KR101618576B1 - Manufacturing apparatus for noodle with sky slitting apparatus of dough sheet - Google Patents

Manufacturing apparatus for noodle with sky slitting apparatus of dough sheet Download PDF

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Publication number
KR101618576B1
KR101618576B1 KR1020150100775A KR20150100775A KR101618576B1 KR 101618576 B1 KR101618576 B1 KR 101618576B1 KR 1020150100775 A KR1020150100775 A KR 1020150100775A KR 20150100775 A KR20150100775 A KR 20150100775A KR 101618576 B1 KR101618576 B1 KR 101618576B1
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South Korea
Prior art keywords
slitting
noodle
noodles
roller
face
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KR1020150100775A
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Korean (ko)
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최영춘
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최영춘
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    • A23P1/10
    • A23L1/16
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D3/00Cutting work characterised by the nature of the cut made; Apparatus therefor
    • B26D3/18Cutting work characterised by the nature of the cut made; Apparatus therefor to obtain cubes or the like
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D3/00Cutting work characterised by the nature of the cut made; Apparatus therefor
    • B26D3/30Halving devices, e.g. for halving buns

Abstract

More particularly, the present invention relates to a noodle production apparatus, and more particularly, to a noodle production apparatus, a method of manufacturing a noodle making apparatus, a method of manufacturing a noodle using the same, And more particularly, to a noodle making apparatus provided with a sky slitting device for thinning a thick cotton sheet to enable the production of a larger amount of noodles.
According to another aspect of the present invention, there is provided a noodle producing apparatus for continuously producing a noodle with at least one of a hollow noodle and a general noodle by sequentially supplying a continuously rolled face plate, The thick slabs are thinned by a sky slitting device so as to be able to produce thick noodles with thicker thickness and to manufacture any one of hollow noodles and ordinary noodles, Wherein the common noodles include a circular noodle having a circular shape in cross section, a square noodle having a square or polygonal shape in cross section, and a noodle having a predetermined shape.

Description

TECHNICAL FIELD [0001] The present invention relates to a noodle making apparatus having a sky slitting device for thinning a thick face,

More particularly, the present invention relates to a noodle production apparatus, and more particularly, to a noodle production apparatus, a method of manufacturing a noodle making apparatus, a method of manufacturing a noodle using the same, And more particularly, to a noodle making apparatus provided with a sky slitting device for thinning a thick cotton sheet to enable the production of a larger amount of noodles.

In general, cereals are used to produce a variety of food products. Of course, it can be made to eat almost without deformation such as rice and barley, but in recent years, various products have been manufactured to increase consumption or make it better to eat.

Grain products traditionally enjoyed are noodles like noodles. There are well-known general round noodles, square noodles, noodles, and ramen noodles. Also, there are many kinds of noodle products such as udon noodles, noodles, and spaghetti noodles. These are collectively referred to in the present invention as 'noodles' in the manufacturing process. In other words, kneaded crushed cereal products are kneaded first to produce a wide side face, and then a plurality of thin and long-shaped noodles are produced from such side faces, and various kinds of grain products are manufactured by the following process.

The noodles in this manufacturing process are manufactured in various products by post treatment, raw materials, pretreatment process and the like. There is a circular noodle in a circular noodle, and there is a round noodle which is used for a feast noodle, a square noodle such as a noodle soup, and a functional noodle. Most hollow noodles use an extrusion method in which noodles are pushed out of the nozzle by pushing the dough with a nozzle, and a rod is provided in the middle of the nozzle to form a hole in the noodle.

In general, in the production of noodles using the cotton cloth, the cotton cloth is produced in a thin area with a large area in order to produce a larger amount. However, if the production line to be manufactured is long and thus passes through many rollers or devices, or if some device malfunctions, there is a fear that the wide and thin surface is easily damaged, thereby causing a serious problem in production.

It is particularly susceptible to damage since it makes the face thinner so as to resemble the thickness of noodles.

In addition, since the surface area is wider in order to increase the production amount, there is a problem that the space for installing the apparatus is widened, which makes the production management difficult and the cost increases.

Therefore, there is a desperate need for a technology that not only can increase the production amount but also reduce the cost, and can perform stable work in the manufacturing process.

Registered Utility Model No. 20-0263477 (February 04, 2002 announcement) Open Patent No. 10-2012-0079296 (published on July 12, 2012) Registered Patent No. 10-1119286 (Announcement on Mar. 15, 2012)

In order to solve the above-mentioned problems, the present invention provides a method of manufacturing a noodle, comprising the steps of passing a plurality of roller devices through a kneading process, receiving a continuously supplied thick sheet of cotton, And kneading the thick noodles by making noodles directly from the noodles. Therefore, even when the kneading process is performed in a large number, it is an object of the present invention to stably form the face plate so that the manufacturing process can be performed stably.

Another object of the present invention is to provide a noodle manufacturing system in which a single noodle is kneaded to produce a single noodle in a single line, .

It is a further object of the present invention to provide a method and apparatus for manufacturing different noodles in a single noodle production line.

It is a further object of the present invention to provide a method of manufacturing a hollow noodle, wherein each of the hollow noodles can be manufactured by separately providing a separate face plate by a separate face kneading process. However, according to the present invention, By making two thin sheets each, and thus producing hollow noodles, it is possible to reduce the kneading process line and increase the production cost or efficiency.

In order to achieve the above object, according to the present invention, there is provided a noodle production apparatus for continuously supplying a continuously rolled surface zone and producing at least one of a hollow noodle and a general noodle, Thick noodles and thick noodles for making noodles of more than one of the hollow noodles and the ordinary noodles are prepared, and thin slices of the thick noodles are sliced into thin noodles by using a sky slitting device, Wherein the common noodle includes any one of a circular noodle having a circular shape in cross section, a square noodle having a rectangular or polygonal shape in cross section, and a noodle having a predetermined shape And a skis slitting device for thinning the thick face sheet.

In a preferred embodiment of the present invention, the sky slitting apparatus includes: a first slitting feeding roller and a second slitting feeding roller which are sequentially supplied with a thick plate band rolled to form a thick thickness; And a blade for thinning the plate surface plate and passing through the center of the plate surface plate passing between the first slitting feeding roller and the second slitting feeding roller to form two first slitting surface plates and a second slitting surface And a skye slitting device for thinning a thick side face made of a thin cotton cloth.

In a preferred embodiment of the present invention, the blades are continuous blades continuously formed at the center between the first slitting supply roller and the second slitting supply roller and having a band shape and thinning the plate surface side, A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having continuous blades passing the outer surface; And a slitting blade pulley gap adjusting unit for adjusting a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley. The slitting blade pulley gap adjusting unit adjusts a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley. Device.

