KR200487908Y1 - Apparatus for manufacturing curst of overcooked rice - Google Patents

Abstract

An upper shaping part for flattening the raw material of the rubbing raw material accommodated in the lower shaping part; a plurality of lower shaping parts for engaging with the plurality of lower shaping parts to prevent the shape of the burnishing rugs from being deformed during the production of the rubbing paper; A three-dimensional type burnishing apparatus is disclosed which includes a plurality of shape deformation preventing portions, a first conveying portion for conveying the plurality of lower forming portions, and a second conveying portion for conveying the plurality of shape deformation preventing portions.

Description

[0001] APPARATUS FOR MANUFACTURING CURST OF OVERCOOKED RICE [0002]

More particularly, the present invention relates to a device for manufacturing a three-dimensional type burnishing material, which is not a flat burnishing material, and includes a lower forming part for containing the raw material of the burning material, The present invention relates to a stereolithography apparatus capable of repeatedly producing a stereolithography device while preventing the shape of a curdle paper from being deformed or the curled paper from being broken in the course of manufacturing the curdle paper.

Conventionally, in a conventional apparatus for producing a rice cake, a raw material of a burned rice is put into a lower mold plate, and then a raw material of the burned rice is pressed using an upper cover to produce a flat type rice cake.

In some cases of the apparatus for producing rub- ber rice, there is a case where a thin depression is provided in the lower molding plate and a thin protrusion is provided in the upper lid to increase the squeezing density of the rub- ber, thereby inducing the three- I could not escape.

In addition, there was a case in which only the edge portion of the nurungji was rounded to produce a small amount of three-dimensional nurungji, or a three-dimensional nurungji was produced by hand. However, when the nurungji was baked, the shape of the burned rice was broken, Frequently, there is a limit to the production of uniform quality three-dimensional rice cake.

Korean Patent Publication No. 10-2017-0117864

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a manufacturing method of a baking sheet, which comprises a lower molding part having a concave shape and rounded to accommodate a baking material, The present invention provides a three-dimensional burnishing apparatus capable of producing a three-dimensional burnishing substance having a concave shape without deforming the shape of the burning rub during the production of the burning rub.

It is another object of the present invention to provide a method of manufacturing a sheet conveying device, which is characterized in that a plurality of lower forming parts coupled to the first conveying part and a plurality of shape deformation preventing parts coupled to the second conveying part are overlapped and conveyed, The present invention also provides a three-dimensional shaped rice burner manufacturing apparatus.

Another object of the present invention is to provide a three-dimensional burnishing apparatus capable of producing both baked burned rice and deep-fried baked rice, by providing a hot water tank capable of frying the burned rice in a part of the first conveyance unit.

Another object of the present invention is to provide a three-dimensional type burnishing apparatus capable of supplying a predetermined amount of the burning material to the lower forming unit and further controlling the amount of the supplied amount of the burning material by providing the burning material feeding unit provided with the screw conveyor.

It is another object of the present invention to provide a three-dimensional burnishing apparatus capable of producing a high-quality burned rice product without foreign matter by providing a cleaning unit for cleaning the lower forming unit after manufacturing the burned rice.

In order to achieve the above object, a three-dimensional burnishing apparatus according to the present invention includes a plurality of lower forming units for receiving a raw material of a rubbing material, an upper forming unit for flattening the raw materials of the rubbing material accommodated in the lower forming unit, A plurality of shape deformation preventing portions which mesh with the plurality of lower shaping portions to prevent deformation of the plurality of lower shaping portions, a first conveying portion that conveys the plurality of lower shaping portions, and a second conveying portion that conveys the plurality of shape deformation preventing portions .

The lower molding part may have an open top and a rounded shape of a concave shape.

The lower molding part may be provided with at least one through hole.

It is preferable that the shape of the upper shaping portion is the same as the shape of the lower shaping portion, and the size of the upper shaping portion is equal to or smaller than the size of the lower shaping portion.

The upper shaping portion may perform a rotational movement about the central axis of the upper shaping portion to planarize the raw material of the burnt material accommodated in the lower shaping portion.

The upper shaping unit can vertically move up and down.

It is preferable that the shape of the shape deformation preventing portion is the same as the shape of the lower shaping portion, and the size of the shape deformation preventing portion is equal to or smaller than the size of the lower shaping portion.

The shape deformation preventing portion may be provided with at least one through hole.

