KR20170001744U - Apparatus for cutting food - Google Patents

Abstract

The present invention provides a method of manufacturing a semiconductor device, comprising: a pair of first subframes arranged side by side in a second direction from one side of an introducing portion into which an object to be cut is introduced; And a rod shape disposed alongside the first sub-frame along a second direction, wherein the body frame includes a pair of second sub-frames arranged in parallel along a first direction intersecting the first sub- A driving frame which is moved along one direction, a receiving frame which is attached to the driving frame so as to be movable along the longitudinal direction of the driving frame and which has a groove shape and in which the cutting object is received, And at the same time, the receiving frame is moved along the driving frame in the second direction A cutting unit including a guide frame for guiding a movement path while changing a moving direction of the frame, a first cutting member and a second cutting member spaced apart from each other in the second direction so as to cut one side and the other side of the cutting target, And a driving unit coupled to both ends of the driving frame to generate power for moving the driving frame and transmit the generated driving force to the driving frame. The present invention provides a cutting device capable of easily cutting a food material.

Description

{APPARATUS FOR CUTTING FOOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cutting apparatus, and more particularly, to a food cutting apparatus capable of easily maneuvering food ingredients.

The life style of modern people is changing according to the life of modern people who have recently become busy. Among them, changes in diet are also remarkable. Rather than eating food at home, the proportion of eating out food purchased and consumed at a restaurant is increasing. Even if it is not eating out in a restaurant, consumption of the cooked food is consumed at home, or when the cooked food is delivered through delivery and consumed at home is also increasing.

Due to such changes in eating habits, there is a growing demand for foodservice companies to purchase and consume large amounts of food. It is necessary to provide a device capable of easily and easily processing the food materials in order to supply a large amount of food materials such as fresh vegetables such as vegetables or processed foods such as ham or canned foods to a foodservice company.

If a device that can easily and easily process food materials is introduced, not only quick and fresh food materials can be supplied to the food service companies, but the manufacturing cost can be reduced to provide consumers with cheaper and fresh food.

Korean Patent Publication No. 10-2015-0071583 (published on June 26, 2015)

The present invention is intended to provide a food cutting apparatus capable of easily cutting a food material.

In addition, the technical problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems which are not mentioned are clearly described from the following description to those skilled in the art It can be understood.

A cutting apparatus according to an embodiment of the present invention includes a pair of first subframes arranged side by side along a second direction from one side of a lead-in portion into which a cutting object is introduced to the other side, A body frame including a pair of second subframes arranged side by side along a first direction intersecting with the second direction toward a discharge portion to be discharged, a bar shape disposed alongside the first subframe along a second direction A drive frame mounted on the drive frame so as to be movable along a longitudinal direction of the drive frame, the drive frame having a groove shape, The frame is moved along the first direction and the receiving frame is moved along the driving frame to the second room A first cutting member spaced apart along the second direction for cutting one side and the other side of the object to be cut and a second cutting member for cutting the other side of the object to be cut, And a driving unit coupled to both ends of the driving frame to generate power for moving the driving frame and transmit the generated power to the driving frame.

The guiding frame is disposed at a position corresponding to the guiding portion and extends along the first direction. The guide frame is disposed at a position corresponding to the guiding portion, extends along the first direction, A discharge sub-frame spaced apart from the first direction, a discharge sub-frame spaced apart from the first direction, and a connection sub-frame connecting the introduced sub-frame and the discharge sub-frame and switching the direction of motion of the drive frame.

The first cutting member is disposed at a position corresponding to the introduction portion and cuts one side of the object to be cut which is disposed between the introduction subframe and the second cutting object, and the second cutting member is disposed at a position corresponding to the discharge portion, The other side of the object to be cut, which is disposed between itself and the subframe, can be cut.

In this case, the position of the cutting object, which is accommodated in the receiving frame and moves along the longitudinal direction of the driving frame, is aligned along the first direction, And an alignment frame for keeping the length at which the other side is cut to be constant.

The receiving frame may include a cutting slit through which the cutting unit passes so that the cutting object can be completely cut.

At this time, the cutting slits are a pair, and a pair of the cutting slits may be spaced along the second direction so as to have an interval corresponding to a predetermined minimum length of the object to be cut.

The cutting apparatus of the present embodiment further includes a reverse guide frame disposed at the lower portion of the guide frame while connecting the inlet portion from the discharge portion and guiding the movement of the drive frame in the reverse direction from the discharge portion to the inlet portion .

