KR102166173B1 - Repeat rolling type automatic noodle sheet manufacturing equipment - Google Patents

Abstract

The present invention relates to a repeated rolling type automatic noodle sheet manufacturing device and, specifically, to a new technological concept for automatically manufacturing a high-quality noodle sheet having excellent noodle quality and texture by repeating a process of cutting one noodle sheet to make two noodle sheets and then rolling the two noodle sheets into one noodle sheet. The conventionally disclosed noodle sheet rolling device is configured to perform the process of rolling two noodle sheets to one noodle sheet only once so that an air layer remains inside the noodle sheet, and the overall noodle sheet quality is markedly degraded because the surface is not smooth. The present invention, as a way to eliminate this problem, devises a technique to repeat multiple times the processes of transferring one noodle sheet to a second upper conveyor by a second direction changing means after one noodle sheet transferred by a first upper conveyor is rolled while passing through a noodle sheet rolling means, when placed on the second upper conveyor and a second lower conveyor at the same time, manufacturing two noodle sheets as a second cutting machine cuts the noodle sheet, rolling the two noodle sheets located at the same time on the second upper conveyor and the second lower conveyor to one noodle sheet while passing through the noodle sheet rolling means, transferring the one rolled noodle sheet to a first upper conveyor by a first direction changing means, when placed on the first upper conveyor and a first lower conveyor at the same time, manufacturing two noodle sheets as a first cutting machine cuts the noodle sheet, and rolling the two noodle sheets located at the same time on the first upper conveyor and the first lower conveyor into one noodle sheet while passing through the noodle sheet rolling means.

Description

Repeat rolling type automatic noodle sheet manufacturing equipment

The present invention relates to a new concept of technology for automatically manufacturing a high-quality noodles having excellent noodle quality and texture while repeating the process of cutting one noodle pad to make two noodle pads and then rolling the two noodle pads to one noodle pad.

In general, in the manufacture of noodles such as Jajangmyeon, in general, food powder such as flour and a material containing water are mixed and stirred to form a dough mass, and the dough mass is rolled to a predetermined thickness to form a strip. A noodle sheet is produced, and a noodle string is manufactured by cutting the noodles into a predetermined width and length.

These noodle products have become the mainstream in the food culture in modern times. Therefore, Chinese restaurants, snacks, snack bars, dumpling houses, and other small snack restaurants are the mainstream among the restaurant businesses opening or starting in the modern society. This is why small-capital startups are possible and the risk of business is small compared to other business types. Start-ups are frequently occurring in many regions.

However, the problem in small-scale restaurants as described above is that there are insufficient hands to manufacture the noodles by kneading flour every day, and there is a lack of skilled technicians for manufacturing the skilled noodles. Therefore, recently, the noodles produced in these restaurants were requested to be supplied to specialized noodle factories and used on that day.

In the above-described noodle mill, in the production of noodle bands for the purpose of improving noodle quality, etc., a composite rolling apparatus is used to manufacture a single composite noodle by stacking a plurality of noodle pads and then rolling them.

As a prior art related to a composite rolling device for manufacturing such a face plate, "Korean Patent Publication No. 10-2019-0006439, name/face plate rolling device" has been disclosed.

The prior art includes a supply device for supplying a complex noodle dough, a preparation unit for forming and delivering a plurality of noodle pads by rolling the noodle dough, a transfer unit for transferring a plurality of noodle pads sent from the preparation unit, and a transfer unit sent from the transfer unit. It has a composite portion which additionally rolls a plurality of nested face plates and forms one composite face plate.

The prior art is configured to perform the process of rolling two face plates to one face plate only once, so that an air layer remains inside the face plate, and the surface quality is not smooth, resulting in a problem that the overall quality of the face is significantly deteriorated.

In the present invention, while repeatedly transferring the noodle plate from side to side, one noodle pad is made into 2 noodle pads, 2 noodle pads are rolled to make 1 noodle pad, and the rolled noodle pad is made into 2 noodle pads again, and then two noodle pads are made. The main object of the invention is that the air layer is completely removed while repeating the process of making one noodle plate by rolling, and it is possible to automatically manufacture a high quality noodle plate with a smooth surface.