Wherein the first conveying portion includes a first shaft portion provided at one end and rotated by a driving force, a second shaft portion provided at the other end and rotated by a driving force, and a second shaft portion extending around the first shaft portion and the second shaft portion, And a moving part that rotates between the first shaft part and the second shaft part by a rotational force of the first shaft part and the second shaft part.

The plurality of lower molding parts may be detachably coupled to the moving part.

The second conveying portion includes a first rotating portion provided at one end and rotated by a driving force, a second rotating portion provided at the other end and rotated by a driving force, and a second rotating portion provided around the first rotating portion and around the second rotating portion, And a moving unit that rotates between the first rotating unit and the second rotating unit by the rotational force of the first rotating unit and the second rotating unit.

The plurality of shape deformation preventing portions may be detachably coupled to the moving part.

The second transfer unit may be spaced upward from the first transfer unit.

The first transfer unit may be rotated in a first direction, the second transfer unit may be rotated in the second direction, and the first direction and the second direction may be opposite to each other.

The stereolithography apparatus according to the present invention may further include a heat source unit for heating the raw material of the curdlan.

The heat source unit may be at least one of a gas device and an electric device.

The stereolithography apparatus according to the present invention may further include a cleaning unit for cleaning the plurality of lower forming units.

The cleaning unit may include a rotation bar, and a brush coupled to one end of the rotation bar, for cleaning each of the plurality of the lower molding parts by rotating by a rotation force of the rotation bar.

The stereolithography apparatus according to the present invention may further include a fountain raw material supply unit for supplying the fountain raw material to the lower forming unit.

The raw material feeding part may include a raw material conveying pipe and a screw conveyor provided inside the raw material conveying pipe.

The supply amount of the raw material of the burning rug can be adjusted by adjusting the rotational speed of the screw conveyor.

The raw material feeding portion is inclined with respect to the lower forming portion, so that the raw material of the raw material can be moved upward by the screw conveyor and supplied to the lower forming portion.

The stereolithography apparatus according to the present invention may further include a hot water tank for frying the frying raw material.

The hot water tank may be provided in a part of the first transfer part.

According to the present invention, since the burnishing material is produced in a state where the shape-deformation preventing portion is pressed in the raw material of the burning material accommodated in the lower molding portion of the concave shape, the burning material of the concave shape can be produced without deforming the shape of the burning- There is an advantage.

In addition, a plurality of lower forming portions coupled to the first transferring portion that rotates and moves, and a plurality of shape deformation preventing portions coupled to the second transferring portion that rotates are engaged with each other to be superimposed and transferred, Is heated and baked, so that the effect of mass-production of the three-dimensionally shaped burned rice repeatedly can be achieved.

In addition, by providing a hot water tank which can be fried in a partial region of the first conveying unit, there is an advantage that not only baked bread batter but also frying batter batter can be produced.

Further, by providing the scorch raw material supply portion provided with the screw conveyor, there is an advantage that a predetermined amount of the scorch raw material can be supplied to the lower molding portion.

Further, there is an advantage in that the feed rate of the raw material of the friable material can be controlled by adjusting the rotation speed of the screw conveyor.

Further, since the cleaning part for cleaning the empty lower forming part after the production of the burned rice is provided, it is possible to prevent the mixing of the carbonized foreign substances generated in the burning work and to produce the high quality burned rice.

In addition, at least one through-hole is provided in the shape deformation preventing portion, so that there is an advantage that the oil can be easily introduced and discharged after the hot-water operation and the hot-water operation.

Further, at least one through-hole is provided in the lower molding portion, so that there is an advantage that oil can easily flow in and out after the heating operation and the heating operation.

In addition, since the shape deformation preventing portion is superimposed on the lower forming portion to press the raw material of the rubbing raw material to prevent the shape distortion of the burning rug, it also serves to cover the lower forming portion, It is possible to achieve an effect of reducing the amount of foreign matter and preventing fallout and fallout during the manufacturing process.

In addition, since the lower forming part is detachably coupled to the first feeding part, it is possible to replace the lower forming part with various shapes, so that it is possible to produce various types of burnishing rugs.

In addition, since the upper forming part can be replaced in response to the replacement of the lower forming part, various types of burnishing rugs can be produced.

Further, the shape deformation preventing portion is detachably coupled to the second conveyance portion, so that it is possible to replace the lower shaping portion of various shapes.

