KR20150044688A

KR20150044688A - Noodle manufacturing device

Info

Publication number: KR20150044688A
Application number: KR20130124046A
Authority: KR
Inventors: 이근영
Original assignee: 이근영
Priority date: 2013-10-17
Filing date: 2013-10-17
Publication date: 2015-04-27

Abstract

The present invention discloses a cut-noodle manufacturing apparatus. The cut-noodle manufacturing apparatus uses a reciprocating transfer means to move one side of an incision target fixed by a rear plate and a side plate in a reciprocating motion between a support plate and a cutter to make the incision target to come in contact with the edge of the cutter to be cut off by a predetermined thickness. Accordingly, the present invention can ensure the thickness of the noodles cut in the apparatus to be even. The cut-noodle manufacturing apparatus also enables the noodles to be mass-produced and come in a length longer than that of the noodles manufactured by a conventional apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a cutting apparatus for cutting a cutting object fixed to a cutting plate by a reciprocating feed means while being reciprocated between a support plate and a cutter, And moreover, it is possible to provide a large number of cutting faces longer than the length of the face.

Generally, the saengmyeon is made with hard kneaded dough, then cut with a sharp knife, and it is served as a noodle boiled in a large pan. The difference is in the process of making the dough surface with a general surface which is made by putting the dough into the dough machine or making the dough into a plurality of strands by the sutas work.

However, in order to provide dodecahedron, it is necessary to hire a chef who specializes in dodecadon so that the public can not easily access the dodecadal, and the economical burden of employing professional chefs is increased, and in addition, It is disadvantageous in that the texture of the cutting surface is visually reduced.

On the other hand, Korean Patent Registration No. 1126199 discloses an example of a cotton manufacturing apparatus in which a motor is installed inside a case, a charging port for charging the kneaded product into a kneader is formed, and a rotating shaft, which is rotated by the power of the motor, And an extruding means for extruding the kneaded product to the outlet side of the kneading cylinder is provided on the rotary shaft and the kneaded product extruded by the extruding means is discharged to the outside The dough discharging means comprising an inner plate and an outer plate which are coupled with each other at a predetermined interval so as to have a flow space for the dough discharging means to be coupled to the end of the rotary shaft, And the dough discharging means is provided so as to be close to the outer circumference of the plate and the outer plate, And a connecting tube portion formed to protrude from a central portion of the inner side plate is coupled to the inside of the reinforcing bar by a bearing so that the outlet and the connecting tube portion are communicated with each other. And the inner plate and the outer plate are rotated simultaneously by engaging the outer plate with the engaging pin protruding from the outer plate of the inner plate in a state where the outer plate is sandwiched between the outer plate and the rotating shaft, And a plurality of guiders for radially projecting the kneaded material outward are formed in the front portion of the inner plate.

Korean Patent Laid-Open Publication No. 10-2012-0016166 discloses a cutter for producing a diced surface, wherein the inside has a smooth pipe shape, the mouth of the shape of the pipe is provided to cut the dough, And the outlet of the shape of the pipe is provided so as to come out of the pipe so as to grasp the body grip portion and push the dough into the mouth And the dough is compressed by the friction with the inner surface of the body and the surface is formed, and the formed surface is pushed backward and is discharged to the outlet by centrifugal force in the air. &Quot; Technology has been disclosed.

Korean Patent Registration No. 0547598 discloses a cutting machine having a frame provided with a cutting board on its upper side and a shaft bar provided on one side thereof in parallel with a cutting board, a cutter positioned on the upper side of the cutting board and moving up and down with a shaft rod as a hinge axis, And an automatic transfer section for transferring the position of the knife in a predetermined interval on the shaft in accordance with the automatic transferring section. A base integrally formed at an end of the cutter; First and second conveying members integrally formed on both sides of the lower portion of the base and rotatably and slidably mounted on the shaft rods; A position setting member rotatably and slidably mounted on the shaft rod at one side of the first transfer member; And a feed unit for advancing the position setting member to one side in proportion to the height of the cutter when the cutter is lifted and for moving the base when the base is lowered.

In addition, Korean Utility Model Publication No. 20-1991-0001270 discloses a method in which a kneading water pressure roller and a kneading roller are installed stepwise under a kneading extruder at the tip of a kneader provided with a spiral roller therein, Quot ;, " automatic press "," automatic press ", and " cutting "

In order to solve the above-described problems, the present invention provides a method of cutting a cutting object fixed by a thick plate and a side plate to a cut portion of a cutter in a process of reciprocating between a support plate and a cutter by reciprocating feed means, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a roughing surface producing apparatus capable of providing a large amount of roughing surfaces having a uniform thickness but longer than a length of a normal flaking surface.