In addition, the present invention is a means for achieving the above object, after the one sheet conveyed by the first upper conveyor is rolled while passing through the face plate rolling means, and then converted to the second upper conveyor by the second direction changing means. When being simultaneously positioned on the second upper conveyor and the second lower conveyor while being transported, a second cutting machine cuts the face plate to manufacture two face plates, and the two face plates simultaneously located on the second upper conveyor and the second lower conveyor are face plates. While passing through the rolling means, the rolled sheet is rolled to the first upper conveyor by means of the first direction changing means and transferred to the first upper conveyor and the first lower conveyor. The first cutting machine cuts one face plate to manufacture two face plates, and the two face plates simultaneously located on the first upper conveyor and the first lower conveyor pass through the face plate rolling means and are rolled to one face plate. Develop a technique that allows you to repeat it multiple times.

According to the present invention, by repeatedly performing the process of making one faceplate by rolling two faceplates after making two faceplates of one faceplate, the air layer inside the faceplate is completely removed and high-quality faceplate with smooth surface is automatically produced. It is manufactured, and using such a cotton pad, it provides the effect of not only being able to manufacture a chewy and resilient noodle, but also a non-blown noodle.

Moreover, by implementing the manufacturing of such a cotton pad by automation, it not only saves manpower and time, but also greatly improves productivity, and provides an effect of preventing injury to workers during the manufacturing process.

1 is a front view of a repeating rolling type automatic face plate manufacturing apparatus to which the present invention is applied
Figure 2 is a front cross-sectional view of the present invention repeat rolling type automatic face plate manufacturing apparatus
3 is a state diagram in which the face plate is transferred by the first upper conveyor of the present invention
4 is a cross-sectional view taken along line AA of FIG. 3 of the present invention
5 is a state diagram in which the face plate is transferred by the first orbiting conveyor and the second orbiting conveyor of the present invention
Figure 6 is a front cross-sectional view of a state in which the face plate is rolled by the rolling roller of the present invention
7 is a front view and a side cross-sectional view of the second direction changing means of the present invention
Figure 8 is a side cross-sectional view of the operating state of the second direction changing means of the present invention
9 is a front cross-sectional view of the second direction changing means of the present invention
Figure 10 is a front cross-sectional view of a state in which the second turning conveyor of the present invention is turned upward
11 is a front cross-sectional view of a state in which the face plate passes through the second turning suit of the present invention
12 is a front cross-sectional view of the cutting state of the face plate by the second cutting machine of the present invention
13 is a state diagram in which two face plates cut by a second lower conveyor and a second upper conveyor of the present invention are simultaneously transferred
Figure 14 is a state diagram in which the face plate of the present invention is transferred to the second turning conveyor
15 is a front cross-sectional view of a state in which two face plates are rolled by the rolling roller of the present invention and then transferred to the first turning conveyor
16 is a front cross-sectional view of a state in which the first turning conveyor of the present invention is turned upward
Figure 17 is a front cross-sectional view of a state in which the face plate passes through the 12 turning suit of the present invention
18 is a state diagram in which two face plates cut by the first lower conveyor and the first upper conveyor of the present invention are simultaneously transferred
19 is a state diagram in which the face plate of the present invention two sheets is transferred to the first turning conveyor
20 is a front cross-sectional view of a state in which two face plates are rolled by the rolling roller of the present invention and then transferred to a second turning conveyor
21 is a state diagram in which the second turning suit of the present invention is turned upward
Figure 22 is a front view of the present invention face plate forming and installation state of the supply device
23 is a front sectional view of the present invention face plate forming and installation state of the supply device
Figure 24 is a front view of the present invention filler mounting plate

It will be described with respect to a preferred embodiment for implementing the solution to the problem to be solved by the present invention in more detail.