FIG. 1 schematically shows a three-dimensional type burnishing apparatus according to one embodiment of the present invention.
2 schematically shows a molding apparatus including an upper molding part according to an embodiment of the present invention.
FIG. 3 is a schematic view of a first transfer part of a three-dimensional burnishing apparatus according to the present invention.
Fig. 4 is a schematic view of a second conveyance unit of the three-dimensional burnishing apparatus according to the present invention.
FIG. 5 is a schematic view illustrating a process of cleaning a lower forming part by a cleaning part of a three-dimensional type burnishing apparatus according to an embodiment of the present invention.
Fig. 6 (a) schematically shows a lower forming part according to an embodiment of the present invention.
6 (b) schematically shows a shape deformation preventing portion according to an embodiment of the present invention.
FIG. 7 is a schematic view illustrating a process of supplying a raw material of a frying rye by a raw material feeding unit of a three-dimensional type burnishing apparatus according to an embodiment of the present invention.

It is noted that the technical terms used herein are used only to describe specific embodiments and are not intended to limit the present invention. Also, the technical terms used herein should be interpreted in a sense that is generally understood by those skilled in the art to which the present invention belongs, unless the context clearly dictates otherwise. Should not be construed to mean, or be interpreted in an excessively reduced sense. Also, when a technical term used in the present specification is an erroneous technical term that does not accurately express the idea of the present invention, it should be understood that it is replaced with a technical term that can be understood by a person skilled in the art.

 In addition, the general terms used in this specification shall be interpreted according to pre-defined or contextual and shall not be construed in an excessively reduced sense.

Also, the singular forms "as used herein include plural referents unless the context clearly dictates otherwise. In the present application, the term "comprising" or "comprising" or the like should not be construed as necessarily including the various elements or steps described in the specification, Or may be further comprised of additional components or steps.

Hereinafter, the present invention will be described in more detail by way of examples, but the scope of the present invention is not limited to the following examples.

FIG. 1 schematically shows a three-dimensional type burnishing apparatus according to one embodiment of the present invention.

2 schematically shows a molding apparatus including an upper molding part according to an embodiment of the present invention.

Referring to FIG. 1, a stereolithography apparatus 100 according to an embodiment of the present invention includes a plurality of lower forming units 10, an upper forming unit 20, a plurality of shape deformation preventing units 30, A transfer unit 40, a second transfer unit 50, a heat source unit 60, a cleaning unit 70, and a hot water tank 80.

Each of the plurality of lower molding portions 10 in which the raw material of the rubbing material is accommodated is opened in an upper portion and can be formed into a concave round shape.

The raw material of the burned rice described in the present specification means a mixture of a solid raw material and water.

Unlike the conventional lower forming part having a flat shape, the lower forming part 10 according to the present invention is formed in a concave shape, so that the produced burning ridge becomes stereoscopic.

In the present embodiment, the lower molding portion 10 has a concave round shape, but it is not necessarily limited thereto, and may be various shapes in alternative alternative embodiments.

The shape of the upper molding portion 20 is the same as the shape of the lower molding portion 10. The size of the upper molding part 20 is preferably equal to or smaller than the size of the lower molding part 10.

The upper shaping part 20 performs a vertical up-and-down movement and rotates about the central axis of the upper shaping part 20. [

1 and 2, the upper forming unit 20 is connected to the motor M via a rod A. [ The upper molding portion 20 rotates around the bobbin by driving the motor M.

Further, the upper forming unit 20 is connected to the guide bushing G. When the guide bushing G is moved along the guide rod R, the upper forming unit 20 moves up and down.

The flattening operation of the upper forming unit 20 will be described below.

First, the upper forming unit 20 moves downward to be positioned in the lower forming unit 10, and the upper molding unit 20 is rotated about the upper axis by driving the motor M do.

As described above, since the upper shaping part 10 has the same shape as the lower shaping part 10 and the same size as that of the lower shaping part 10, the upper shaping part 10 can rotate in the lower shaping part 10.

Then, the upper molding part 20 is rotated, so that the raw material of the rubbing raw material stored in the lower molding part 10 can be formed flat without being pushed to one side.

After the flat forming process through the rotational motion, the upper forming unit 20 moves upwards and exits the lower forming unit 10.

