KR20170049174A - Transfer device for cutting root vegetables - Google Patents

Abstract

Disclosed is a transfer device for cutting root vegetables, capable of automatically supplying root vegetables such as white radish, cucumber, or pickled radish to a cutting device. According to an embodiment of the present invention, the transfer device for cutting root vegetables comprises: a transfer unit rotating in a form of an endless track conveyor and moving the root vegetables in one direction by rotation of a plurality of transfer rollers; a first pushing unit installed on one side of the transfer unit for pushing the root vegetables transferred by the transfer unit in a lateral direction with respect to the transfer direction; a hopper unit installed on the other side of the transfer unit symmetrical to the first pushing unit with respect to the transfer unit, in which the root vegetables moved by the first pushing unit are received; and a second pushing unit installed on one side of the hopper unit for pushing the root vegetables received on the hopper unit toward a cutting device side.

Description

TRANSFER DEVICE FOR CUTTING ROOT VEGETABLES [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transport device for cutting a root canal, and more particularly, to a feed device for cutting a root canal, which can automatically supply a root canal such as radish, cucumber or radish to a cutting device.

In general, root vegetables such as radish, cucumber, radish, etc. are provided in a state of maintaining a basic shape according to a cooking method or use, or are sliced in a predetermined shape.

Especially, radish is a kind of pickled food in Korea, which is used as a side dish after it is washed and washed properly if it is wrapped in salt water for a long time. Most of it is consumed in large quantities in restaurants and eating halls.

As described above, the radish is usually sliced or cut in the longitudinal direction to be used for kimbap. In the past, since the cutting of radish is manually performed by hand, unnecessary time is wasted.

In order to solve this problem, there has been developed a radial cutting machine in which a cutter with a knife-shaped knife in the form of a lattice window is provided, and a radish is forced to pass through the cutter to cut a plurality of radish radishes at a time have.

However, such a radish cutting machine normally pushes the radial rear end of the radish-window when the lattice window-shaped knife is pushed to the assembled cutter. In this process, the front of the radish is pressed by the knife and the back of the radish- The middle part of the radish is bulged so that the radish can not be cut into a uniform thickness.

Korean Patent Registration No. 1076438 (Patent Document 1) and Patent Document No. 1117584 (Patent Document 2) developed by the present applicant have been developed to solve these problems.

Patent Document 1 relates to a root cutter, in which vertical knives and horizontal knives are provided in a lattice shape on a body supported on a floor, and the vertical knives and horizontal knives are reciprocated vertically and horizontally by a predetermined distance And the root vegetables are cut and cut. The feature of the above-mentioned prior art is that it can always cut uniformly to a uniform thickness.

However, there has been an inconvenient problem that the root canal cutting machine according to Patent Document 1 has to manually feed the root vegetables to the worker by forcibly pushing them.

Patent Document 2 relates to a feeder for cutting a root canal, comprising an inclined conveyor which is installed to be rotated by a motor so as to be able to move a root vegetable to a side of a knife and which is disposed at both sides of the inclined conveyor at a predetermined inclination angle, And a gear tooth is formed on the outer circumferential surface of the casing so that the upper portion of the root canal being moved on the inclined conveyor by the gear teeth can be pressed and moved And a pressing roll rotated by receiving the rotational force of the rotating shaft.

The technology of Patent Document 2 can automatically supply the root crops to the cutting device, but since the upper surface of the root is required to be provided with a plurality of pressure rollers and a plurality of gears are arranged to mesh with each other for power transmission between the rollers, But also has a disadvantage in that it can not operate when the root vegetables are caught between the gear teeth. Also, in the process of transporting the root vegetables through the conveyor, the root vegetables are twisted and transferred in a state that they are not aligned in a straight line, resulting in a malfunction in the feeding process.

Korean Patent Registration No. 1076438 Korean Patent Publication No. 1117584

The present invention provides a feed device for cutting a root canal, which can automatically feed a root canal such as radish, cucumber or radish to the cutting device, and align the root canals so that they can be straightly fed in a line without twisting It has its purpose.