In a preferred embodiment of the present invention, the sky slitting apparatus includes a first slitting feeding roller and a second slitting feeding roller while supporting both sides of a rotation axis of the first slitting feeding roller and the second slitting feeding roller, To rotate in the same direction; And a roller gap adjusting device for adjusting a gap between the first slitting feeding roller and the second slitting feeding roller. The apparatus for manufacturing a noodles having a skye slitting device for thinning a thick face sheet .
In a preferred embodiment of the present invention, the roller rotation interlocking gear device includes a drive shaft gear, a drive shaft interlock gear, a driven shaft interlock gear, and a driven shaft gear rotatably coupled to a rotary interlocking body, The driving shaft interlocking gear rotated by the gear engagement is rotated in the opposite rotation direction and the driven shaft interlocking gear rotated by the gear interlocking gear is interlocked in the opposite direction again and the driven shaft gear coaxial with the final driven shaft is rotated The driving shaft gear and the driven shaft gear are rotated in opposite directions by being rotated in the opposite direction to the driven shaft interlocking gear and the gear engagement, and the roller gap adjusting device includes an interlocking rod portion which is rotated by the operation portion and forms a long rod shape An adjusting operation part for rotating one side roller while being rotated to both sides of the interlocking rod part; And a helical gear engaged with the helical gear of the regulating operation portion and provided with a regulating and rotating portion that does not change its position in the body of the sky slitting apparatus while being rotated; And an adjustable moving part that is reciprocated in an axial direction by a screw connection with a female screw thread at the center of the adjusting and rotating part. The apparatus for manufacturing a noodle including a skye slitting device for thinning a thick face sheet.
In a preferred embodiment of the present invention, the slitting blade pitch adjusting unit includes a slitting blade pitch adjusting unit for adjusting a pitch between the first slitting continuous blade pulley and the second slitting continuous blade pulley, A blade pulley operation portion rotated and provided with a helical gear at one side thereof; And a pulley gap adjusting rotation part formed with a helical gear interlocked with a helical gear of the blade pulley operation part, wherein the interval adjusting screw is engaged with a female thread of the center of the pulley gap adjusting rotary part, And a slitting pulley angle adjusting device for adjusting a slope of one of the first slitting continuous blade pulley and the second slitting continuous blade pulley, wherein the pulley rotation axis A pulley shaft rotating support member for rotating the pulley shaft while supporting both sides of the pulley rotation shaft so as to rotate with respect to the body of the sky slitting apparatus; And a pulley shaft tilt adjusting member which fixes the tilt angle of the pulley rotating shaft at a predetermined angle while rotating the pulley rotating shaft about the pulley shaft rotating support member. A noodle producing apparatus provided with a device.

In a preferred embodiment of the present invention, there is provided a hollow noodle manufacturing apparatus for receiving a first slitting face sheet and a second slitting face sheet from the sky slitting apparatus and producing a hollow noodle having a hollow shape And a skye slitting device for thinning a thick side face made of a thin cotton cloth.

In a preferred embodiment of the present invention, the hollow noodle producing apparatus includes: a first blow molding roller and a second blow molding roller which are supplied with two first slitting face plates and a second slitting face plate at a center; And a plurality of rod-shaped blow-molded rods positioned between the first and second slitting face plates passing between the first blow-molding roller and the second blow-molding roller, wherein the first blow- The roller and the second blow-molding roller include: a circular hollow-core outer-surface forming part positioned at the center of the hollow-shaped bar and forming an outer surface of the hollow noodle; And a hollow face band cutting portion located on both sides of the hollow nose outer face forming portion and cutting the two first slitting face portions and the second slitting face portion in the longitudinal direction. Thereby providing a provided noodle producing apparatus.

In a preferred embodiment of the present invention, the apparatus includes a noodle making apparatus for supplying noodles by receiving a first slitting face plate and a second slitting face plate from the sky slitting apparatus. A noodle producing apparatus provided with a noodling apparatus.

In a preferred embodiment of the present invention, a noodle producing apparatus for continuously producing a noodle by sequentially supplying a continuously rolled face band, the apparatus comprising: two noodle supplying units continuously supplied with both side faces, Wherein one noodle producing apparatus and the other noodle producing apparatus manufacture the same noodle or produce different noodles, and the two noodle producing apparatuses each produce noodles by means of two forming rollers, Wherein each of the shaping rollers of the noodle production apparatuses is provided to be operable to interlock with each other, and the noodle is made of any one of a circular noodle, a square noodle, a knife noodle, and a hollow noodle.

In a preferred embodiment of the present invention, any one or more of the noodle producing apparatuses is provided with a circular noodle making apparatus or a square noodle making apparatus, and the circular noodle making apparatus is provided with a thicker thickness than the noodle A square noodle manufacturing apparatus of circular cross section is manufactured by supplying face plates from a sky slitting apparatus which manufactures two thin thickness face plates by thinning the cotton noodles, The present invention provides a noodle making apparatus having a skye slitting device for thinning a thick face sheet, characterized in that square noodles of square cross section are manufactured by supplying face plates from a sky slitting device for producing thin noodles.

In a preferred embodiment of the present invention, any one or more of the noodle producing apparatuses comprises a rolled noodle producing apparatus for producing a rolled noodle having a thickness smaller than that of the face plate by rolling the supplied face noodle, Wherein the rolling noodle manufacturing apparatus includes a first rolling-up roller and a second rolling-up roller which are fed at a center of a rolling-feeding face plate thicker than the rolling noodle, and the first rolling- Wherein the forming rollers and the second rolling rollers roll the rolled noodles outwardly to form a rolled noodle outer surface shape and cut the rolled noodle rolls in the longitudinal direction to separate them into individual noodles do.

In a preferred embodiment of the present invention, there is provided a skye slitting apparatus for receiving a thick cotton sheet having a thicker thickness than a cotton sheet for producing noodles and dividing the thick cotton sheet into thin sheets so as to produce noodles, The sky slitting apparatus includes a first slitting feeding roller and a second slitting feeding roller which are continuously supplied with a thicker face sheet; And a second slitting feed roller and a second slitting feed roller, wherein the thick face sheet is thinned by passing continuously in the transverse direction at the center of the thick face sheet, thereby forming two first slitting face sheets and a second slitting face A skis slitting device for thinning a thick face sheet characterized by including a blade.

According to a preferred embodiment of the present invention, there is provided a grain product manufacturing apparatus for continuously producing a grain product by continuously feeding a continuously rolled surface sheet, the grain surface being supplied with a sequentially rolled thick surface sheet and thinning the thick surface sheet to a thin thickness, Characterized in that it comprises a sky slitting device for producing two thin thickness face sheets, each producing a grain product from two thin thickness face sheets.

According to the present invention configured as described above, a thin face sheet is formed by a skis slitting device that is thinly provided so that noodles can be manufactured by receiving a thick face sheet supplied through a kneading process while passing through a plurality of roller devices, Since the noodles are kneaded on a thick cotton cloth by making noodles, the cotton cloth can be formed in a stable shape even if a large number of kneading processes are carried out. Thus, the manufacturing process can be stably performed.

Further, another effect of the present invention is that since the noodles are divided into two noodle manufacturing apparatuses by separately kneading the single noodles in a single line kneading a single noodle, the production of noodles is increased, It will increase.

Further, another effect of the present invention is that it is possible to manufacture various noodles even in a small production facility because different noodles can be manufactured together in a single noodle production line.

Another advantage of the present invention is that, in the case of hollow noodles, each of the individual surface kneading processes may be separately provided by a separate surface kneading process. However, according to the present invention, even if a single kneading process is performed, Since each of the two thinner sides is made, and thus the hollow noodles are produced, the production process cost and efficiency are increased by reducing the kneading process line.

Further, another effect of the present invention is to produce noodles of a circular shape or the like from a thick side face, and by rolling noodles from the thick side to the last final step by the form of the rollers during the final noodle making process, To improve the texture of the rolled noodles.