When the flattening process is completed, the lower molding section 10 is moved by the transfer of the first transfer section to be described later, and the flatness of the upper molding section 20 of the next lower molding section 10 The molding process is repeated.

On the other hand, the thickness adjusting nut N shown in FIG. 2 adjusts the downward stroke distance of the air cylinder S through the screw releasing lock. This adjustment of the stroke distance is related to the adjustment of the downward movement distance of the upper forming part 20. [

When the thickness adjusting nut N is locked in the right direction, the length of the rod of the air cylinder S is shortened, and the downward movement distance of the upper forming part 20 is shortened, so that the thickness of the curled paper becomes thick. If the adjustment nut (N) is released to the left so that the length of the rod of the air cylinder (S) is longer, the thickness of the burned paper becomes thinner.

This is because only the advancing length of the air cylinder S is adjusted to adjust the thickness of the curled paper so that the backward length of the air cylinder S remains unchanged and the smooth operation of the apparatus is restored after the completion of the flat forming process.

After completion of the flat forming process, the lower molding section 10 moving is engaged with the one shape deformation preventing section 30 of the plurality of shape deformation preventing sections 30 to move.

The plurality of shape deformation preventing portions 30 are components for preventing the shape of the burnishing rugs from being deformed in the course of manufacturing the burnishing rugs.

The shape deformation preventing portion 30 is superposed on the upper side of the lower forming portion 10 which has undergone the flat forming process of the raw material of the burned material.

Since the shape of the shape deformation preventing portion 30 is the same as the shape of the lower shaping portion 10 and the size of the shape deformation preventing portion 30 is equal to or smaller than the size of the lower shaping portion 10, The shape deformation preventing portion 30 may be formed on the upper side of the lower forming portion 10.

The lower forming part 10 and the overhanging shape restraining part 30 press the raw material in the lower molding part 10.

Since the raw material of the burned rice is heated and baked in such a state, the finally produced burned rice can be concave and shaped like the shape of the lower portion 10, and the burning of the burned rice or the burning of the burned rice caused by the heating process is prevented . As a result, it is possible to produce a rice cake with excellent commercial properties.

In addition, the plurality of lower molding portions 10 and the plurality of shape deformation preventing portions 30 according to the present invention are rotationally moved by the first conveying portion 40 and the second conveying portion 50, respectively. Therefore, the production of the three-dimensionally shaped burned rice excellent in merchantability can be repeatedly performed.

FIG. 3 is a schematic view of a first transfer part of a three-dimensional burnishing apparatus according to the present invention.

Referring to FIG. 3, the first transfer part 40 may include a first shaft part 42, a second shaft part 44, and a moving part 46.

The first shaft portion 42 is provided at one end of the first transfer portion 40 and is rotated by a driving force.

The second shaft portion 44 is provided at the other end of the first transfer portion 40 and rotates by a driving force.

The moving part 46 extends around the first shaft part 42 and around the second shaft part 44 and is rotated by the rotational force of the first shaft part 42 and the second shaft part 44, And rotates between the shaft portion (42) and the second shaft portion (44).

The driving speed of the moving part 46 is adjustable.

As shown in FIGS. 1 and 3, the plurality of lower molding units 10 are coupled to the first transfer unit 40 (more specifically, the moving unit 46).

More specifically, the plurality of lower molding portions 10 are moved to the moving portion 46 with the upper portion (open portion) of the plurality of lower molding portions 10 positioned in the outer direction of the moving portion 46, Lt; / RTI >

The plurality of lower molding parts 10 are continuously rotated and moved between the first shaft part 42 and the second shaft part 44 by the rotational movement of the moving part 44 of the first transfer part 40, And this movement enables repeated mass production of the rice cake.

Further, the plurality of lower molding portions 10 are detachably coupled to the moving portion 46. Therefore, it is possible to replace the lower molding portion 10 having different widths or depths, and as a result, it is possible to produce stereoscopic burnishing rubbers of various shapes and sizes.

The first shaft portion 42 and the second shaft portion 44 may be rotated by separate driving parts. In another alternative embodiment, the first shaft 42 and the second shaft 44 may be rotated by a single drive. In another alternative embodiment, at least one of the first shaft portion 42 and the second shaft portion 44 may have its own drive.

1, the second shaft portion 44 is rotated by the driving portion D1 and the first shaft portion 42 is rotated by the rotational force of the second shaft portion 44 do.