The driving frame may further include a driving roller disposed below the driving frame and supporting the movement of the driving frame by rotating along the guide frame.

The guide frame may include a roller guide member extending from the end of the guide frame to the outside of the body frame and guiding a path through which the driving roller is introduced into the guide frame.

The driving frame and the receiving frame are plural, and both end portions of the plurality of driving frames can be coupled with the driving unit, respectively.

The guide frame may include a first guide frame disposed adjacent to the first cutting member and a second guide frame disposed adjacent to the first guide frame and disposed adjacent to the second cutting member.

According to the present invention, it is possible to provide a cutting apparatus capable of cutting a predetermined length from one side and the other side, not only in a cutting target having the same length but also in a cutting target having a different length. In addition, the process of cutting a certain length from one side and the other side of the cutting target can be performed more easily and quickly, and therefore, it is possible to reduce the time and cost required for cutting, A food cutting apparatus can be provided. .

1 is a perspective view schematically showing a food cutting apparatus according to an embodiment of the present invention.
Fig. 2 is a view showing a state in which a cutting object is housed in a receiving frame and introduced into an introducing portion of the food cutting apparatus according to the present embodiment.
Fig. 3 is a view showing a state of a cutting apparatus for moving a cutting target whose one side is cut by the first cutting member according to the present embodiment.
4 is a view showing a state in which the cutting target is to be cut by the second cutting member by the alignment frame according to the present embodiment.
Fig. 5 is a view showing a state before a driving frame for moving a cutting target whose other side is cut by the second cutting member is changed in direction. Fig.
6 is a view showing a state in which the moving direction of the driving frame is switched and moved along the reverse guide frame from the discharging portion to the guiding portion.
7 is a plan view schematically showing a part of a cutting apparatus including a plurality of drive frames and a plurality of receiving frames according to a modification of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions will not be described in order to clarify the present invention.

In order to clearly illustrate the present disclosure, portions that are not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification. In addition, since the sizes and thicknesses of the individual components shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited thereto.

Fig. 1 schematically shows a food cutting apparatus 100 according to an embodiment of the present invention. 1, the food cutting apparatus 100 according to the present embodiment includes a cutting object, that is, an inlet A where the food 10 is introduced into the apparatus, and an inlet A after the food 10 is cut, And a discharge portion B which is discharged to the outside. The food cutting apparatus 100 of this embodiment includes a body frame 110, a driving frame 120, a receiving frame 130, a guide frame 140, a cutting unit 150, and a driving unit 160 .

The body frame 110 forms a basic frame of the food cutting apparatus 100 of the present embodiment and includes a pair of first sub frames 112 and a pair of second sub frames 114, .

The pair of first sub-frames 112 are arranged side by side along the second direction from one side of the introduction part A to the other side. A pair of second sub-frames 114 are arranged side by side along a first direction from the inlet A to the outlet B. Therefore, the first direction and the second direction of this embodiment are orthogonal to each other. In Fig. 1 according to this embodiment, the first direction is indicated in the x direction and the second direction is indicated in the y direction.

The driving frame 120 is a bar-shaped frame extending along the y-direction in the second direction, that is, according to Fig. 1, and arranged side by side with the first sub-frame 112. The driving frame 120 is moved in the first direction, that is, the x direction, by receiving the power by the driving unit 160 described later.

The receiving frame 130 is attached to the driving frame 120 so as to be movable along the longitudinal direction of the driving frame 120. Therefore, the receiving frame 130 of the present embodiment can be moved in the second direction along the longitudinal direction of the driving frame 120, and at the same time, the driving frame 120, which is attached to the driving frame 120 and moves along the first direction, In the first direction.

The receiving frame 130 of the present embodiment has a groove shape so that the food 10 can be received therein. For example, as shown in FIG. 1, the side surface of the receiving frame 130 may have a trapezoidal groove.

The guide frame 140 is arranged so that the direction of movement of the receiving frame 130 is changed so that the receiving frame 130 can be moved in the second direction along the driving frame 120 when the driving frame 120 is moved along the first direction Thereby guiding the movement path of the receiving frame 130. The detailed structure of the guide frame 140 will be described later in detail.

The cutting unit 150 includes a first cutting member 152 and a second cutting member 154 that are spaced apart in the second direction to cut one side and the other side of the food 10. [ As shown in Fig. 1, the first cutting member 152 is disposed at a position corresponding to the introduction portion A, and cuts one side of the food 10. The second cutting member 154 is disposed at a position corresponding to the discharge portion B, and cuts the other side of the food 10.