In order to accomplish the above object, the present invention provides a cutter for cutting one side of an object to be cut, the cutter being connected to a motor and being rotatably installed in a state where a cutting site is exposed to the body; The cutter is installed on the main body at a distance from the cutter portion of the cutter so that the one side face of the cutter is in close contact with the cutter, A support plate; A transfer plate which is provided behind the support plate and reciprocates between the support plate and the cutter by the reciprocating transfer means so that one side face of the cut object fixed by the side plate contacts the cut portion of the cutter; The apparatus for manufacturing a diced surface according to claim 1,

In addition, the cutter is formed in a planar shape on the inner side where the object to be cut is in contact, and the outer surface is formed in a convex shape outward so that the dross surface away from the object to cut off naturally flows down.

Further, the cutting thickness adjusting means may include a nut portion formed to extend forward of the support plate and having a female threaded portion formed therein; A male screw portion which is screwed in correspondence with the female thread portion of the nut portion; And a handle portion extended from the front of the male screw portion and exposed and installed to be rotatably supported by the main body.

Further, the reciprocating conveying means comprises a conveying nut installed at a lower portion of the conveying plate, in which a lower end of the side plate is tilted in a top surface transverse direction to form a movable guide groove; The conveying screw is installed under the conveying plate and has a moving space in which the conveying nut can be moved to the left and right. A bearing is provided to the lower left and right sides of the moving space, and both ends of the conveying screw are rotated One end of the feed screw is connected to the servo motor so that the feed screw which is screwed to the feed screw is rotated in the moving space along the screw formed on the outer periphery of the feed screw while the feed screw is rotated in the normal direction by the operation of the servo motor And a base plate capable of moving left and right.

In addition, the guide groove may be formed in a trapezoidal shape having a wider width toward the bottom, and the lower end of the corresponding side plate may be formed in a shape corresponding to the guide groove.

Further, the thick plate is brought into close contact with the other side surface of the object to be cut by the tightening means, and pushes the object to be cut toward the support plate in the cutting process of the object to be cut by the cutter.

Further, the contact means includes a working space provided inside the transfer plate having a moving groove for guiding the movement of the thick plate in the longitudinal direction of the upper surface thereof; A guide rod coupled to the inside of the operating space and having a support spring and a lower plate sequentially inserted; A supporting spring for pushing the object to be cut toward the support plate while being stretched by an interval at which the object is cut in the cutting process of the object to be cut by the cutter while pushing the other side face of the object to be cut backward by the lower plate, And a control unit.

In addition, the object to be cut may be rolled up to provide a dipping surface having a maximum length, or alternatively, the dough may be stacked in a zigzag with a predetermined width so that one side faces the cutter.

Further, the object to be cut is frozen in a freezing chamber so as not to be deformed in shape during the cutting process by the cutter.

In addition, the object to be cut is characterized by being kept frozen at a temperature of minus 5 degrees to 20 degrees for 30 minutes to 60 minutes.

According to the present invention, one side face of the object to be cut fixed by the thick plate and the side plate is cut to a predetermined thickness in contact with the cut portion of the cutter in reciprocating movement between the support plate and the cutter by the reciprocating feed means, But it is possible to provide a large amount of dipping surface which is longer than a general flushing length.

1 is a plan view according to an embodiment of the present invention;
2 is an enlarged view of a reciprocating transfer device according to an embodiment of the present invention;
3 is an enlarged view of a tightening means according to an embodiment of the present invention;
FIG. 4 is an assembled state of a side plate according to an embodiment of the present invention; FIG.
5 is a side view of a cutting object according to an embodiment of the present invention.
Fig. 6 is a process diagram of cutting the object to be cut according to the embodiment of the present invention. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings.

1, the present invention includes a cutter 20 for cutting one side face of a cut object 50 such as a doze-faced paste, and a cutter 20 installed side by side with the cutter 20, And a conveyance plate 40 which is provided behind the support plate 30 and reciprocates between the support plate 30 and the cutter 20.

Specifically, the cutter 20 is connected to the motor 80 so that the cutter 20 can be rotated by the operation of the motor 80 while the cutter 20 is exposed to the main body 10. Since the cutter 20 is a dangerous device for cutting an object to be contacted while being rotated, the remaining portion of the cutter 20 except for the cutting portion is installed in a manner to be wrapped by the main body 10.