Looking schematically based on the accompanying drawings, the overall configuration according to a preferred embodiment of the present invention, the surface roll means 10, the first direction changing means 20 and the second direction changing means (20a), the first turning conveyor ( 30) and the second orbiting conveyor 30a, the first lower conveyor 40 and the second lower conveyor 40a, the first upper conveyor 50 and the second upper conveyor 50a, the first cutting machine 70 and It can be seen that the second cutting machine 70a, the first turning suit 80, and the second turning suit 80a are largely divided into components.

Hereinafter, it will be described in more detail to facilitate the implementation of the present invention made of the schematic configuration.

In the present invention, a face-to-face rolling means 10 provided with a pair of rolling rollers 12 is installed in the upper center of the main body 1, and the pair of rolling rollers 12 is the upper center of the main body 1 It is rotatably installed up and down between the roller support plates 11 respectively installed before and after, and the connecting rods 13 are connected to both upper sides of the roller support plate 11 to maintain solid strength.

Such a pair of rolling rollers 12 rolls the first supplied face plate N having a thickness of 16 mm to have a thickness of 8 mm, and then rolls the cut two face plates N having a thickness of 8 mm to a thickness of 8 mm. It performs the role of making one facetable (N) with a composite.

Here, the rolling roller 12 is coated with a Teflon outer skin to prevent the face plate N from sticking to each other during the rolling process, thereby preventing the surface of the face plate N from being locally dropped or pitted. N) can be made, and by preventing slip between the rolling roller 12 and the face plate N, it provides a special effect to more smoothly roll the face plate N.

The first direction changing means 20 and the second direction changing means 20a having the same structure at intervals are installed on both sides of the face plate rolling means 10 in a mutually symmetric manner, and the first direction changing means 20 And the second direction switching means (20a) is a face stand (20a) by turning the guide chute 25 and the first turning conveyor 30 installed in the interior of the hoisting frame 23, which is elevating according to the operation of the lifting cylinder 22 Change the direction of N) to enter the first upper conveyor 50, or turn the guide chute 25 and the second turning conveyor 30a upward to allow the face plate N to enter the second upper conveyor 50a. Performs a special function of changing direction.

The first direction changing means 20 and the second direction changing means 20a have the same structure, and as shown in FIG. 7, the lifting frame housing 21 of a rectangular body with both sides open at the upper end of the main body 1 is Doedoe installed, the upper plate 21-1 of the hoisting frame housing 21 is formed to be inclined so that the hoisting cylinder 22 can be installed in an inclined manner, so that the hoisting frame 23 moves left and right in the process of raising and lowering the hoisting frame 23 One side is coupled to the first orbiting conveyor 30 and the second orbiting conveyor 30a is able to smoothly pivot up and down.

And the hoisting frame 23 inserted into the interior of the hoisting frame housing 21 is open on both left and right sides, and is freely raised and lowered by being connected to the elevator cylinder 22 installed on the upper plate 21-1, and the hoisting frame ( 23), an inclined suit 24 and a guide suit 25 are respectively installed at the top and bottom of the inside of the shaft 23, and a guide rod coupled through the front/rear plates 23-2 and 23-3 of the hoisting frame 23 Both sides of (26) move up and down along the guide holes (21-4) formed in the front/rear plates (21-2) (21-3) of the hoisting frame housing (21), so that the hoisting frame (23) does not rotate. You can get up and down smoothly.

Between the rolling roller 12 and the guide chute 25, a pair of first orbiting conveyors 30 and second orbiting conveyors 30a having the same structure are installed, and the first orbiting conveyor 30 and The second turning conveyor 30a is selectively approached to the first upper conveyor 50 or the second upper conveyor 50a while turning upward as shown in FIG. 10 when the hoisting frame 23 is raised and lowered, so that the rolling roller 12 It is possible to switch the traveling direction of the face plate N so that the face plate N rolled through can enter the first upper conveyor 50 or the second upper conveyor 50a positioned on the upper side.

Such a first orbiting conveyor 30 and a second orbiting conveyor 30a are each rotatable between a pair of roller support plates 11 before and after the roller shaft 31 of one side constitutes the face-to-face rolling means 10. In addition to being installed, the roller shaft 32 on the other side is rotatably installed on the front/rear plates 23-2 and 23-3 of the hoisting frame 23, so that it can be smoothly used using the power of the motor 2 It becomes possible to rotate forward/reverse.