It is another object of the present invention to provide a feed device for cutting a root canal, which can prevent a rooting member from being caught in a pushing portion for pushing the transported root vegetables to the hopper portion.

According to another aspect of the present invention, there is provided a transport device for cutting a root canal, which feeds a root canal to a cutting device. The feed device rotates in the form of an endless track conveyor, A feeder for moving the root vegetables in one direction; A first pushing part installed at one side of the feeding part and pushing the root muscle transported by the feeding part in a lateral direction with respect to the feeding direction; A hopper part installed on the other side of the feeding part symmetrical to the first pushing part with respect to the feeding part, wherein the hopper part in which the root vegetables moved by the first pushing part are put on and seated; And a second pushing part installed at one side of the hopper part and pushing the root vegetables seated in the hopper part toward the cutting device.

In addition, the conveying unit may be provided with an alignment guide member at a front side of the first pushing unit with respect to the conveying direction, so that the root crossflows moved by the conveying unit are aligned in a straight line to the first pushing unit.

In addition, the alignment guide member may be formed of an elastic plate, one end of the elastic plate may be fixed to the guide frame of the conveyance unit, and the other end of the elastic plate may be inclined toward the first pushing unit.

The conveying unit may include a plurality of conveying rollers arranged continuously in the conveying direction in the form of conveying rods. When the conveying rollers are installed to rotate, the waiting area can be maintained at the current position .

The first pushing portion may include a cylinder rod that advances and retreats in a direction perpendicular to a conveyance direction of the conveyance portion; And a pushing plate installed at a distal end of the cylinder rod.

The first pushing portion may be provided at one end of the pushing plate facing the direction in which the root canals are transported so that the root canal transported by the transporting portion may move in the forward and backward directions of the first pushing portion, And an engaging flange plate for preventing the engaging portion from being caught between the engaging portions.

Further, the catching plate is formed to protrude rearward from one end of the pushing plate, and is curved in a direction opposite to the direction in which the root canals are conveyed, and the rear end is bent inwardly so that the pushing plate moves forward and backward The root canal is inserted into the rear side of the pushing plate so as not to be caught.

The cutting device includes a blade portion having a plurality of cutting holes to cut the blade to a predetermined size while passing through the root portions. The blade portion has a plurality of blades arranged in a lattice shape, And the root portion passing through the blade portion is separated and discharged with the separation plate as a boundary, the outer plate is bent outward at the end of the separation plate to be separated and discharged by the separation plate, It is possible to detach and drop the outer shell portion of the battery.

The transport device for cutting a root canal of the present invention has the following effects.

First, the present invention is capable of automatically supplying root crops such as radishes, cucumbers, radishes, etc. to a cutting device by rotating a plurality of feed rollers while the feed part rotates in the form of an endless track conveyor.

Secondly, the present invention resiliently presses the alignment guide member, for example, the elastic plate, which is provided on the conveyance unit, so as to straightly feed the root vegetables to the pushing unit side without twisting. Therefore, it is possible to prevent a phenomenon such that a plurality of root vegetables are transferred in a state in which they are not straightly aligned to the pushing portion due to twisting, or are transferred in a state of overlapping in two rows in the course of the transfer.

Third, the present invention provides a plurality of feed rollers to be rotatable on a feeder, and when a plurality of root vegetables are loaded by a transporting roller that rotates, it can maintain a standby state at the current position.

Fourthly, according to the present invention, since the engaging prevention plate provided to one side of the pushing portion to protrude rearwardly seals the rear side opening face of the pushing plate, it is possible to prevent the muscle vegetables from being inserted into the rear side of the pushing plate during the forward and backward movement, have.