1 is a perspective view of an entire configuration of an apparatus for producing a hollow noodle using the noodle making apparatus according to the present invention.
Fig. 2 is a perspective view of an overall configuration of an apparatus for manufacturing a round noodle and a square noodle together with the noodle making apparatus according to the present invention.
FIG. 3 is a perspective view of a skye slitting apparatus for slimming a face plate in a noodle making apparatus according to the present invention.
FIG. 4 is a perspective view of the other side of a skye slitting apparatus for thinning a face plate in the noodle making apparatus according to the present invention.
FIG. 5 is a view showing an example of rotation operation of a continuous blade passing through a slitting roller rotation interlocking gear device which rotates while supporting both rollers among a sky slitting device for thinning a face band in the noodle manufacturing apparatus according to the present invention to be.
FIG. 6 is a bottom perspective view of the other side of a sky slitting apparatus for slimming the face of a noodle manufacturing apparatus according to the present invention. In FIG. 6, a part of the slit pulley angle adjusting apparatus for adjusting the slope of the slitting continuous blade is shown And is a bottom perspective view omitted from FIG.
7 is a perspective view of a hollow noodle manufacturing apparatus for manufacturing a hollow noodle in the noodle making apparatus according to the present invention.
8 is a perspective view of the other side of a hollow noodle manufacturing apparatus for producing hollow noodles in the noodle producing apparatus according to the present invention.
9 is a plan view showing a state in which the first and second hollow molding rollers on both sides and the hollow molding rod positioned therebetween are shown in the hollow noodle manufacturing apparatus for producing hollow noodles in the noodle producing apparatus according to the present invention, .
10 is a view showing a state in which a thin noodle is supplied to both sides by a hollow noodle manufacturing apparatus for producing a hollow noodle in the noodle producing apparatus according to the present invention, and hollow noodles are manufactured by the rollers and the hollow- Fig. 8 is a side view explanatory diagram showing a state.
11 is an explanatory view of a process of manufacturing a hollow noodle using a hollow noodle manufacturing apparatus in an apparatus for manufacturing a noodle according to the present invention, and a state in which a part of both rollers and a hollow noodle are cut.
FIG. 12 is a perspective view of a device for manufacturing a multiplication noodle capable of producing circular noodles and square noodles together with ordinary noodles in the noodle manufacturing apparatus according to the present invention.
FIG. 13 is a view showing the state of the gears for manufacturing the noodles by separately manufacturing the noodles by means of the multiplication and noodle production apparatus supplied with the respective faces on the upper and lower sides of the noodles according to the present invention, Fig.
Fig. 14 is a perspective view of a roller rotation interlock gear device in which a plurality of pairs of rollers are interlockingly rotated in a noodle manufacturing apparatus according to the present invention. Fig. 14 (a) FIG. 14 (b) shows an example in which the gap between the drive shaft gear and the driven shaft gear is narrowed narrowly, and the interval between the both side rollers is narrow .
15 is a view showing a state in which the gears are engaged with each other and the direction in which the gears are rotated due to the rotation of the gears, Fig.
16 is a perspective view of a roller interval adjusting device for adjusting the interval of the other roller with respect to the one roller in a pair of rollers provided in a plurality of noodles in the noodle producing apparatus according to the present invention.
17 is a view showing a noodle producing apparatus according to the present invention. In the noodle producing apparatus according to the present invention, a roller supporting member for supporting a roller by means of a roller interval adjusting device for adjusting the interval of the other roller with respect to one roller, Fig. 8 is an explanatory diagram for explaining a state of being moved along a gap adjusting rail provided on a body;
18 is a perspective view of a rolled noodle manufacturing apparatus for producing a rolled noodle having a thick thickness of face sheet fed by pressure on both sides of the rollers so as to be rolled in a thin thickness, Fig. 2 is a perspective view showing a configuration in which two devices are provided.
FIG. 19 is an explanatory view illustrating a process of manufacturing a rolled noodle by pressurizing a noodle making apparatus according to the present invention, which is supplied with a thick face sheet and rolled and cut simultaneously.
20 is an explanatory diagram illustrating a process of manufacturing a rolled noodle using a rolling noodle making apparatus in an noodle making apparatus according to the present invention, and a state in which a part of both rollers and rolled noodles are cut.

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

That is, as shown in FIGS. 1 to 20, the apparatus for manufacturing noodles having the sky slitting apparatus 20 for thinning the thick face sheet according to the present invention is characterized in that a thick face sheet continuously supplied is thinned to form a thin slitting face sheet And then manufacturing hollow noodles, general circular noodles, square noodles (knife noodles, etc.) by using such a thin slitting face plate. In addition, ramen and udon can be manufactured by the noodle manufacturing apparatus according to the present invention, and it is possible to manufacture various noodles (ordinary noodles, ramen, udon, cheol-myeon, etc.) by post- It will be done. That is, according to the noodle making apparatus of the present invention, a device for manufacturing the individual noodles may be further provided, including a process of cutting the skin noodle with a skis slitting device, and the like. It is possible to add the convenience of the work. In addition, according to the device connected to the sky slitting apparatus, a circular noodle 15 having a circular section, a square noodle 16 having a rectangular or polygonal cross section, and various noodles having a predetermined shape are manufactured You can do it. The noodle for a predetermined shape may be manufactured by further having a device for cutting a star shape, an oval shape, a polygon, etc., and a predetermined length such as a tteokbokki.

In addition, the noodle making apparatus according to the present invention may use other grains, or may produce a variety of cereal products including snacks other than noodles or noodles.

That is, in a grain product manufacturing apparatus for continuously producing a grain product by continuously feeding a continuously rolled surface sheet, the apparatus comprises a step of supplying a sequentially rolled thick face sheet and thinning the thick face sheet to a thin thickness side to produce two thin- And a Sky Slitting Apparatus 20, whereby a grain product manufacturing apparatus for producing a grain product, respectively, from two thin thickness face sheets may be targeted. "Sky Slitting" means that a thin thick sheet is slitted in the sky while it is moving.

Hereinafter, the noodle manufacturing apparatus will be described with the noodle as a main target, and as the preferred embodiment thereof, the structures described with reference to the noodle manufacturing apparatus as an example can be applied to manufacture of other grain products.

In particular, as shown in the following, a sky slitting apparatus 20 (thick slurry apparatus) for receiving a thick cotton sheet having a thicker thickness than a cotton sheet for producing noodles and dividing a thick cotton sheet into thin sheets so as to produce noodles, And it is also possible to manufacture various types of noodles and other grain products by applying the sky slitting apparatus 20.

In the process of producing noodles, noodles, noodles, udon noodles, noodles, and other cereal products, noodles are rolled by pressure while passing through a plurality of rollers. It is subjected to a rolling process under pressure. In addition, this rolling process forms a thinner face sheet and produces noodles from a thinner face sheet. In addition, in the conventional manufacturing process of the face plate, a large face is used to increase the production amount. In such a case, a wide and thin face can easily be moved while passing through various rollers or devices.

However, in the noodle manufacturing apparatus according to the present invention, even if the rolling process of the face plate by the plurality of rollers is completely finished, since the face band has a thick state, the thick face plate is not easily damaged. In other words, since it is dealing with the thick side, it is stable from the viewpoint of productivity, so it is easy to handle and it can improve manufacturing production capability.