A first lower conveyor 40 and a second lower conveyor 40a having the same structure adjacent to the first direction changing means 20 and the second direction changing means 20a, respectively, are installed symmetrically to each other. The 1 lower conveyor 40 and the second lower conveyor 40a can be rotated between the roller shafts 41 on both sides of a pair of roller supports 42 and 42a installed before and after the upper end of the main body 1, respectively. Is installed.

In addition, a first upper conveyor 50 and a second upper conveyor 50a having the same structure are installed symmetrically on the upper part of the first lower conveyor 40 and the second lower conveyor 40a. The upper conveyor 50 and the second upper conveyor 50a are rotatable between the roller shafts 51 on both sides between a pair of roller supports 42 and 42a respectively installed before and after the upper end of the main body 1 Installed.

Here, before and after the first upper conveyor 50 and the second upper conveyor 50a, a pair of fixing brackets 91 are installed in two stages as shown in FIG. 4 on the upper end of the main body 1, and the fixing brackets ( The first lower conveyor 40, the second lower conveyor 40a, the first upper conveyor 50, and the second upper conveyor are respectively located on the opposite inner surface of 91) and the opposite inner surface of the roller support 42, 42a. The belt sag prevention plate 90, which prevents the conveyor belt B of the conveyor 50a from sagging, is integrally attached to prevent sagging of the conveyor belt (B) when transporting and transporting the face plate (N) to ensure smooth conveyance. Provides a special effect to exert.

Further, a guide groove 93 is formed in the center of the belt deflection prevention plate 90 along the longitudinal direction as shown in FIG. 4, and the guide groove 93 protrudes along the longitudinal direction on the inner surface of the conveyor belt (B). By inserting the formed linear guide (B-1), the conveyor belt (B) does not slip back and forth, and can rotate smoothly while forming a straight path.

On the other hand, at a point adjacent to the front end of the first upper conveyor 50 and the second upper conveyor 50a, a cutter 74 is used to cut one rolled face plate N into two face plates N, respectively. The cutting pedestal 60 is installed to support the cutting pedestal 60, and the front and rear sides of the cutting pedestal 60 are integrally attached to the opposite inner surface of the pair of roller supports 42, 42a, and the cutting pedestal 60 A first cutting machine 70 and a second cutting machine 70a for cutting the face plate N are installed at the top of the plate.

In the first and second cutting machines 70 and 70a, the cutting cylinder 72 is installed at the upper end of the cylinder holder 71 attached to the upper end of the roller support 42, 42a, and the cutting cylinder 72 ), an angle-shaped cutter (74) is attached to the bottom of the cylinder rod (73), so that the face plate (N) placed on the cutting support (60) is cut to make one face plate (N) into two. There will be.

In addition, between the cutting pedestal 60 and the first lower conveyor 40, between the cutting pedestal 60 and the second lower conveyor 40a, the semicircular first turning suit 80 and the second turning Chutes 80a are installed symmetrically to each other.

Here, the first turning chute 80 is attached to the fixing rod 81 connected to the upper end of the roller support 42, so that it always maintains a fixed state and plays a role of turning the moving direction of the face plate N. , The second turning chute 80a is attached to the rotating rod 82 connected to the upper end of the roller support 42a, as shown in FIG. 11, and the cylinder holder 83 installed at the upper end of the roller support 42a and the discharge cylinder 84 ).

Therefore, by securing a discharge path through which the producted face plate N through the final rolling while turning upward according to the operation of the discharge cylinder 84 to be discharged to the outside through the second lower conveyor 40a, the face plate N It provides the effect of smoothly discharging to the outside.

A description will be made of a process of automatically manufacturing a high-quality face plate N through the repeated rolling process of the face plate N according to the present invention having such a configuration.