The inner surface of the cutter 20 is formed in a plane and the outer surface of the cutter 20 is formed in an outward convex shape so that the distance from the object 50 to be cut when the object 50 is cut by the cutter 20 The cutting surface naturally flows down along the convex surface outside the cutter 20 without sticking to the cutter 20. [

The support plate 30 serves to support one side surface of the object to be cut 50 and is provided with a cut portion of the cutter 20 so as to provide a discharge space 11 through which the cutting surface, And is installed in the main body 10 so as to be spaced apart at regular intervals.

Here, the support plate 30 is movable toward the front side of the position of the cutter 20 by the cutting thickness adjusting means 60. The cutting thickness adjusting means 60 includes a nut portion 61 extending from the front center of the support plate 30, a male screw portion 61 screwed in correspondence with the nut portion 61, And a handle portion 63 extending forward.

Specifically, the nut portion 61 is internally provided with a female screw and is fastened correspondingly to the male screw portion 61. The handle portion 63 is installed in a state where the handle portion 63 is exposed to the main body 10 so that the user can hold the handle portion 63 by hand from the outside.

Therefore, when the handle portion 63 is held and rotated, the male screw portion 61 is rotated and the female screw of the nut portion 61 moves forward along the male screw portion 61, As shown in FIG. The distance between the cutter 20 and the support plate 30 becomes larger as the support plate 30 is located at the front side, so that the thickness of the cutting surface cut from the cut object 50 becomes larger.

FIG. 2 is an enlarged view of a reciprocating conveying apparatus according to an embodiment of the present invention, showing reciprocating conveying self-borrowing. 2, the reciprocating conveying means 70 includes a conveying nut 71 provided below the conveying plate 40 and a base plate 72 provided with a conveying screw 723 to which the conveying nut 71 is screw- ).

Specifically, the feed nut 71 is installed at a lower portion of the feed plate 40 on which a guide groove 403 for moving the lower end of the side plate 402 is formed in the upper surface transverse direction. The feed nut 71 is conveyed in a state of being fitted in the feed screw 723 And is moved leftward and rightward along the outer peripheral screw of the conveying screw 723 by normal and reverse rotation of the screw 723.

The base plate 72 is provided at a lower portion of the conveying plate 40 and a moving space 721 is formed at a position corresponding to the conveying nut 71 so that the conveying nut 71 can move left and right. The moving space 721 provides an operating space for the feed nut 71 so that the feed plate 40 for feeding the cut object 50 can move between the support plate 30 and the cutter 20.

The bearings 722 are installed on the left and right sides of the lower portion of the base plate 72 with the moving space 721 therebetween. The left and right bearings 722 support both ends of the conveying screw 723 so as to be rotatable.

One end of the conveying screw 723 is connected to a servomotor 724 capable of normal and reverse rotation by a power transmitting means such as a belt, a chain, or the like.

The feed screw 71 which is screwed to the feed screw 723 by the forward and reverse rotation of the feed screw 723 is rotated by the operation of the servomotor 724 in the forward and reverse directions by the operation of the feed screw 723 The feed plate 40 reciprocates between the support plate 30 and the cutter 20 as it moves left and right in the movement space 721 along the screw formed on the outer periphery of the cutter 20.

Fig. 3 is an enlarged view of the tightening means according to an embodiment of the present invention, showing the tightening means in a side view. 3, the plate 401 is held in close contact with the other side surface of the object to be cut 50 by the tightening means 90, and the cutting object 50 is cut during the cutting of the object 50 by the cutter 20, To the support plate (30).

FIG. 4 is a view illustrating a state in which the side plates are coupled according to the embodiment of the present invention. As shown in the figure, the guide groove 403 formed in the transverse direction of the upper surface of the conveyance plate 40 is formed in a trapezoidal shape having a wider width downward, and the lower end of the corresponding side plate 402 is also engaged with the guide groove 403 . Due to the structural characteristics of the conveyance plate 40 and the guide grooves 403, the conveyance plate 40 can be stably moved along the guide grooves 403.

The contact means 90 includes an operation space 91 formed in the conveyance plate 40 so as to communicate with the movement groove 404 formed in the longitudinal direction of the conveyance plate 40, A support spring 93 fitted to the guide rod 92, and a lower end of the thick plate 401. [

The operating space 91 is formed so as to communicate with the moving grooves 404 in correspondence with the moving grooves 404 so as to provide a space for moving the lower end of the thick plate 401 together with the moving grooves 404.

The guide rod 92 is installed inside the operation space 91 and is supported by the support spring 93 and the heavy plate 401 in order so that the lower end of the heavy plate 401 can be stably moved along the operation space 91 It serves as a guide.