Fig. 4 is a schematic view of a second conveyance unit of the three-dimensional burnishing apparatus according to the present invention.

Referring to FIG. 4, the second transfer unit 50 may include a first rotation unit 52, a second rotation unit 54, and a moving unit 56.

The first rotation part 52 is provided at one end of the second transfer part 50 and rotates by a driving force.

The second rotation part 54 is provided at the other end of the second transfer part 50 and is rotated by a driving force.

The moving part 56 extends around the first rotating part 52 and the second rotating part 54 and is rotated by the rotational force of the first rotating part 52 and the second rotating part 54, And rotates between the first rotating part 52 and the second rotating part 54. [

As shown in FIGS. 1 and 4, the plurality of shape deformation preventing portions 30 are coupled to the second transferring portion 50 (more specifically, the moving portion 56).

More specifically, the plurality of shape deformation preventing portions 30 are coupled to the moving portion 56 in a state in which the upper portions of the plurality of shape deformation preventing portions 30 are located in the inward direction of the moving portion 56 .

The plurality of shape deformation preventing portions 30 are continuously rotated between the first rotating portion 52 and the second rotating portion 54 by the rotational movement of the moving portion 56 of the second transferring portion 50, And this movement enables repeated mass production of the rice cake.

In addition, the plurality of shape deformation preventing portions (30) are detachably coupled to the moving portion (56). Therefore, as described above, when the shapes of the plurality of lower shaped portions 10 are changed, a plurality of the shape deformation preventing portions 30 can be replaced accordingly. As a result, it is possible to produce three-dimensionally shaped rice balls of various shapes and sizes.

The first rotating part 52 and the second rotating part 54 may be rotated by separate driving parts. In another alternative embodiment, the first rotating part 52 and the second rotating part 54 may be rotated by one driving part. In another alternative embodiment, at least one of the first rotating part 52 and the second rotating part 54 may have its own driving part.

1, the second rotating portion 54 is rotated by the driving portion D2 and the first rotating portion 52 is rotated by the rotating force of the second rotating portion 54 do.

Referring to FIG. 1, the second transfer unit 50 is spaced upward from the first transfer unit 40. The second transfer unit 50 rotates in a second direction opposite to the first direction with respect to the first transfer unit 40 rotating in the first direction.

Therefore, each of the plurality of shape deformation preventing portions 30 moved by the second transferring portion 50 can be prevented from being damaged by the overlapping portions of the upper portions of the plurality of lower forming portions 10 moved to the first transferring portion 40, .

The plurality of shape-deforming and retaining portions 30 and the lower forming portion 10 engaged with each other are moved by the second conveying portion 50 and the first conveying portion 40, respectively.

In the present embodiment, the first conveying unit 40 rotates clockwise, and the second conveying unit rotates counterclockwise, but it is obvious that the opposite relationship is established.

Between the plurality of lower forming portions (10) and the plurality of shape deformation preventing portions (30) which are moved in cooperation with each other, the raw material of the burning material is heated and baked. At this time, since the plurality of shape deformation preventing portions 30 press the raw material of the burning raw material, the finally produced burned rice is not shrunk, and the possibility of breakage is also lowered.

The heat source unit 60 is located below the plurality of lower molding units 10 containing the raw material of the rubbing material. In another alternative embodiment, the heat source portion 60 may be located below the lower molding portion 10 of a part of the plurality of lower molding portions 10 in which the raw material of the rubbing material is contained.

The heat source unit 60 may be at least one of a gas device and an electric device.

The heat source unit 60 heats the raw material of the burned rice to burn the raw material of the burned rice.

In this embodiment, the three-dimensional type burnishing apparatus includes a heat source unit, but an alternative heat source unit may not be provided in another alternative embodiment. In the case where a separate heat source unit is not provided, the heat source unit may be mounted on the plurality of lower molding units, the heat source unit may be mounted on the plurality of shape deformation preventing units, or the heat source unit may be mounted on both the plurality of lower molding units and the plurality of shape- Can be.

FIG. 5 is a schematic view illustrating a process of cleaning a lower forming part by a cleaning part of a three-dimensional type burnishing apparatus according to an embodiment of the present invention.

Referring to FIG. 5, the cleaning unit 70 may include a rotation bar 72 and a brush 74.

The cleaning unit 70 may clean the lower molding unit 10 having the empty interior after the laundry is manufactured. Through the cleaning process, a clean quality burner with no foreign matter can be produced

The rotation bar 72 is horizontally moved, and is driven by the motor 10 to rotate.

