2.

5 and 6, the primary pulverized grain collects in the trough 23 at the edge portion of the middle stone 20 ', and then flows down along the moving path 24, Flows into the clearance c2 of the valve body 30.

The primary pulverized grain is secondarily crushed and collected in the valleys 31 of the central portion while flowing from the edge portion of the gap c2 between the middle stones 20 and 20 'and the lower stones 30 to the central portion, (32). ≪ / RTI >

In the illustrated embodiment, a hollow 33 is formed in a lower portion of the discharge passage 32, and a storage container 50 is disposed at a lower portion thereof. Therefore, the crushed grains that have exited through the discharge path 32 flow into the storage container 50. Further, a discharge port may be formed in the storage container 50, and a discharge hose may be connected to the discharge port to allow the discharge hose to flow to an external separate container.

3 to 6, the present invention is characterized in that a thrust bearing (not shown) is provided between the upper and lower halves 10 and 20 'and between the middle halves 20 and 20' (C1) and (c2) between the stones do not cause a strong impact between the upper and lower millstones, and no stones due to abrasion occur. And smoothly rotate when the intermediate stones 20 and 20 'are turned due to the thrust bearings 43 and 44.

As shown in the drawing, a heater wire 60 may be embedded in the upper surface of the lower shaft 30. In this case, a plurality of heater holes 35 are formed on the side surface of the lower shaft 30 The heater wire 60 may be inserted therein.

The heater wire 60 was buried in order to allow the crushed material to be eaten as soon as it was drained and discharged.

An annular groove may be formed at the edge of the lower leg 30 to prevent the heat of the heater wire 60 from being transmitted to the outer side surface of the paraglider 30 so that the worker wears an image, . It is also possible to adhere the heat insulating material to the outer side surface of the dam pad 30.

As described above, the three-stage mill according to the present invention is designed to crush the grain two times between the upper stone 10 and the middle stone 20 and between the middle stone 20 and 20 'and the lower stone 30 As a result, grains can be finely milled, resulting in a more sophisticated grain taste.

Since the thrust bearings 43 and 44 are provided between the upper and lower halves 10 and 20 and the middle and lower halves 20 and 30 respectively, It does not happen. Therefore, the grinding of the millstone does not produce stones and the crushed grains have no harmful effect on the human body.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

c1, c2: Clearance
10: Top stone 11: Grain inlet
12: inlet path 13: shaft fixing groove
20, 20 ': intermediate stone 21: handle
22: vertical through hole 23: furrow
24: Moving route
30: the lower leg 31: the trough
32: discharge path 33: hollow
34: shaft fixing groove 35: heater ball
40: central axis 41: upper
42: bottom 43, 44: thrust bearing
50: storage container 60: heater wire
61: Insulation

Claims (8)

A millstone for crushing grain by a pressing force between a stone and a stone,
(10) having a grain inlet (11) into which grains to be ground are injected and an inlet (12) through which the injected grains are moved to the bottom;
The grains flowing into the center portion of the upper surface through the inflow path 12 of the upper stones 10 are caused to flow to the edge and the grains are firstly crushed by the pressing force with the upper stones 10 An intermediate stone 20 'having a vertical through hole 22 formed at the center thereof;
The crushed grains flowing from the edges of the middle stones 20 and 20 'are positioned below the middle stones 20 and 20' A rootstock 30 having an annular furrow 31 and a downwardly extending discharge path 32 formed at the center of the upper surface thereof for discharging the pulverized grains by secondarily crushing the grains;
The upper ends of the intermediate stones 20 and 20 'penetrate the vertical through holes 22 of the intermediate stones 20 and 20' and are coupled to the upper stones 10 and the lower ends thereof are coupled to the lower stones 30, And a central axis (40) that makes the top and bottom legs (10, 30) unrotatable;
Wherein a gap (c2) between the intermediate stones (20) and (20 ') and the lower stones (30) is formed to be concave downward so that the grain can flow from the edge to the center portion. The method according to claim 1, characterized in that the clearance (c1) between the top 10 and the intermediate stones 20, 20 'is convex upward so that the grain to be ground can flow from the center to the edge Three-stage millstone. The apparatus according to claim 1, wherein a hollow (33) exposed to the outside is formed at a central lower portion of the cuthole (30), and the discharge passage (32) of the cuthole (30) The three-stage mill is characterized by. A millstone for crushing grain by a pressing force between a stone and a stone,
(10) having a grain inlet (11) into which grains to be ground are injected and an inlet (12) through which the injected grains are moved to the bottom;
The grains flowing into the center portion of the upper surface through the inflow path 12 of the upper stones 10 are caused to flow to the edge and the grains are firstly crushed by the pressing force with the upper stones 10 An intermediate stone 20 'having a vertical through hole 22 formed at the center thereof;
The crushed grains flowing from the edges of the middle stones 20 and 20 'are positioned below the middle stones 20 and 20' A rootstock 30 having an annular furrow 31 and a downwardly extending discharge path 32 formed at the center of the upper surface thereof for discharging the pulverized grains by secondarily crushing the grains;
The upper ends of the intermediate stones 20 and 20 'penetrate the vertical through holes 22 of the intermediate stones 20 and 20' and are coupled to the upper stones 10 and the lower ends thereof are coupled to the lower stones 30, And a central axis (40) that makes the top and bottom legs (10, 30) unrotatable;
The upper surface diameter of the cut pieces 30 is formed to be larger than the bottom surface diameter of the intermediate pieces 20 and 20 'and the upper surface of the cut pieces 30 extending outwardly from the middle pieces 20 and 20' Is formed so as to be inclined to flow inward. 2. The apparatus according to claim 1, wherein an annular ridge (23) is formed on an upper edge of the intermediate stone (20) and a plurality of ridges (24) extending from the ridge (23) Features a three-stage mill. The thrust bearing according to claim 1, further comprising a thrust bearing (20) between the upper and lower halves (10, 20) and (20 ') of the central shaft (40) 43 and 44 are provided to smooth the rotation of the intermediate stones 20 and 20 'and smooth the rotation between the upper stones 10 and the intermediate stones 20 and 20', the intermediate stones 20 and 20 ' ) And the lower arm (30) to prevent generation of stones due to abrasion. The three-stage mill according to claim 1, wherein a heater wire (60) is embedded in the vicinity of an upper surface of the lower shaft (30). The heat exchanger according to claim 7, characterized in that a heat insulating material (61) is embedded around the edge of the lower half (30) in order to prevent the heat heated by the embedded heater wire (60) A three-stage millstone.

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