And is thinned to a thickness suitable for producing noodles by the sky slitting apparatus 20, so that the noodles are twice as large as those of the conventional width, so that the noodles can be easily handled in the entire facilities and operations .

That is to say, it provides advantages such as easy production because it manages a thick face while increasing the production amount compared with the conventional one.

In the main structure of the sky slitting apparatus 20 for this purpose, a first slitting feeding roller 21 and a second slitting feeding roller 22 are provided for continuously feeding a thicker face sheet.

Then, in the middle of the thick face sheet passing between the first slitting feed roller 21 and the second slitting feed roller 22, the thick face sheet is thinned in succession in the transverse direction and the two first slitting face plates And a continuous blade 23 made of a first slitting face plate 12 and a second slitting face plate 13.

So that the thick side faces are thinned by the successive continuous blades 23 and made of thin face plates. Then, thin noodles are used to produce hollow noodles or ordinary noodles.

Hereinafter, a noodle making apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

First, as shown in FIG. 1 and FIG. 2, a thick face plate 11 (a thick plate band) is supplied by a plurality of processes. These plates are made thick to make noodles as they are, but they can be thinned to make hollow noodles, round noodles, square noodles, cut noodles, etc. by thinning them.

That is, the noodle making apparatus is provided with a noodle making apparatus for continuously supplying the sequentially rolled face plates 11 to produce at least one of a hollow noodle and a general noodle.

According to the noodle making apparatus of the present invention, a thick face plate having a thicker thickness than that of the face plate for producing any one of the hollow noodles and the ordinary noodles is supplied, and the thick noodles 14 and / To make noodles, the skye slitting device 20 divides the thick side into thin sheets to produce one or more of noodles and ordinary noodles.

The above-mentioned general noodles include various types of noodles, such as a circular noodle 15 having a circular section or a square noodle 16 having a rectangular section.

The hollow noodle is manufactured by a hollow noodle manufacturing apparatus 40 described later, and is a noodle having a hole formed at the center thereof.

The skyslitter device 20 for manufacturing such a thin noodle for producing such noodles comprises a first slitting feeding roller 21 which is continuously supplied with a thick plate band 11, which is sequentially rolled to form a thick thickness, 21) and a second slitting feed roller (22).

The slab plate 11 is sliced to pass through the center of the plate 11 between the first slitting feeding roller 21 and the second slitting feeding roller 22, (12) and a second slitting face (13).

The blades are continuously formed at the center between the first slitting feeding roller 21 and the second slitting feeding roller 22 and are formed of a continuous blade 23 having a band shape and thinly lifting the plate surface plate 11 will be.

The first slitting feeding roller 21, the second slitting feeding roller 22 and the like are supplied with the thick plate surface plate 11 and pass through the center continuous continuous blade 23 side. For this reason, the first slitting supply roller 21 and the second slitting supply roller 22 form a round and smooth surface on the outer surface.

3 and 4, the first slitting feeding roller 21 is provided with a roller driving part (not shown) at one side of the sky slitting device 20 so as to rotate the shaft of the one roller. (Second slitting supply roller 22 in Fig. 3, Fig. 4, and the like) is interlockingly rotated.

That is, in this sky slitting apparatus, the roller rotation interlocking gear device 31 is configured to support both sides of the rotation axis of the first slitting supply roller 21 and the second slitting supply roller 22, The roller 21 and the second slitting feeding roller 22 are rotated in the same manner.

4, 5, 14, 15, and so on, the roller rotating interlocking gear device 31 in such a sky slitting apparatus has the first slitting feeding roller 21 and the second slitting feeding roller 22, (Not shown) on the other side, and a plurality of slitting rollers (not shown) for transmitting the rotational force of the one side slitting feeding roller to the other side slitting feeding roller, Interlocking gears are provided.

In other words, as shown in FIG. 15, when the first slitting supply roller 21 is an example of a drive side roller and the second slitting supply roller 22 is a driven side roller, The drive shaft gear 315 is rotated by the rotation of the drive shaft 314 by rotating the drive shaft 314 which is the shaft of the first slitting supply roller 21. [ The drive shaft gear 315 and the driven shaft gear 318 interlocked with each other are interlocked by the interlocking gears provided thereon so that the drive shaft gear 315 and the drive shaft interlocking gear 316 are rotated. The drive shaft gear 315 and the drive shaft gear 315 rotate in a direction in which the drive shaft gear 315 and the drive shaft gear 315 converge to the center of both rollers from the upper side The drive shaft interlocking gear 316 is rotated in the opposite rotational direction (counterclockwise rotation in the example of Fig. 15).

The driving shaft interlocking gear 316 and the driven shaft interlocking gear 319 rotated by the gear engaging operation are interlocked with each other in the opposite direction and the driven shaft gear 318 coaxial with the final driven shaft 317 is engaged with the driven shaft interlocking gear 318, (In the example of Fig. 15, the driven shaft 317 and the driven shaft gear 318 are rotated in the counterclockwise direction). The driven shaft 317 rotates coaxially with the second slitting feed roller 22.

The first slitting supply roller 21 coaxial with the drive shaft 314 and the second slitting supply roller 22 coaxial with the driven shaft 317 are rotated from the upper side to the center side , So that the thick face sheet supplied between these rollers is passed through the central continuous blade 23.

The driving shaft gear 315, the driving shaft interlocking gear 316, the driven shaft interlocking gear 319 and the driven shaft gear 318 are rotatably engaged with the rotation interlocking body 311 of the roller rotation interlock gear 31, .

The driving shaft support 312 to which the drive shaft gear 315 is coupled and the driven shaft support 313 to which the driven shaft gear 318 is coupled are rotatably coupled to the rotation driven body 311. Thus, in the sky slitting apparatus described later, the roller gap adjusting device 33 allows free movement when the gap between the rollers is adjusted.

Next, a roller gap adjusting device 33 for adjusting the gap between the first slitting feeding roller 21 and the second slitting feeding roller 22 is provided.

According to the roller gap adjusting device 33 of this sky slitting device, the operation portion 331 (i.e., the handle portion) for operating by the operator, the interlocking rod portion 332, and adjustment operating portions 333, 334 for moving the one roller while being rotated to both sides of the interlocking rod portion 332 are provided.

The two side regulating actuators 333 and 334 are provided to simultaneously move both axes of the rollers together so that the gap between the rollers is always constant.

The control operating portions 333 and 334 together with both sides of the interlocking rod portion 332 are provided with a helical gear for interlocking with each other and making the axial directions thereof perpendicular to each other. The adjusting operation parts 333 and 334 are provided with a helical gear and are screwed with the female screw threads of the center of the adjusting and rotating part 335 and the adjusting and rotating part 335 which does not change its position in the body of the sky slitting device 20, And a regulating movement portion 336 reciprocating in the direction of the arrow.

16, 17, and the like, the adjusting moving part 336 is engaged with the roller supporting member 337 which supports the both side shafts of the first slitting feeding roller 21, It is regulated. That is, the roller supporting member 337 is moved along the gap adjusting rail 338 formed on the body of the sky slitting apparatus 20 to adjust the gap between the both side rollers.