Each of the first cutting member 152 and the second cutting member 154 transmits power to the rotary blades 152a and 154a and the rotary blades 152a and 154a that cut one side or the other side of the food 10 by rotation And rotation motors 154a and 154b for rotating the rotary blades 152a and 154a.

On the other hand, the receiving frame 130 includes a cutting slit 132 through which the cutting unit 150 passes. The cutting slit 132 is a slit formed in the receiving frame 130 so that the food 10 accommodated in the receiving frame 130 can be completely cut. The cutting slits 132 of this embodiment are formed as a pair and are spaced apart from each other with an interval corresponding to the minimum length of the predetermined food 10. [ The first cutting member 152 and the second cutting member 154 sequentially cut one side and the other side of the food 10 while passing through the pair of cutting slits 132 in order.

The driving unit 160 is coupled with both ends of the driving frame 120 to generate power for moving the driving frame 120 and transmits the generated driving force to the driving frame 120. The drive unit 160 of this embodiment may be an endless track and both ends of the drive frame 120 may be coupled to the endless track and moved depending on the rotation of the endless track. At this time, the driving frame 120 of the present embodiment can be periodically moved between the inlet A and the outlet B by the rotation of the endless track.

The drive unit 160 of the present embodiment includes a belt 162, a drive motor 164, a drive shaft 166 and a driven shaft 168 to drive the drive unit 160 of the endless track system. The belt 162 is formed to form a closed curve and both ends of the driving frame 120 are coupled to the belt 162 to move the driving frame 120 by the rotation of the belt 162. The drive motor 164 generates power for rotating the belt 162 and the drive shaft 166 transfers the power generated by the drive motor 164 to the belt 162. The power transmitted to the belt 162 is then transmitted to the driven shaft 168. The driven shaft 168 rotates together with the drive shaft 166 in accordance with the rotation of the drive shaft 166, thereby assisting the rotational motion of the belt 162.

At this time, the guide frame 140 of this embodiment can be divided into introduction sub-frames 142a and 144a, ejection sub-frames 142c and 144c, and connection sub-frames 142b and 144b.

The introduction sub-frames 142a and 144a are disposed at positions corresponding to the introduction portion A and extend along the first direction. The discharge subframes 142c and 144c are disposed at positions corresponding to the discharge portion B and extend along the first direction in the same manner as the introduction subframes 142a and 144a, And are spaced apart from each other by a predetermined distance along the two directions and the first direction. The connection subframes 142b and 144b connect the introduction subframes 142a and 144a and the emission subframes 142c and 144c and move the movement direction of the reception frame 130 moving along the guide frame 140 to the second To the diagonal direction between the first direction and the first direction.

The introducing sub-frames 142a and 144a and the discharging sub-frames 142c and 144c are spaced apart along the second direction so as to have an interval corresponding to the maximum length of the predetermined food 10. The connecting sub-frames 142b and 144b are connected to the introducing sub-frames 142a and 144a and the discharging sub-frames 142c and 144c, respectively, to connect the introducing sub-frames 142a and 144a and the discharging sub- Are arranged in a direction that crosses the first direction and the second direction, respectively, so as to have an angle of more than 0 and less than 90 degrees.

Since the guide frame 140 according to the present embodiment is divided into the introduction sub-frames 142a and 144a, the emission sub-frames 142c and 144c and the connection sub-frames 142b and 144b, A portion where the sub frames 142a and 144a are connected to the connection sub frames 142b and 144b and a portion where the discharge sub frames 142c and 144c and the connection sub frames 142b and 144b are connected are bent . With such a structure, the moving direction of the receiving frame 130 moving along the guide frame 140 is changed so that one side and the other side of the food 10, which is moved in one direction without moving the cutting unit 150 Can be cut.

At this time, in order to adjust the cutting position of the food 10 more precisely, the food cutting apparatus 100 of the present embodiment further includes an alignment frame 170. [ The alignment frame 170 extends along the first direction and adjusts the distance between the alignment frame 170 and the second cutting member 154 so that the other side of the food 10 It is possible to align the position where the cutting is performed. Therefore, regardless of the length of the food 10, the length along which the other side of the food 10 is cut can be kept constant.