Fifth, the separating and discharging plate provided on the lower front edge of the grid-shaped blade portion of the cutting apparatus separates the cutting hole outlet located at the lower corner portion of the plurality of cutting holes formed in the blade portion from the outlet of the other cutting holes, So that the cut material discharged through the cut holes located in the lower corner portion is separated and discharged from the cuts of other portions. Therefore, the root portion passing through the blade portion can be separated and discharged from the outer portion and the outer portion (shell portion), with the separation plate being the boundary.

Sixth, according to the present invention, the peeled portion of the root vegetables separated and discharged by the separating plate discharging plate is detached and dropped while colliding with the detaching plate bent at the end of the separating plate. As a result, the root canals pass through the cutting device, and all of the lower skin portion and the side skin portion of the root vegetables are automatically separated and removed by the separation plate and the outer skin strip. Therefore, the worker can separate the part of the side shell and the part of the upper shell out of the cut root vegetables, so that the peeling work can be easily performed.

1 is a perspective view of a transfer device for cutting a root canal according to an embodiment of the present invention.
2 is a plan view of Fig.
Figure 3 is a front view of Figure 1;
Fig. 4 is an enlarged view of a conveying portion provided with a conveying roller and an alignment guide member; Fig.
5 is an enlarged view of a first pushing portion provided with an engagement prevention plate;
6 is a plan view of an engaging fingerboard;
7 is an enlarged view of the hopper portion and the second pushing portion;
8 is a perspective view of the cutting apparatus;
FIG. 9 is a state diagram showing an operating state of a transport apparatus for cutting a root canal according to an embodiment of the present invention. FIG.
10 is an enlarged view of an operating state of the alignment guide member and the engaging flange.
11 is an enlarged view of a state in which root vegetables are cut by a cutting device.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a feed device for cutting a root canal according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail to avoid unnecessarily obscuring the subject matter of the present invention.

FIG. 1 is a perspective view of a transfer device for cutting a root canal according to an embodiment of the present invention, FIG. 2 is a plan view of FIG. 1, FIG. 3 is a front view of FIG. 1, Fig. 5 is an enlarged view of the first pushing portion provided with the catch prevention plate, Fig. 6 is a plan view of the catching flange, and Fig. 7 is an enlarged view of the hopper portion and the second pushing portion.

1 to 7, a transport apparatus for cutting a root canal according to an embodiment of the present invention includes a transfer unit 100, a sensor unit 200, a first pushing unit 300, a hopper unit 400, And may include a second pushing portion 500.

The conveying unit 100 rotates in the form of an endless track conveyor and rotates the plurality of conveying rollers 111 to move the root crops 1, 9 such as radish, cucumber, radish, etc. in one direction.

The transfer unit 100 includes a plurality of transfer rollers 111 arranged continuously in the transfer direction in the form of transfer rods 110. The transfer rods 110 are arranged at both ends of the transfer rods 110 so that the transfer rods 110 can move in a predetermined direction The chain 120 is installed on the sprocket 130 so that the chain 120 rotates as the sprocket 130 rotates to move the feed rod 110 horizontally, The root canals 1 are moved in one direction by the movement of the feed rod 110. At this time, the chain 120 is rotated by the rotation of the sprocket 130, and a driving means (not shown) such as an electric motor is provided for rotating the sprocket 130.

A plurality of conveying rollers 111 are installed to rotate on a rotary shaft 113 fixed to the chain 120. Accordingly, when the plurality of root canals 1 are loaded in the process of being transported by the transporting roller 111 rotating, it is possible to maintain the standby state at the current position.

The conveying unit 100 is provided with an alignment guide member 140 at a front side of the first pushing unit 300 to be described later with respect to the conveyance direction. The alignment guide member 140 serves to align the root portions 1 moved by the transfer portion 100 so as to be linearly transferred to the first pushing portion 300 side.

The alignment guide member 140 may be formed of a rectangular elastic plate 141. One end of the elastic plate 141 is fixed to the side guide frame 101 of the transfer unit 100 by a screw or by welding and fixed to the side guide frame 101. The other end of the elastic plate 141 is fixed to the side of the first pushing part 300 So that the root canals 1 are urged toward the first pushing portion 300 side so that the root canals 1 are straightly fed in a line without twisting.