The support spring 93 is located inside the guide rod 92 below the lower end of the thick plate 401 and supports the thick plate 401 by the length of the object 50 to support the other side of the object 50 When the object 50 is cut by the cutter 20 in a state in which the thick plate 401 is in close contact with the other side face of the object 50 to be cut, The cutting object 50 is extended toward the support plate 30 while being stretched by the cut interval of the cutter 50 so that the cut part of the cut object 50 is brought into close contact with the support plate 401, So as to be continuously and stably performed.

5 is a side view of the object to be cut according to an embodiment of the present invention. As shown, the object to be cut 50 may be in the form of a rolled or rolled long dough surface dough in a zigzag of a certain width to provide a dough surface having a maximum length.

As shown in FIG. 6, when the objects to be cut 50 are overlapped, the overlapped portions are connected to each other, so that the cutting face with a longer length than a normal face can be obtained in the cutting process by the cutter 20. Even when the object 50 to be cut is in the form of a roll, since the curled portions are connected to each other, it is possible to obtain a noodle with a longer length than a general noodle.

On the other hand, when the object 50 to be cut in a general kneaded state is used, the shape of the cutting face to be cut in the cutting process of the cutter 20 can be deformed. Therefore, in the present invention, it is preferable that the object to be cut 50 is frozen and hardened so that the shape of the cutting surface is not deformed during the cutting process of the cutter 20.

As a result of the experiment, when the cut object (50) kept frozen at minus 5 to 20 degrees for 30 minutes to 60 minutes was used, there was no deformation in the shape of the cutting surface during the cutting process of the cutter (20). For example, when the frozen object 50 is too hard, it may be used when the object 50 to be cut is allowed to stand at room temperature for a certain time and is in a state suitable for cutting with the cutter 20.

As described above, according to the present invention, one side face of the object to be cut 50 fixed by the thick plate 401 and the side plate 402 reciprocates between the support plate 30 and the cutter 20 by the reciprocating conveying means 70 The cutter 20 is cut to a predetermined thickness so as to cut the cutter 20 to a predetermined thickness, thereby providing a large number of cutting faces having a uniform thickness and a length greater than that of a general face. The cutting process of the object to be cut out will be described.

The cutting object 50 is sandwiched between the thick plate 401 and the side plate 402 of the transfer plate 40 so that the stable state of the object 50 to be cut can be maintained during operation of the transfer plate 40 .

The one side portion of the cut object 50 to be cut is placed on the conveying plate 40 so as to face the supporting plate 30 and then the thick plate 401 is brought into close contact with the other side of the object to be cut 50, 402 are brought into close contact with the left and right sides of the object 50 to be cut.

When the lower plate 401 is pulled by the length of the object to be cut 50 when the other side of the object to be cut 50 is fixed, the lower end of the plate 401 moves along the moving groove 404, The thick plate 401 is brought into close contact with the other side surface of the cutoff member 50 in a state in which the support springs 93 are contracted.

When the right and left side surfaces of the object to be cut 50 are fixed, the left and right side plates 402 are extended to the left and right widths of the object to be cut 50 and then the side plates 402 are brought into close contact with the left and right sides of the object 50 to be cut. At this time, since the lower end of the side plate 402 moves along the guide groove 403 while being inserted into the guide groove 403 having a trapezoidal shape as shown in FIG. 4, the movement is very stable and the left and right sides of the object 50 are stably Can support.

On the other hand, the cutting thickness of the object 50 to be cut can be adjusted by the cutting thickness adjusting means 60. [ That is, since the initial support plate 30 is located slightly forward of the cutter 20, it is possible to obtain a diced surface having a thinner thickness by the distance between the support plate 30 and the cutter 20, When the handle portion 63 is rotated, the male screw portion 62 rotates and the nut portion 61 connected to the support plate 30 is moved forward along the male screw portion 62 so that the support plate 30 The gap between the support plate 30 and the cutter 20 is widened more than the first, and a thick dipping surface can be obtained.

The cutter 20 is rotated by the operation of the motor 80 when the cutting plate 50 is fixed by the thick plate 401 and the side plate 402 and the power is applied to the feed plate 40, (30) and the cutter (20).

2, the servomotor 724 is operated so that the feed screw 723 connected to the servo motor 724 rotates in the forward and reverse directions and the feed screw 723 rotates in the forward and reverse directions. The feed plate 40 is moved between the support plate 30 and the cutter 20 as the feed nut 71 is moved laterally along the screw of the outer periphery of the feed screw 723 in the movement space 721 by the normal / And is reciprocated.