The brush (74) is coupled to one end of the rotation bar (72). The brush 74 is made of a flexible material so that it can be bent according to the inner shape of the lower molding part 10.

The cleaning process will be described as follows.

First, the brush 74 is moved to the inside of the lower molding part 10 by the movement of the rotation bar 72. Thereafter, the breakers 74 are rotated in the lower molding part 10 by the rotational force of the rotation bar 72 to clean the inside of the plurality of lower molding parts 10. When the cleaning process is completed, the rotation bar 72 is moved to its original position, and the brush 74 is moved to the outside of the lower forming unit 10.

The lower molding portion of the plurality of lower molding portions 10) is completed, the same cleaning process is repeated for the next lower molding portion.

In this embodiment, the three-dimensional type burnishing apparatus includes a cleaning unit, but the cleaning unit may not be provided in another alternative embodiment.

Referring again to FIG. 1, a three-dimensional burnishing apparatus 100 according to one embodiment of the present invention is provided with a hot water tank 80.

The hot water tank (80) may be provided in a part of the first transfer part (40).

In order to enhance the taste and texture of the rice noodle, a portion of the first feeding portion 40, preferably the second feeding portion 40 of the first feeding portion 40, The hot water tank 80 may be provided in the vicinity of the hot water tank 44.

When the heating process is completed, the lower molding part 10 and the shape deformation preventing part 30, which are engaged and moved, are drawn into the hot water bath 80. The oil in the water tub (80) flows into the lower molding portion (10) and the shape deformation preventing portion (30), and the baked burn rug is splashed with the oil that has been oiled.

At this time, in order to facilitate the inflow and outflow of oil, at least one through hole may be provided in the lower molding part 10 and the shape deformation preventing part 30. [

6 (a) schematically shows a lower molding part 10 provided with at least one through hole, and Fig. 6 (b) schematically shows a shape deformation preventing part 30 provided with at least one through hole .

Referring to FIG. 6 (a), at least one through hole H1 is provided in the lower molding part 10. The number and the size of the through holes H1 are not limited, but the size of the through holes H1 is preferably small.

6 (b), the shape deformation preventing portion 30 includes at least one through hole H2 in the main body 32 and at least one through hole H2 is formed in the cover 34 coupled to the upper portion of the main body 32. [ And a through hole H2 is provided. In this embodiment, the cover 34 has a through hole formed in the metal plate. However, the cover 34 is not necessarily limited to this, but may be in the form of a metal mesh in an alternative embodiment.

It is preferable that the size of the through hole H1 provided in the lower molding part 10 is smaller than the size of the through hole H2 provided in the shape deformation preventing part 30. [

Since the three-dimensional type burnishing apparatus according to one embodiment of the present invention is provided with the hot water tank 80, there is an advantage that it is possible to manufacture not only baked goats but also fried goats.

In the present embodiment, the three-dimensional burner manufacturing apparatus of the present invention includes the hot water tank 80, but the alternative embodiment may not include the hot water tank 80. In this case, only baked Nurungji can be produced.

FIG. 7 is a schematic view illustrating a process of supplying a raw material of a frying rye by a raw material feeding unit of a three-dimensional type burnishing apparatus according to an embodiment of the present invention.

Referring to FIG. 7, the raw material feeding portion 90 may include a raw material conveying pipe 92 and a screw conveyor 94 provided in the raw material conveying pipe 92.

The raw material of the burned rice contained in the raw material mixer (F) is supplied to the raw material feed pipe (92).

The raw material in the raw material conveying pipe 92 is supplied to the lower forming unit 10 by the rotation of the screw conveyor 94.

The skew conveyor 94 rotates by driving the motor M. By adjusting the rotation speed of the screw conveyor 94, it is possible to control the supply amount of the raw material of the fountain.

If the rotational speed of the screw conveyor 94 is increased, the amount of feed of the raw material of the burning rug is increased, and if the rotational speed of the screw conveyor 94 is decreased, the amount of feed of the burning raw material is decreased.

As shown in FIG. 7, the raw material supplying portion 90 is inclined with respect to the lower forming portion 10. Therefore, the raw material of the burned rubbing material is moved upward by the screw conveyor 94 and then dropped to the lower forming part 10. As a result, a predetermined amount of the raw material of the burned rice can be supplied to the lower forming portion 10, so that the burned rice of the same mass can be produced.