16 and the like, the operation portion 331 is provided as a rotary knob for allowing an operator to manually rotate the roller gap adjusting device 33. In addition, the operation portion includes a control controller (not shown) (Not shown) for automatic operation by an operator (not shown).

Next, the sky slitting apparatus 20 is provided with a continuous blade 23 positioned on both sides of the first slitting feeding roller 21 and the second slitting feeding roller 22, 23) have a first slitting continuous blade pulley (24) and a second slitting continuous blade pulley (25) passing through the outer surface. Thus, the continuous plate 23 continuously passing between the pulleys of the two pulleys pulls each other, and the thick plate of the thick plate is thinned.

And a slitting blade pitch interval adjusting unit 26 for adjusting the interval between the first slitting continuous blade pulley 24 and the second slitting continuous blade pulley 25. The slitting blade pulley gap adjusting portion 26 is disposed on one side of the first slitting feeding roller 21 and the second slitting feeding roller 22 so that the first slitting continuous blade pulley 24 and the second The interval between the slitting continuous blade pulleys 25 is adjusted.

That is, the slitting blade pitch adjusting portion 26 adjusts the interval between the pulleys with respect to the body of the skyslitter 20. That is, as shown in the example of FIG. 3, the slitting blade pitch interval adjusting section 26 includes a blade pulley operating section 261 that is rotated and has a helical gear formed on one side thereof, A pulley gap adjusting rotation unit 262 forming a helical gear is provided. The pulley-spacing adjusting pivot portion 262 only rotates at a fixed position with respect to the body of the sky-slitting device 20. The spacing adjusting portion (not shown), which is threadedly engaged with the female thread portion at the center of the pulley spacing adjusting pivot portion 262, makes the pulley body rotatably supporting the one-side pulley reciprocally movable, .

The other side of the first slitting feeding roller 21 and the second slitting feeding roller 22 is provided with a pulley driving section 22 for driving the first slitting continuous blade pulley 24 and the second slitting continuous blade pulley 25, (240).

Also, as shown in FIG. 6, a slitting pulley angle adjusting device 27 is provided to prevent the continuous blade 23 from falling off by adjusting the inclination of the pulley to wind the pulley.

The slitting pulley angle adjusting device 27 is provided with a pulley shaft rotating support member 271 which rotates while supporting both sides of the pulley rotating shaft 271 so that the pulley rotating shaft 271 rotates with respect to the body of the sky slitting apparatus 20 272 are provided. A pulley shaft tilt adjusting member 273 for fixing the pulley shaft 271 so that the pulley shaft 271 is rotated while fixing the tilting angle of the pulley shaft 271 so as not to move, .

In the pulley shaft tilt adjusting member 273, as in the example of Fig. 6, two pairs of pulley shaft tilt adjusting members 273 are provided below the pulley shaft turning support member 272 in the direction in which the two side pulleys are arranged. The pulley shaft tilt adjusting member 273 includes an adjusting bolt, and the lower portion of the pulley rotating shaft 271 is moved by the adjustment of the adjusting bolt. Due to this movement, the tilt of the pulley rotation shaft 271 is adjusted with the pulley shaft support member 272 as the center.

Accordingly, the inclination of the pulley rotation shaft 271 can be easily adjusted, thereby preventing the belt-shaped continuous blade 23 from being separated from the pulley.

The noodle making apparatus according to the present invention as described above is to make two face plates of a thin thickness by thinning the face plates of a thick thickness. By using the two face plates having such a thin thickness, We will produce round noodles, square noodles, cut noodles, etc. as noodles.

First, a hollow noodle is prepared, and two first slitting face plates 12 and a second slitting face plate 13 are supplied from the sky slitting apparatus 20, and a hollow noodle 14 for producing a hollow noodle.

The hollow noodle 14 is supplied with a first slitting face plate 12 and a second slitting face plate 13 having a small thickness by the sky slitting device 20, . Of course you can also make noodles or other grain products. In the examples of the accompanying drawings and the following examples, it is preferable that the outer surface or the central hole of the hollow noodle is circular, and the outer surface or the hole of the noodle may be formed in various shapes such as a triangle, a rectangle, .

The hollow noodle manufacturing apparatus 40 will be described in detail with reference to the accompanying drawings.

That is, the hollow noodle manufacturing apparatus 40 includes a first hollow molding roller 41 and a second hollow molding roller 42, which are centered on the two first slitting face plates 12 and the second slitting face plate 13, ). The first hollow forming roller 41 and the second hollow forming roller 42 are formed of two rollers. The first hollow forming roller 41 and the second hollow forming roller 42 are formed of two rollers. The interlocking gear device 31, the roller gap adjusting device 33, and the like may be applied. And a description thereof will be omitted.

In this hollow noodle manufacturing apparatus 40, the shaft of one roller is rotated by a separate driving device (not shown) in both of the rollers as shown in FIGS. 7 and 8, and the two rollers are rotated in opposite directions (A rotation in which the upper portion converges to the center). And a member for adjusting the distance between the rollers. The one side roller may reciprocate along the rail formed on the body of the hollow noodle manufacturing apparatus 40 to adjust the interval between the rollers. With this adjustment, the two rollers are close to each other and divided into a plurality of individual hollow noodles from a large area face sheet.

And a plurality of bar-shaped members (not shown) positioned between the two first slitting face plates 12 and the second slitting face plate 13 passing between the first blow molding roller 41 and the second blow molding roller 42 And includes a number of hollow-shaped bars 43. Thus, a hole is formed at the center of the hollow noodle 14 by the hollow molding rod 43.

9, the first hollow molding roller 41 and the second hollow molding roller 42 are arranged such that the hollow molding rod 43 is positioned at the center and has a circular hollow nose forming the outer surface of the hollow noodle An outer surface forming portion 44 is provided. And a hollow plane cut portion 45 located on both sides of the hollow nose outer surface forming portion 44 and cutting the first and second slitting face portions 12 and 13 in the longitudinal direction.

1, thick skins are thinly supplied to the hollow noodle making apparatus 40 by the two first slitting face plates 12 and the second slitting face plate 13 by the sky slitting apparatus 20. That is, both sides of the hollow sidewall forming the wide side are combined with both sides of the hollow noodle by the first and second hollow molding rollers 41 and 42 of the hollow noodle manufacturing apparatus 40 to produce one hollow noodle have.

Thus, the wide side faces are divided into individual hollow noodles by the hollow face cutting portion 45 while passing through both side hollow noodle forming rollers.

The outer surface of each hollow noodle is formed in the form of a hollow noodle outer surface forming portion 44 inside the hollow surface cutting portion 45. In the example of FIG. 9 and the like, the hollow noodle outer surface forming portion 44 is formed in a circular shape so that a hollow noodle forming an outer surface of a circular shape is produced. On the other hand, in the case of having another form of outer surface forming part, a hollow noodle constituting the outer surface of the corresponding form may be manufactured.

As described above in connection with the rotation of the rollers in the skyslitter 20, the rotary shafts of the first and second hollow forming rollers 41 and 42 are connected to the hollow roller rotary interlock gear device 46, 10, the first and second blow-molding rollers 41 and 42 are rotated so as to be directed toward the center of each other at the upper portions of the first and second blow-molding rollers 41 and 42, respectively. 10, the first blow-molding roller 41, which is a left-hand roller, is rotated in a clockwise direction to guide the first slitting face plate 12 supplied from the left upper portion to the center, while the right- The second blow-molding roller 42 is rotated in the counterclockwise direction to guide the second slitting face 13 supplied from the upper right portion to the center. Thus, the first and second slitting face plates 12 and 13 can meet with each other.