One side of the object to be cut 50 is in close contact with the support plate 30 by the operation process of the feed plate 40 and the cut portion 20 of the cutter 20 It is possible to obtain a diced surface cut by a distance between the cutter 20 and the support plate 30.

5, when the one side of the object to be cut 50 is cut with the cutter 20, since the cut parts of both the overlapped form and the rolled form are long, You can get a noodle with longer length than the other.

The cutting surface that is cut at the moment when one side of the cut object 50 touches the cut portion of the cutter 20 is discharged through the discharge space 11 while sliding naturally on the outer surface of the convex cutter 20 as shown in Fig.

As described above, according to the present invention, it is possible to provide a large amount of dipping surface, a different dipping surface having a uniform thickness and a longer length than a general dipping surface, thereby further improving the texture of the dipping surface .

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the invention is not limited to the details of the illustrated embodiments, but various modifications and changes may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should be defined by the following claims.

10: main body 11: discharge space 20: cutter
30: Support plate 40: Feed plate 50: Cutting object
60: cutting thickness adjusting means 61: nut portion 62: male thread portion
63: handle portion 70: reciprocating conveying means 71: conveying nut
72: base plate 80: motor 90:
91: operating space 92: guide rod 93: support spring
401: thick plate 402: side plate 403: guide groove
404: moving groove 721: moving space 722: bearing
723: Feed screw 724: Servo motor

Claims

A cutter for cutting one side face of the object to be cut, the cutter being connected to the motor and being rotatably installed in a state where the cut portion is exposed to the body;
The cutter is installed on the main body at a distance from the cutter portion of the cutter so that the one side face of the cutter is in close contact with the cutter, A support plate;
A transfer plate which is provided behind the support plate and reciprocates between the support plate and the cutter by the reciprocating transfer means so that one side face of the cut object fixed by the side plate contacts the cut portion of the cutter;
Wherein the first and second substrates are bonded to each other.

The method according to claim 1,
The cutter,
Wherein an inner side where the object to be cut is in contact is formed in a plane and an outer face is formed in a convex shape outward so that the cutting face away from the object to cut off naturally flows down.

The method according to claim 1,
The cutting thickness adjusting means,
A nut portion extending forward of the support plate and having a female threaded portion formed therein;
A male screw portion which is screwed in correspondence with the female thread portion of the nut portion;
A handle portion extended and extended forwardly of the male screw portion and exposed and installed to be rotatable in the main body;
Wherein the first and second substrates are bonded to each other.

The method according to claim 1,
The round-
A conveyance nut installed at a lower portion of the conveyance plate in which a lower end of the side plate is tucked in a top surface transverse direction to form a movable guide groove;
The conveying screw is installed under the conveying plate and has a moving space in which the conveying nut can be moved to the left and right. A bearing is provided to the lower left and right sides of the moving space, and both ends of the conveying screw are rotated One end of the feed screw is connected to the servo motor so that the feed screw which is screwed to the feed screw is rotated in the moving space along the screw formed on the outer periphery of the feed screw while the feed screw is rotated in the normal direction by the operation of the servo motor A base plate for moving left and right;
Wherein the first and second substrates are bonded to each other.

The method of claim 4,
In the guide groove,
And a lower end of the side plate coupled to the lower plate is formed in a shape corresponding to the guide groove.

The method of claim 5,
The plate,
And is brought into close contact with the other side surface of the object to be cut by the close contact means, thereby pushing the object to be cut in the cutting process of the object to be cut by the cutter toward the support plate.

The method of claim 6,
The close-
A working space provided inside the conveying plate provided with a moving groove for guiding the movement of the thick plate in the longitudinal direction of the upper surface;
A guide rod coupled to the inside of the operating space and having a support spring and a lower plate sequentially inserted;
A supporting spring for pushing the object to be cut toward the support plate while being stretched by an interval at which the object is cut in the cutting process of the object to be cut by the cutter while pushing the other side face of the object to be cut backward by the lower plate, ;
Wherein the first and second substrates are bonded to each other.

The method according to claim 1,
The object to be cut,
Characterized in that the kneading machine is installed in such a manner that one side thereof faces the cutter so as to provide a dope surface having a longest length as long as the dough is rolled up in a staggered manner in a zigzag manner.

The method of claim 8,
The object to be cut,
Wherein the freezing chamber is frozen in a freezing chamber so as not to be deformed in shape during the cutting process by the cutter.

The method of claim 9,
The object to be cut,
And kept frozen at -5 to 20.degree. For 30 minutes to 60 minutes.