Preferentially, one face plate N having a thickness of 16 mm supplied to the first upper conveyor 50 is transferred by the first upper conveyor 50 to pass through the face plate rolling means 10 while passing 8 mm as shown in FIG. After being rolled to the thickness of the second turning conveyor (30a) and the guide chute (25) turned upward by the second direction switching means (20a), the direction is changed to the second upper conveyor (50a) and transferred. 2 When turning is performed by the turning chute (80a) and one face plate (N) is simultaneously positioned on the second upper conveyor (50a) and the second lower conveyor (40a), the second cutting machine (70a) Cut to make two face plates (N), and two face plates (N) located at the same time on the second upper conveyor (50a) and the second lower conveyor (40a) pass through the face plate rolling means (10), and one face plate ( N) can be rolled.

And one rolled face plate (N) is turned to the first upper conveyor 50 via the first turning conveyor 30 and the guide chute 25 turned upward by the first direction changing means (20). The first cutting machine 70 is 1 when the first upper conveyor 50 and the first lower conveyor 40 are positioned at the same time while turning is performed by the first turning chute 80. By cutting the long face plate (N) to make two face plates (N), and the two face plates (N) located at the same time on the first upper conveyor 50 and the first lower conveyor 40, the face plate rolling means 10 As it passes, the process of rolling into a single face plate (N) is repeated many times.

Therefore, by repeatedly performing the process of making one face plate (N) by rolling two face plates (N) again after making two face plates (N) of one face plate (N), It completely removes the air layer and provides a special effect that can automatically mass-produce high-quality cotton pads with smooth surfaces.

On the other hand, in the present invention, a face plate (N) is made while pressing a rectangular dough mass (3) on the upper part of the main body (1) adjacent to the start end of the first upper conveyor (50) so that it becomes thinner gradually. A technology in which a face plate forming and supplying device 100 is installed that serves to supply to the conveyor 50 is additionally grafted.

Such a face plate forming and supplying device 100 is continuously arranged in an inclined manner between a pair of forming roller support plates 101 and 101a before and after being installed in an inclined manner at the upper end of the main body 1 as shown in FIGS. 22 to 24. A plurality of rotatable upper forming rollers 110 are installed, and a plurality of lower forming rollers 120 are installed at the lower portion of the upper forming roller 110 so as to rotate in mesh with each other so as to be rotated in reverse. The roller 120 is installed to gradually approach the upper forming roller 110 from the top to the bottom, so that the forming furnace 102 formed between the upper forming roller 110 and the lower forming roller 120 is an inlet ( 103) becomes narrower toward the outlet 104.

The upper forming roller 110 and the lower forming roller 120 receive the power of the motor 4 through a plurality of chains 5 and are automatically rotated together.

A supply chute 130 for supplying the face plate N formed by the first upper conveyor 50 is installed at the outlet 104 on the lower side between the upper molding roller 110 and the lower molding roller 120, and the upper side An input chute 140 for inputting the dough mass 3 is installed in the inlet 103 of the.

Therefore, the dough mass 3 put into the inlet 103 is more smoothly discharged by its own weight along the forming furnace 102 formed in an inclined shape between the upper forming roller 110 and the lower forming roller 120. It can be moved to the side, and it is compressed in this process and is gradually formed into a thin-walled noodle plate (N), and in particular, a thick dough mass (3) is gradually compressed step by step without a single compression, and a thin-walled noodle plate ( By being molded into N), it provides the effect of forming the face plate (N) long without interruption.

In addition, between the upper forming roller 110 and the lower forming roller 120, a filler mounting plate 150 is attached to the inner surface of the forming roller support plate 101, 101a, respectively, and the filler mounting plate 150 A plurality of roller insertion portions 151 are continuously formed at the top and bottom, and both sides of a plurality of gap fillers 152 filling the gaps between the lower forming rollers 120 are formed on the inner surface between the roller insertion portions 151. By being integrally fixed, it provides a special effect of preventing a phenomenon in which the dough mass 3 is caught between the lower molding rollers 120 and does not move smoothly to the bottom.