However, the center is hollowed out by the central hollow molding rod 43.

Next, the ordinary noodles are produced from the thin thickness face sheets supplied from the sky slitting apparatus 20 prepared as described above. Such general noodles may be circular noodles having a circular cross section, rectangular noodles having a square shape, and knife noodles.

That is, the noodle making apparatus includes a noodle making apparatus for supplying the first slitting face plate 12 and the second slitting face plate 13 from the sky slitting apparatus 20 to manufacture noodles.

2, FIG. 12, and the like show one embodiment of a noodle manufacturing apparatus capable of manufacturing a general noodle, wherein noodles are manufactured at two places, such as a round noodle (15) and a square noodle (16) The present invention has been made in view of the above circumstances.

That is, the noodle production apparatus for continuously supplying the continuously rolled cotton noodles to produce noodles, comprising: a noodle manufacturing apparatus 50 for continuously supplying two cotton noodles and supplying the two cotton noodles to the same or different noodles, .

Such a multipurpose noodle manufacturing apparatus 50 is one in which the one noodle producing apparatus and the other noodle making apparatus manufacture the same noodle or produce different noodles. In particular, the two side noodle manufacturing apparatuses each produce noodles by two forming rollers, and the forming rollers of both side noodle manufacturing apparatuses are provided so as to operate in conjunction with each other. Thus, the noodle produced by the multiplication noodle manufacturing apparatus 50 may be any one of circular noodles, square noodles, cut noodles, and hollow noodles.

On the other hand, as a preferred embodiment of the multiplication and addition noodle production apparatus 50 as in the example of the accompanying drawings, any one or more of the noodle production apparatuses of the both side noodle production apparatuses is connected to the circular noodle production apparatus 60 or the square noodle production apparatus 70 ) May be provided.

A plurality of rollers are also provided in the circular noodle manufacturing apparatus 60 and the rectangular noodle manufacturing apparatus 70. The arrangements for adjusting the intervals therebetween or interlocking with each other may be the same as those of the roller- The gear device 31, the roller gap adjusting device 33, and the like, and a description of some of the same components will be omitted.

A circular noodle making apparatus 60 for supplying the first slitting face plate 12 from the sky slitting apparatus 20 to the circular noodle manufacturing apparatus 50 for producing circular noodles 15 having a circular cross section is provided .

This circular noodle producing apparatus 60 is to produce the circular noodle 15 by receiving the first slitting face plate 12 manufactured by thinning the thick face plate from the sky slitting apparatus 20 as shown in Fig.

The circular noodle manufacturing apparatus includes two rollers, and includes a first circular noodle forming roller 61 and a second circular noodle forming roll 61 which are supplied with a first slitting face plate 12 having a thin thickness on one side, And a roller 62.

Further, the first round noodle forming roller 61 and the second round noodle forming roller 62 may be provided with a circular noodle forming section having a circular face.

And a circular noodle face cutting unit located on both sides of the circular noodle forming unit and cutting the first slitting face plate 12 on one side. Thus, the first slitting face plate 12 having a wide plate shape is divided into a plurality of circular noodles by the circular noodle face cutting unit.

In addition, a circular noodle molding unit may be provided so that the outer shape of the circular noodles has a circular shape.

The apparatus also includes a square noodle making apparatus 70 for supplying a second slitting face plate 13 from the sky slitting apparatus 20 to produce a square noodle 16 having a rectangular cross section .

These square noodles are generally rectangular in shape and can be used as cut noodles.

The rectangular noodle making apparatus 70 includes a first rectangular noodle forming roller 71 and a second rectangular noodle forming roller 72 which are fed to the center of the other side of the thin plate dough.

The first rectangular noodle forming roller 71, the second rectangular noodle forming roller 72, and the like have a plurality of square nested groove forming portions each having a square groove.

And a square noodle molding outer surface constituting outer sides of both sides of the square nose groove forming section.

The outer face of the square noodle molding of the one square noodle forming roller can be inserted a predetermined distance into the square noodle groove forming portion which is the groove of the other square noodle forming roller.

Thus, the outer surfaces of the square noodle rollers of the rollers on both sides overlap with each other by a predetermined distance in a protruded state, whereby the second slitting face sheet supplied to the wide face is divided into individual rectangular noodles.

Thus, the rectangular noodle producing apparatus 70 can produce square noodles 16 and knife noodles having a rectangular cross-section by a square noodle groove forming portion and a square noodle forming outer face of both rollers.

In this way, in the multiplication and noodle production apparatus, the noodles can be produced twice as much by supplying two continuously supplied face plates to the noodle manufacturing apparatuses on one side and the other side, respectively. As shown in the example in FIG. 12, when different noodles are manufactured, various types of noodles can be produced together.

In addition, when both noodle manufacturing apparatuses produce the same kind of noodles, they can be manufactured by doubling one kind of noodles.

This is advantageous in that it can be produced in larger quantities or in a variety of noodles. Therefore, it is possible to reduce the facility of the noodle manufacturing apparatus, and it is advantageous in that the production amount can be increased even if the same space or equipment is used.

In such a multiplication noodle production apparatus, when both side noodle manufacturing apparatuses are provided so as to be fixed to one body as in the example of Fig. 12, the driving force may be transmitted only by one roller and the remaining rollers may be interlocked.

That is, the multiplication noodle production apparatus has four noodle forming rollers in total, as in the case of the circular noodle manufacturing apparatus 60 and the rectangular noodle manufacturing apparatus 70.

So that the power can be transmitted to the driving rotary shaft 51, which is the rotary shaft of the one-side noodle forming roller. The other rollers of the same-noodle production apparatus are also rotated together in the opposite rotation direction by the drive rotary shaft gear 52 of the drive rotary shaft 51 and the gear-engaged driven rotary shaft gear 53.

In addition, the two roller shafts of the other noodle production apparatus are also rotated in opposite directions to each other by gearing the other manufacturing shaft gears 54 to each other.

12 and 13, a noodle making interlocking gear 55 (56) having two intermediate gears is provided between the driving rotary shaft gear 52 of the driving rotary shaft 51 and the shaft gear 54 of the other noodle producing apparatus, ). The other two rollers are also rotated in the direction from the upper side to the center by the noodle manufacturing interlocking gears 55 and 56 composed of these two gears.

As shown in FIG. 12, the roller contact member 57 is provided to push both outer rollers inward of the rollers inward, so that the face sheet continuously fed in a large area can be cut well.

Thus, both noodle manufacturing apparatuses can rotate stably in the direction of rotation in which the noodles can be manufactured by the interlocking configurations of the noodles even if only four rollers are provided and only the rotation axis of one roller is driven.

Thus, it is possible to manufacture more various noodles even in a single noodle manufacturing apparatus, and also it is possible to produce a large amount of noodles.

In addition, as shown in Fig. 18 to Fig. 20, etc., a rolling noodle manufacturing apparatus may be provided in which noodles are manufactured from a multistage rolled face plate, and the rolling process is further added to produce noodles will be.