Meanwhile, the food cutting apparatus 100 of the present embodiment further includes a reverse guide frame 180. The reverse guide frame 180 is disposed at the lower end of the guide frame 140 while being connected from the discharge portion B to the introduction portion A so that the drive frame 120 returns from the discharge portion B to the introduction portion A And guides the movement in the reverse direction. Unlike the guide frame 140, the reverse guide frame 180 of the present embodiment is arranged in a straight line that obliquely crosses the inlet A from the outlet B.

On the other hand, a driving roller 122 for supporting the movement of the receiving frame 130 is attached to the lower portion of the receiving frame 130 by rotating along the guide frame 140. The driving roller 122 rotates along the surface of the guide frame 140 to assist the movement so that the receiving frame 130 can be smoothly moved along the guide frame 140. Similarly, even when the driving frame 120 is returned from the discharge portion B to the inlet portion A along the reverse guide frame 180, the driving roller 122 rotates along the surface of the reverse guide frame 180, Movement of the frame 130 in the reverse direction can also be assisted. This will be described again with reference to FIG.

The guide frame 140 of the present embodiment further includes a roller guide member 146. [ The roller guide member 146 extends from one end of the introduction sub-frames 142a and 144a which are guide frames 140 disposed on the introduction portion A side toward the second sub-frame 114, Guides the guide path from the introduction part A to the guide frame 140. [ The driving frame 120 returned from the discharge portion B to the introduction portion A is again introduced into the introduction portion A and the movement direction is switched so as to move along the guide frame 140. [ The roller guide member 146 is positioned at a position where the driving roller 122 is guided to the guide frame 140 so that the receiving frame 130 that is out of the reverse guide frame 180 can be smoothly transmitted to the guide frame 140. [ . Therefore, it is possible to prevent the receiving frame 130 from coming off.

The guide frame 140 according to the present embodiment may be provided in a pair arranged side by side and may include a first guide frame 142 and a second cutting member 154 disposed adjacent to the first cutting member 152 And may include a second guide frame 144 disposed adjacent thereto.

At this time, the second guide frame 144 of this embodiment is longer than the first guide frame 142. Also, the end of the second guide frame 144 is bent toward the first guide frame 142. With this structure, the receiving frame 130 moving along the guide frame 140 reaches the end of the guide frame 140, is transmitted from the guide frame 140 to the reverse guide frame 180, It is possible to smoothly switch the direction of movement without being detached from them when switching.

The end of the first guide frame 142 may be formed obliquely so as to have a shape corresponding to the shape of the curved second guide frame 144. The receiving frame 130 is transmitted from the guide frame 140 to the reverse guide frame 180 and the second guide frame 144 is separated from the guide frame 180 when the moving direction is changed, And the direction of movement can be smoothly switched.

1 shows a food cutting apparatus 100 having one drive frame 120 and one receiving frame 130, but is not limited thereto. The food cutting apparatus 100 of the present embodiment includes a plurality of drive frames 120 and a plurality of receiving frames 130. Each of the plurality of receiving frames 130 is coupled to each of the plurality of drive frames 120 , Both ends of each of the plurality of drive frames 120 are coupled with the drive unit 160. Therefore, the plurality of driving frames 120 and the plurality of receiving frames 130 can be moved by one driving unit 160, and one side and the other side of the food 10 housed in the respective receiving frames 130 can be cut . Accordingly, the time and cost required for cutting one side and the other side of the food 10 using the food cutting apparatus 100 can be reduced, and the productivity can be further improved.

In the foregoing, each configuration of the food cutting apparatus 100 according to one embodiment of the present invention has been described. Hereinafter, the process of cutting one side and the other side of the food 10 by the food cutting apparatus 100 according to the present embodiment will be described with reference to FIGS. 2 to 6. FIG. 2 to 6 are plan views schematically showing only a part of the food cutting apparatus 100 of this embodiment.

2 is a view showing a state in which the food 10 is received and introduced into the receiving frame 130 at the inlet A of the food cutting apparatus 100 according to the present embodiment. Fig. 3 is a view showing a state of the food cutting apparatus 100 moving the food 10 cut on one side by the first cutting member 152 according to the present embodiment. 4 is a view showing a state in which the cutting position of the food 10 is aligned by the second cutting member 154 by the alignment frame 170 according to the present embodiment. FIG. 5 is a view showing a state before the driving frame 120 for moving the food 10 cut by the second cutting member 154 is turned. 6 is a view showing a state in which the moving direction of the driving frame 120 is switched and moved along the reverse guide frame 180 from the discharge portion B to the introduction portion A.