In this embodiment, the three-dimensional type burnishing apparatus according to the present invention includes a burning material feeder 90, but in another alternative embodiment, the burning material feeder 90 may not be provided. In this case, the raw material of the scorched material can be supplied to the lower forming portion 10 by a human operation.

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 exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the appended claims.

10 Lower molding part
20 upper molding part
30 shape deformation preventing portion
40 First transfer part
50 Second transfer part
60 Heat source part
70 scavengers
80 hot water tank
90 Frying Raw Material Supplier
100 three-dimensional type burnishing apparatus

Claims (23)

A plurality of lower forming parts for receiving the raw material of the baking material;
An upper shaping part for shaping the raw material of the burning rats accommodated in the lower shaping part flatly;
A plurality of shape deformation preventing portions that are engaged with the plurality of lower forming portions to prevent the shape of the burnishing paper from being deformed during the manufacturing process of the burnishing paper;
A first conveying unit for conveying the plurality of lower forming units; And
And a second conveying unit for conveying the plurality of shape deformation preventing units. The method according to claim 1,
Wherein the lower forming part is open at an upper part and has a rounded shape of a concave shape. The method according to claim 1,
Wherein the lower molding part is provided with at least one through hole. The method according to claim 1,
Wherein the shape of the upper shaping part is the same as the shape of the lower shaping part, and the size of the upper shaping part is equal to or smaller than the size of the lower shaping part. The method according to claim 1,
Wherein the upper shaping portion rotates around a center axis of the upper shaping portion to thereby flatten the raw material of the noodle accommodated in the lower shaping portion. The method according to claim 1,
Wherein the upper shaping portion is vertically moved up and down. The method according to claim 1,
Wherein the shape of the shape deformation preventing portion is the same as the shape of the lower shaping portion, and the size of the shape deformation preventing portion is equal to or smaller than the size of the lower shaping portion. The method according to claim 1,
Wherein the shape deformation preventing portion is provided with at least one through hole. The method according to claim 1,
The first transfer unit
A first shaft portion provided at one end and rotated by a driving force;
A second shaft portion provided at the other end and rotated by a driving force; And
And a moving part which extends along the periphery of the first shaft part and around the second shaft part and rotates between the first shaft part and the second shaft part by a rotational force of the first shaft part and the second shaft part Wherein the three-dimensional shape of the scraped surface of the scraped- 10. The method of claim 9,
Wherein the plurality of lower molding parts are detachably coupled to the moving part. The method according to claim 1,
Wherein the second conveying portion comprises:
A first rotating part provided at one end and rotated by a driving force;
A second rotating part provided at the other end and rotated by a driving force; And
And a moving part which extends along the periphery of the first rotating part and around the second rotating part and rotates and moves between the first rotating part and the second rotating part by the rotating force of the first rotating part and the second rotating part Wherein the three-dimensional shape of the scraped surface of the scraped- 12. The method of claim 11,
And the plurality of shape deformation preventing portions are detachably coupled to the moving part. The method according to claim 1,
And the second conveying portion is spaced upward from the first conveying portion. The method according to claim 1,
Wherein the first conveying portion rotates in a first direction and the second conveying portion rotates in a second direction,
Wherein the first direction and the second direction are opposite to each other. The method according to claim 1,
And a heat source unit for heating the raw material of the curd material. 16. The method of claim 15,
Wherein the heat source unit is at least one of a gas device and an electric device. The apparatus as claimed in claim 1, further comprising a cleaning unit cleaning the plurality of lower forming units. 18. The apparatus of claim 17,
Rotation bar; And
And a brush coupled to one end of the rotating bar to rotate each of the plurality of lower forming parts by rotating by a rotating force of the rotating bar. The stereolithography apparatus of claim 1, further comprising: a supply unit for supplying the raw material to the lower forming unit. 20. The method according to claim 19,
Raw material transfer pipe; And
And a screw conveyor installed in the raw material conveying pipe. 21. The method of claim 20,
Wherein the feeding amount of the raw material of the noodle is controlled by adjusting the rotational speed of the screw conveyor. The method according to claim 1,
Further comprising a hot water bath for frying the hot rolled rice in oil. 23. The method of claim 22,
Wherein the molten bath is provided in a part of the first conveyance unit.

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