That is, any one or more of the noodle manufacturing apparatuses may be composed of a rolled noodle producing apparatus 80 for rolling the supplied face plate to produce a rolled noodle 81 having a thickness thinner than the face plate. Therefore, noodles, noodles, etc., are produced through a number of rolling processes, and as the rolling process is added, the noodles and noodles produced from the noodles have a more firm texture. Thus, the noodle produced by the rolling noodle manufacturing apparatus according to the present invention is further rolled and manufactured in the final process of noodle making, thereby having a more chewy texture.

In addition, in the case where both side noodle manufacturing apparatuses are composed of the rolled noodle manufacturing apparatus 80, since the rolled rolled noodles are doubled in size, they can be produced in a larger amount. The rolling noodle thus produced is cut according to the size of the noodle package, and the process of rolling and cutting (cutting and discharging the noodle) is performed at the same time, so that the rolled noodle can be manufactured easily.

In this rolled-noodle manufacturing apparatus 80, the four rollers of the both-side noodle manufacturing apparatus are interlocked and rotated.

The rolled noodle producing apparatus 80 includes a first rolling roll 83 and a second rolling roll 84 which are fed to the center of the rolling feed face 82 thicker than the rolled noodle 81 .

The first rolling rollers 83 and the second rolling rollers 84 are provided with a rolling feed surface 82 and a rolling noodle outer forming part (not shown) that rolls the rolling noodles formed outside and forms a rolling noodle outer surface shape 85 are provided to form a rolled-up noodle.

And a rolling surface cutting portion 86 located on both sides of the rolled-noodle outer surface forming portion 85 and cutting the rolling feed surface 82 in the longitudinal direction into individual noodles. The thickness ('c') of the rolling feed side, which is originally supplied by rolling the outside of the rolling feed side 82 and the outside of the rolling noodle to be formed, d ') will make the noodles rolled more thinner, so that the noodles will have a higher density and a chewy texture.

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. The technical idea of the present invention should not be construed as being limited.

11: Plate face plate 12: First slitting face plate
13: second slitting face 14: hollow noodle
15: Round noodle 16: Square noodle
20: Sky slitting device 21: First slitting feed roller
22: second slitting feed roller 23: continuous blade
24: first slitting continuous blade pulley 25: second slitting continuous blade pulley
26: Slitting blade interval adjusting part 31: Slitting roller rotation interlocking gear device
33: roller gap adjusting device
40: hollow noodle manufacturing apparatus 41: first hollow molding roller
42: Second hollow molding roller 43: Blow molding rod
44: hollow noodle outer surface forming part 45: hollow plane cutting part
60: Circular noodle manufacturing apparatus 70: Square noodle manufacturing apparatus

Claims (12)