The food cutting apparatus 100 of this embodiment is a device for cutting the food 10 more easily. At this time, the food 10 of the present embodiment is a food having a form that can be accommodated in the receiving frame 130 by elongating in the longitudinal direction. Thus, vegetables such as radish, carrot, and cucumber, processed foods such as radish, sausage, or cooked foods such as kimbap may be used. As long as the food material is elongated in the longitudinal direction so that the both ends are cut to be used as food materials, it can be included in the scope of the present embodiment.

2 shows a state in which the food 10 is disposed in the receiving frame 130 disposed at the introduction section A and is moved toward the cutting unit 150. FIG. In the food 10 shown in Fig. 2, cutting lines to be cut later are indicated by dotted lines. As shown in Fig. 2, one side of the food 10 arranged in the introduction portion A is aligned so that a position to be cut by the first cutting unit 150 is arranged in the cutting slit 132. Fig.

On the other hand, the length W1 to be cut by the second cutting unit 150 on the other side of the food 10 is set equal to the interval W2 between the alignment frame 170 and the second cutting unit 150. [ This will be described in detail later with reference to FIG.

3 shows a state in which the receiving frame 130 receiving the food 10 having one side cut through the first cutting unit 150 is being moved along the guide frame 140. 3, a driving roller 122 is provided at a lower portion of the receiving frame 130 although not shown in the drawing. 3, when the driving frame 120 is moved along the guide frame 140, the driving roller 122 rotates along the surface of the guide frame 140 to assist the movement of the receiving frame 130 do.

Fig. 4 shows a state in which the position of the food 10 to be cut by the second cutting member 154 is aligned by the alignment frame 170. Fig. The receiving frame 130 coupled to the driving frame 120 moved along the guide frame 140 is moved together along the longitudinal direction of the driving frame 120. At this time, the receiving frame 130 is moved in the second direction by the diagonal arrangement of the connecting sub-frames 142b, 144b of the guide frame 140. [ At this time, the alignment frame 170 prevents the food 10 placed in the receiving frame 130 from moving along the second direction. Therefore, the food 10 can not move together with the receiving frame 130, but is blocked by the alignment frame 170 and can move only along the first direction, and can not move toward the second direction any more.

The distance W2 between the alignment frame 170 and the second cutting unit 150 is equal to the length W1 of the other side of the food 10 to be cut. Further, the position at which the other side of the food 10 is cut by the alignment frame 170 is aligned with the slit 132 for cutting. The other side of the food 10 is cut by the second cutting unit 150 while the drive frame 120 and the receiving frame 130 pass through the second cutting unit 150. [

5 shows a state in which the other side of the food 10 is cut by the second cutting unit 150. As shown in FIG. As shown in FIG. 5, the food 10 having one side and the other side cut off and reaching the discharge portion B discharges all of the food 10 cut out to the outside of the food cutting apparatus 100 of the present embodiment. The receiving frame 130 and the driving frame 120 which have finished discharging the food 10 are moved out of the guide frame 140 at the end of the discharging portion B and the moving direction is switched by the driving unit 160, And transmitted to the frame 180.

At this time, in order for the receiving frame 130 to be smoothly transmitted from the guide frame 140 to the reverse guide frame 180, the end portion of the second guide frame 144 having a relatively long length is bent toward the first guide frame 142 And the end portion of the first guide frame 142 having a relatively short length also has a round shape corresponding to the shape of the second guide frame 144.

6 shows the driving frame 120 which is moved from the discharge portion B to the introduction portion A along the reverse guide frame 180. As shown in Fig. When the receiving frame 130 coupled to the driving frame 120 and the driving frame 120 is moved from the discharging portion B to the leading portion A along the reverse guide frame 180 is moved upside down by 180 degrees, As shown in Fig. 6, the lower surface of the driving frame 120 and the receiving frame 130 are arranged above.

As shown in Fig. 6, a pair of driving rollers 122 are disposed below the receiving frame 130. As shown in Fig. The pair of driving rollers 122 rotate along the surface of the reverse guide frame 180 to assist the movement of the receiving frame 130 moved together with the driving frame 120 by the driving unit 160.

The driving frame 120 which has reached the inlet A again along the reverse guide frame 180 is transferred from the reverse guide frame 180 to the guide frame 140 by the driving unit 160 The movement can be started again as shown in Fig.