In addition, the upper forming roller 110 and the lower forming roller 120 are coated with a Teflon outer skin so that the dough mass 3 does not stick during the compression process in the same manner as the rolling roller 12, It provides a special effect that can make a high-quality face plate (N) by preventing the surface from falling off or dents locally.

B: Conveyor belt B-1: Straight guide
N: face plate 1: main body
3: dough mass 10: noodle roll means
11: roller support plate 12: rolling roller
20: first direction switching means 20a: second direction switching means
21: hoisting frame housing 21-1: upper plate
22: lifting cylinder 23: lifting frame
24: inclined suit 25: guide suit
30: first turning conveyor 30a: second turning conveyor
40: first lower conveyor 40a: second lower conveyor
42, 42a: roller support 50: first upper conveyor
50a: second upper conveyor 60: cutting pedestal
70: first cutting machine 70a: second cutting machine
71, 83: cylinder holder 72: cutting cylinder
74: cutter 80: first turning suit
80a: second turning suit 81: fixing rod
82: rotating rod 84: discharge cylinder
90: belt deflection prevention plate 91: fixing bracket
93: guide groove: 100: cotton sheet forming and feeding device
101, 101a: forming roller support plate 102: forming furnace
103: inlet 104: outlet
110: upper forming roller 120: lower forming roller
130: supply suit 140: input suit
150: filler mounting plate 151: roller insert
152: crevice filler

Claims (10)