And then continuously supplying the rolled face plates continuously to produce at least one of the noodles and the ordinary noodles,
Thick noodles which are thicker than cotton noodles for producing any one of noodles, hollow noodles and ordinary noodles, and a thick face plate is provided as a sky slitting device so that any one of the noodles of hollow noodles and ordinary noodles can be manufactured A noodle producing apparatus for producing a noodle of at least one of a hollow noodle and a general noodle by dividing the noodle into thin slices,
The sky slitting apparatus includes:
A first slitting feeding roller and a second slitting feeding roller which are continuously supplied with a thick plate band which is sequentially rolled to form a thick thickness; And
And a blade for thinning the plate surface plate passing through the center of the plate surface plane passing between the first slitting feed roller and the second slitting feed roller to produce two first slitting surface plates and a second slitting surface,
Wherein the blade is a continuous blade continuously formed at the center between the first slitting supply roller and the second slitting supply roller and having a strip shape to thin the surface plate of the plate,
The sky slitting apparatus includes:
A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having a continuous blade passing the outer surface; And
And a slitting blade pulley gap adjusting unit for adjusting a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley. The apparatus for manufacturing a noodle with a thin slippery face slicing device .
The method according to claim 1,
The above-
A circular noodle having a cross section in the form of a circle, a square noodle having a square or polygonal cross section, and a noodle having a predetermined shape,
And a slitting blade pulley gap adjusting unit for adjusting a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley,
Wherein the slitting blade pitch interval adjusting unit comprises:
A blade pulley operation portion rotated and provided with a helical gear at one side thereof; And
And a pulley gap adjusting rotation unit formed with a helical gear interlocked with a helical gear of the blade pulley operation unit,
Wherein the pulley-spacing adjusting pivot portion reciprocates the one-side pulley by a spacing adjustment movable portion screwed into the female screw thread at the center of the pulley spacing adjusting pivot portion,
And a slitting pulley angle adjusting device for adjusting a slope of one of the first slitting continuous blade pulley and the second slitting continuous blade pulley,
The slitting pulley angle adjusting device comprises:
A pulley shaft rotating support member for rotating the pulley rotating shaft while supporting both sides of the pulley rotating shaft so as to rotate with respect to the body of the sky slitting apparatus; And
And a pulley shaft tilt adjusting member which fixes the pulley rotary shaft at a predetermined angle while rotating the pulley rotary shaft about the pulley shaft rotating support member. The noodle producing apparatus comprising:
delete The method according to claim 1,
The sky slitting apparatus includes:
A roller rotating interlocking gear device that rotates the first slitting feeding roller and the second slitting feeding roller equally while supporting both sides of the rotating shaft of the first slitting feeding roller and the second slitting feeding roller; And
And a roller gap adjusting device for adjusting a gap between the first slitting feeding roller and the second slitting feeding roller,
The roller rotation interlocking gear device includes a drive shaft gear, a drive shaft interlock gear, a driven shaft interlock gear, and a driven shaft gear that are rotatably coupled to the rotation interlocking body,
The driving shaft gear and the driving shaft interlocking gear rotated by gear engagement are rotated in the opposite rotational direction,
The driving shaft interlocking gear and the driven shaft interlocking gear rotated by the gear engaging operation are interlocked with each other in the opposite direction and the driven shaft gear coaxial with the final driven shaft is rotated in the opposite direction to the driven interlocking gear and gear interlock, The driven gear is rotated in the opposite direction,
Wherein the roller interval adjusting device comprises:
An interlocking rod portion which is rotated by the operating portion and forms a long rod shape, an adjusting operation portion which is rotated to both sides of the interlocking rod portion to move the one roller;
And a helical gear engaged with the helical gear of the regulating operation portion and provided with a regulating and rotating portion that does not change its position in the body of the sky slitting apparatus while being rotated; And
Wherein the adjustable moving part includes an adjustable moving part that is axially reciprocated by screwing with a female screw thread at the center of the adjusting and rotating part.
The method according to any one of claims 1, 2, and 4,
And a hollow noodle manufacturing apparatus for receiving the two first slitting face plates and the second slitting face plate from the sky slitting device and producing a hollow noodle having a hollow shape. The noodle producing apparatus having a feeding device.
6. The method of claim 5,
In the hollow noodle producing apparatus,
A first blow-molding roller and a second blow-molding roller which are supplied with center portions of the two first slitting face plates and the second slitting face plate; And
And a plurality of rod-shaped blow-molded rods positioned between the first and second slitting face plates passing between the first blow-molding roller and the second blow-molding roller,
The first blow-molding roller and the second blow-
A hollow hollow external surface molding part positioned at the center of the hollow molding rod and forming an outer surface of the hollow noodle; And
And a hollow face band cutting portion located on both sides of the hollow nose outer face forming portion and cutting the two first slitting face portions and the second slitting face portion in the longitudinal direction, wherein the hollow face band cutting portion is provided with a thin slicing face slicing device Korean Noodle making equipment.
The method according to any one of claims 1, 2, and 4,
Wherein the first slitting face plate and the second slitting face plate are supplied from the sky slitting device to produce a noodle, wherein the noodle is thinned.
A noodle producing apparatus for continuously producing a noodle by sequentially feeding a continuously rolled face plate,
And supplying the two side plates continuously to manufacture the same or different noodles,
One noodle manufacturing apparatus and the other noodle manufacturing apparatus manufacture the same noodle or produce different noodles,
The two side noodle manufacturing apparatuses each produce noodles by means of two forming rollers, each of the forming rollers of the side noodle manufacturing apparatuses being provided for interlocking operation with each other,
Wherein the noodle comprises any one of a circular noodle, a square noodle, a curry noodle, and a hollow noodle,
Wherein at least one of the noodle producing apparatuses is provided with a circular noodle making apparatus or a square noodle making apparatus,
The circular noodle manufacturing apparatus includes a face slip device for producing a circular noodle having a circular cross section by supplying a face plate from a sky slitting device for producing two thin face plates by thinning a face band supplied at a thicker thickness than the noodle,
The square noodle making apparatus comprises a face slip device provided with a face slip device for producing two thin sloped face slices by thinning the face slip supplied at a thicker thickness than the noodle,
The sky slitting apparatus includes:
A first slitting feeding roller and a second slitting feeding roller which are sequentially rolled and continuously supplied with a face sheet having a thick thickness; And
And a blade for thinning the plate surface plate passing through the center of the plate surface plane passing between the first slitting feed roller and the second slitting feed roller to produce two first slitting surface plates and a second slitting surface,
Wherein the blade is a continuous blade continuously formed at the center between the first slitting supply roller and the second slitting supply roller and having a strip shape to thin the surface plate of the plate,
The sky slitting apparatus includes:
A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having a continuous blade passing the outer surface; And
And a slitting blade pitch interval adjusting unit for adjusting an interval between the first slitting continuous blade pulley and the second slitting continuous blade pulley.
delete A noodle producing apparatus for continuously producing a noodle by sequentially feeding a continuously rolled face plate,
And supplying the two side plates continuously to manufacture the same or different noodles,
One noodle manufacturing apparatus and the other noodle manufacturing apparatus manufacture the same noodle or produce different noodles,
The two side noodle manufacturing apparatuses each produce noodles by means of two forming rollers, each of the forming rollers of the side noodle manufacturing apparatuses being provided for interlocking operation with each other,
Wherein the noodle comprises any one of a circular noodle, a square noodle, a curry noodle, and a hollow noodle,
Wherein at least one of the two noodle producing apparatuses comprises a rolled noodle making apparatus for rolling a supplied face plate to produce a rolled noodle having a thickness thinner than the face plate, Lt; / RTI >
Wherein the rolling noodle production apparatus includes a first rolling-up roller and a second rolling-up roller which are fed to the center of the rolling-feeding face plate thicker than the rolling noodle,
Wherein the first rolling rollers and the second rolling rollers roll the rolled noodles outwardly and form a rolled noodle outer surface shape, cutting the rolling rollers in the longitudinal direction into individual noodles,
The two side noodle manufacturing apparatuses are manufactured by supplying noodles from a sky slitting apparatus which thinly turns on a face plate supplied at a thicker thickness than the noodle to produce two thin face plates,
The sky slitting apparatus includes:
A first slitting feeding roller and a second slitting feeding roller which are sequentially rolled and continuously supplied with a face sheet having a thick thickness; And
And a blade for thinning the plate surface plate passing through the center of the plate surface plane passing between the first slitting feed roller and the second slitting feed roller to produce two first slitting surface plates and a second slitting surface,
Wherein the blade is a continuous blade continuously formed at the center between the first slitting supply roller and the second slitting supply roller and having a strip shape to thin the surface plate of the plate,
The sky slitting apparatus includes:
A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having a continuous blade passing the outer surface; And
And a slitting blade pitch interval adjusting unit for adjusting an interval between the first slitting continuous blade pulley and the second slitting continuous blade pulley.
And a sky slitting device which is supplied with a thick face plate having a thicker thickness than the face plate for producing noodles and divides the thick face plate into thin faces so as to manufacture noodles,
The sky slitting apparatus includes:
A first slitting supply roller and a second slitting supply roller which are continuously supplied with a thick-thickness face sheet; And
A continuous blade which continuously passes in a transverse direction at the center of a thick face sheet passing between the first slitting feed roller and the second slitting feed roller and thinly thickens the face sheet to produce two first slitting face sheets and a second slitting face / RTI >
A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having a continuous blade passing the outer surface; And
And a slitting blade pulley gap adjusting unit for adjusting a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley.
1. A grain product manufacturing apparatus for continuously producing a grain product by continuously feeding a continuously rolled surface sheet,
And a sky slitting device for receiving a sequentially rolled thick face sheet and thinning the thick face to a thin thickness to produce two thin thickness face sheets,
Each grain product is prepared from two thin-walled liners that are thinned,
The sky slitting apparatus includes:
A first slitting feeding roller and a second slitting feeding roller which are sequentially rolled and continuously supplied with a face sheet having a thick thickness; And
And a blade for thinning the plate surface plate passing through the center of the plate surface plane passing between the first slitting feed roller and the second slitting feed roller to produce two first slitting surface plates and a second slitting surface,
Wherein the blade is a continuous blade continuously formed at the center between the first slitting supply roller and the second slitting supply roller and having a strip shape to thin the surface plate of the plate,
The sky slitting apparatus includes:
A first slitting continuous blade pulley and a second slitting continuous blade pulley positioned on both sides of the first slitting supply roller and the second slitting supply roller and having a continuous blade passing the outer surface; And
And a slitting blade pulley gap adjusting unit for adjusting a gap between the first slitting continuous blade pulley and the second slitting continuous blade pulley.
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Publication number Priority date Publication date Assignee Title
KR100264612B1 (en) * 1998-02-27 2000-09-01 최영춘 Noodle-making apparatus having hollow part and hollow noodles
KR100608806B1 (en) 2004-06-03 2006-09-08 구뜨누보 주식회사 Noodles manufacturing apparatus
JP2008207266A (en) * 2007-02-26 2008-09-11 Toray Ind Inc Slicer

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Publication number Priority date Publication date Assignee Title
KR100264612B1 (en) * 1998-02-27 2000-09-01 최영춘 Noodle-making apparatus having hollow part and hollow noodles
KR100608806B1 (en) 2004-06-03 2006-09-08 구뜨누보 주식회사 Noodles manufacturing apparatus
JP2008207266A (en) * 2007-02-26 2008-09-11 Toray Ind Inc Slicer

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KR20180020700A (en) * 2016-08-19 2018-02-28 최영춘 Manufacturing system for noodle having slope embossing line
KR101871458B1 (en) * 2016-08-19 2018-06-26 최영춘 Manufacturing system for noodle having slope embossing line

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