7 is a plan view schematically showing a part of a food cutting apparatus 100 including a plurality of drive frames 120 and a plurality of receiving frames 130 according to a modification of Figs. 1 to 6. Fig. As shown in FIG. 7, the time and cost required for cutting the food 10 can be reduced by including the plurality of drive frames 120 and the plurality of receiving frames 130.

In the foregoing, the process of cutting one side and the other side of the food 10 by the food cutting device 100 and the food cutting device 100 according to one embodiment of the present invention and modifications thereof has been described. According to the present embodiment, it is possible to provide the food cutting apparatus 100 in which a predetermined length can be cut from one side and the other side even in the food 10 having different lengths as well as the food 10 having the same length. In addition, the process of cutting a certain length from one side and the other side of the food (10) can be carried out more easily and quickly, so that it is possible to save time and cost for cutting, Can supply.

It will be understood by those skilled in the art that although specific embodiments of the present invention have been illustrated and described, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention, It is obvious to those who have. Therefore, it should be understood that such modifications or alterations should not be understood individually from the technical idea or viewpoint of the present invention, but the modified embodiments should fall within the scope of the present invention.

10: Food
100: Food cutting device
110: Body frame
112: first subframe
114: second subframe
120: driving frame
122: driving roller
130: receiving frame
132: Slit for cutting
140: guide frame
142: first guide frame
142a: introduction subframe
142b: connection subframe
142c:
144: second guide frame
144a: introduction subframe
144b: connection subframe
144c:
146: roller guide member
150: Cutting unit
152: first cutting member
152a: first rotating blade
152b: first rotation motor
154: second cutting member
154a: second rotating blade
154b: second rotation motor
160: drive unit
162: belt
164: drive motor
166:
168:
170: Alignment frame
180: reverse guide frame
A: Introduction
B:

Claims (10)

A body frame including an introduction portion into which food is introduced and a discharge portion through which the food is discharged from the introduction portion;
A driving frame having a rod shape that is moved along a first direction that receives power and is directed from the introduction portion toward the discharge portion and extends along a second direction orthogonal to the first direction;
A receiving frame installed in the driving frame so as to be movable along a longitudinal direction of the driving frame, the receiving frame having a groove shape and containing the food therein;
A guide frame for guiding a movement path of the receiving frame such that the receiving frame is moved in the second direction on the driving frame when the driving frame is moved along the first direction;
A cutting unit including a first cutting member and a second cutting member spaced apart in the second direction to cut one side and the other side of the food; And
And a drive unit coupled to both ends of the drive frame to generate power for moving the drive frame and transmit the generated power to the drive frame. The method according to claim 1,
The guide frame
An introducing sub-frame disposed at a position corresponding to the introducing portion and extending along the first direction;
A discharge sub-frame disposed at a position corresponding to the discharge portion, extending along the first direction, and spaced apart from the introduction sub-frame in the first direction and the second direction, respectively; And
And a connecting subframe connecting the introducing subframe and the discharging subframe and changing the position of the receiving frame on the driving frame. The method according to claim 1,
Wherein the first cutting member is disposed at a position corresponding to the introduction portion to cut one side of the food,
And the second cutting member is disposed at a position corresponding to the discharge portion to cut the other side of the food. The method of claim 3,
The other end of the food is cut along the distance between the first cutting member and the second cutting member, the second cutting member being disposed in the receiving frame to align the position of the food moved along the longitudinal direction of the drive frame, Further comprising an alignment frame for keeping the length of the food product constant. The method according to claim 1,
The receiving frame includes:
And a cutting slit through which the cutting unit passes so that the food can be completely cut. The method according to claim 1,
Further comprising a reverse guide frame disposed at a lower portion of the guide frame and connected to the outlet portion and guiding movement of the drive frame in a reverse direction from the outlet portion to the inlet portion. The method according to claim 1,
The receiving frame includes:
Further comprising a driving roller disposed at a lower portion of the receiving frame for assisting movement of the receiving frame by rotating along the guide frame. 8. The method of claim 7,
The guide frame
And a roller guide member extending from the end of the guide frame to the outside of the body frame and guiding a path through which the driving roller is introduced into the guide frame. The method according to claim 1,
Wherein the drive frame and the receiving frame are plural,
Wherein both ends of the plurality of drive frames are respectively engaged with the drive unit. The method according to claim 1,
The guide frame
A first guide frame disposed adjacent to the first cutting member; And
And a second guide frame disposed adjacent to the first guide frame and disposed adjacent to the second cutting member.

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