A face-to-face rolling means (10) installed in the upper center of the body (1) and provided with a pair of rolling rollers (12);
The inclined chute 24 and the guide chute 25 are installed symmetrically on both sides of the face-to-face rolling means 10 at intervals, and respectively up and down the interior of the hoisting frame 23 that is elevating according to the operation of the lifting cylinder 22 ) And a first direction changing means 20 and a second direction changing means (20a) installed;
Doedoe installed symmetrically between the rolling roller 12 and the guide chute 25, while turning upward when the lifting frame 23 is raised, the first upper conveyor 50 or the second upper conveyor 50a selectively A first orbiting conveyor 30 and a second orbiting conveyor 30a adjacent to each other;
A first lower conveyor 40 and a second lower conveyor 40a installed symmetrically to each other adjacent to the first direction changing means 20 and the second direction changing means 20a;
A first upper conveyor 50 and a second upper conveyor 50a installed symmetrically on top of the first lower conveyor 40 and the second lower conveyor 40a;
A first cutting machine (70) and a second cutting machine (70a) installed on the top of the cutting pedestal 60 installed adjacent to the front ends of the first and second upper conveyors 50 and 50a, respectively;
A first turning suit 80 and a second turning symmetrically installed between the cutting pedestal 60 and the first lower conveyor 40 and between the cutting pedestal 60 and the second lower conveyor 40a. On the one hand made of the chute 80a;
After the one sheet of face plate N conveyed by the first upper conveyor 50 is rolled while passing through the face plate rolling means 10, it is directed to the second upper conveyor 50a by the second direction changing means 20a. When the second upper conveyor (50a) and the second lower conveyor (40a) are simultaneously positioned while being converted and transferred, the second cutting machine (70a) cuts the face plate (N) to make two face plates (N), and the second Two face plates (N) located at the same time on the upper conveyor (50a) and the second lower conveyor (40a) are rolled into one face plate (N) while passing through the face plate rolling means (10), and one rolled face plate (N) The first cutting machine (70a) is converted to the first upper conveyor (50) by the first direction switching means (20) and is simultaneously positioned on the first upper conveyor (50) and the first lower conveyor (40). A cuts one faceplate (N) to make two faceplates (N), and two faceplates (N) located at the same time on the first upper conveyor 50 and the first lower conveyor 40 are formed by a faceplate rolling means (10). A repeat rolling type automatic face plate manufacturing apparatus, characterized in that the process of rolling into one face plate (N) is repeated many times while passing through).
The method of claim 1,
The face plate rolling means (10) is a repeating rolling type automatic face plate manufacturing apparatus, characterized in that a pair of upper and lower rolling rollers (12) are installed between the roller support plates (11) respectively installed around the upper center of the main body (1).
The method of claim 1,
The first direction changing means 20 and the second direction changing means 20a are provided with a hoisting frame housing 21 with both sides open at the upper end of the main body 1, and inside the hoisting frame housing 21 The inserted hoisting frame 23 is connected to the elevator cylinder 22 installed on the upper end of the hoisting frame housing 21, and the inclined suit 24 and the guide chute 25 are respectively located above and below the inside of the hoisting frame 23. The guide rod 26 is installed and coupled through the front/rear plates 23-2 and 23-3 of the hoisting frame 23, and the front/rear plates 21-2 of the hoisting frame housing 21 ) Repeat rolling type automatic face plate manufacturing apparatus, characterized in that it moves up and down along the guide hole (21-4) formed in (21-3).
The method of claim 1,
In the first orbiting conveyor 30 and the second orbiting conveyor 30a, a roller shaft 31 on one side is rotatably installed on a roller support plate 11 of the face-to-face rolling means 10, respectively, and a roller shaft on the other side ( 32) is a repeating rolling type automatic face plate manufacturing apparatus, characterized in that it is rotatably installed on the front and rear plates 23-2 and 23-3 of the hoisting frame 23, respectively.
The method of claim 1,
The first lower conveyor 40 and the second lower conveyor 40a are rotatably installed under the roller supports 42 and 42a in which the roller shafts 41 on both sides are installed before and after the top of the main body 1, respectively. In the first upper conveyor 50 and the second upper conveyor 50a, the roller shafts 51 on both sides are rotatably installed on the top of the roller supports 42 and 42a. Manufacturing equipment.
The method of claim 5,
The cutting support 60 has both sides attached to the roller support 42, 42a, and the first cutting machine 70 and the second cutting machine 70a are cylinders attached to the top of the roller support 42, 42a. Repetitive rolling type automatic face plate manufacturing apparatus, characterized in that the cutting cylinder 72 is installed on the upper end of the fixing table 71 and a cutter 74 is attached to the lower side of the cylinder rod 73 of the cutting cylinder 72.
The method of claim 5,
The first turning suit 80 is attached to the fixing rod 81 connected to the upper end of the roller support 42, and the second turning suit 80a is attached to the rotating rod 82 connected to the upper end of the roller support 42a. In addition to being attached, it is connected to the cylinder holder 83 installed on the upper end of the roller support 42a and the discharge cylinder 84, and turns upward according to the operation of the discharge cylinder 84 to produce a product through the second lower conveyor 40a. Repeated rolling type automatic noodle plate manufacturing apparatus, characterized in that discharging the noodle plate (N) to the outside.
delete The method of claim 1,
Adjacent to the starting end of the first upper conveyor 50, the dough mass 3 is compressed to gradually thinner at the upper part of the main body 1 to make a face plate N and then supply it to the first upper conveyor 50. While the face plate forming and feeding device 100 is additionally installed;
The face plate forming and supplying device 100 includes a plurality of upper forming rollers 110 installed to be continuously rotated forward and backward in an inclined manner between a pair of forming roller support plates 101 and 101a before and after;
A plurality of lower molding rollers 120 which are installed to be reversely rotated to correspond to the lower part of the upper molding roller 110 and gradually approach the upper molding roller 110 from the top to the bottom;
It is characterized in that consisting of a supply chute 130 that is installed in the outlet 104 on the lower side between the upper forming roller 110 and the lower forming roller 120 to supply the face plate N to the first upper conveyor 50 Repetitive rolling type automatic noodles manufacturing device.
The method of claim 9,
Between the upper forming roller 110 and the lower forming roller 120, a filler mounting plate 150 is attached to the inner surfaces of the forming roller support plates 101 and 101a, respectively, and the top and bottom of the filler mounting plate 150 A plurality of roller insertion portions 151 are formed in succession, and both sides of the gap filler 152 that fill the gap between the lower forming rollers 120 are fixedly installed on the inner surface between the roller insertion parts 151 Repetitive rolling type automatic noodle plate manufacturing device.

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