The sensor unit 200 is installed at the distal end of the transfer unit 100 and senses the contact when the root canal 1 is transferred by the transfer unit 100. A signal sensed by the sensor unit 200 is transmitted to a control unit (not shown), and a control unit (not shown) receives the sensing signal of the sensor unit 200 to control the operation of the first pushing unit 300.

The sensor unit 200 may include a sensor plate 210 and a sensor rod 220. The sensor plate 210 is disposed at the distal end of the transfer unit 100 so that the plate surface faces the transfer direction. The sensor plate 210 may be formed in the shape of a circular plate having an area larger than an end of the root canal 1 and having the same or slightly smaller area than the width of the feed unit 100. The sensor rod 220 transmits a signal to the control unit as the root canal 1 contacts the sensor plate 210 and moves backward. A spring 230 is provided between the sensor plate 210 and the sensor rod 220 to buffer the sensor rod 220 when the sensor rod 220 is moved backward when the root canal 1 contacts the sensor plate 210 When the contact with the root vegetable 1 is released, the sensor rod 220 is moved forward to restore the sensor plate 210.

The first pushing part 300 is installed on one side of the distal end of the feeding part 100. The first pushing unit 300 pushes the root canal 1 transported by the feed unit 100 in the lateral direction with respect to the transport direction and moves the hopper unit 400 to be described later.

The first pushing portion 300 may include a first cylinder rod 310, a pushing plate 320, and a catching plate 330.

The first cylinder rod 310 advances and retreats in a direction perpendicular to the conveyance direction of the conveyance unit 100. The first cylinder rod 310 is connected to the pneumatic cylinder or the hydraulic cylinder and moves forward and backward.

The pushing plate 320 is fixed to the distal end of the cylinder rod 310. The pushing plate 320 is formed of a rectangular plate so as to push the side surface of the transported root vegetables 1.

The catching surface plate 330 prevents the root vegetation 1 conveyed by the feeding unit 100 from being caught between the feeding unit 100 and the first pushing unit 300 when the first pushing unit 300 moves back and forth .

The catching plate 330 is installed at one end of the pushing plate 320 facing the direction in which the root vegetables 1 are fed. The catching plate 330 protrudes rearward at one end of the pushing plate 320, is curved in a direction opposite to the direction in which the root canals 1 are conveyed, and the rear end is bent inward. The catching surface plate 330 seals the opening of the rear side surface of the pushing plate 320 so that when the pushing plate 320 is moved forward and backward, the root canals 1 are inserted into the rear side of the pushing plate 320, .

The hopper part 400 is installed on the other side of the feeding part 100 symmetrical to the first pushing part 300 with respect to the feeding part 100 so that the root canal 1 moved by the first pushing part 300 is inserted do.

The hopper part 400 is installed lower than the first pushing part 300, and the root vegetable 1 moved by the first pushing part 300 falls and is seated.

A pressurizing cylinder 600 is installed on the hopper part 400. The pressurizing cylinder 600 pressurizes and supports the root vegetable 1 which is seated on the hopper portion 400 while the cylinder rod 610 descends and the second pushing portion 500 presses the root vegetable 1 The pressing plate 620 is moved upward after pushing the cutting device 700.

The hopper part 400 is provided with a second pushing part 500 to be described later and a cutting device 700 is mounted on the opposite side of the second pushing part 500.

As shown in Fig. 8, the cutting device 700 may include a blade 710, a fixed frame 720, and a separator plate 730.

The blade portion 710 has a plurality of cutting holes 710a so that the root canals 1 can be cut to have a uniform thickness while passing therethrough. To this end, a plurality of blades are arranged in a lattice shape intersecting each other in the horizontal direction and the vertical direction. The intervals of the blades can be variously modified in consideration of the type of the root vegetables 1 to be cut or the thickness to be cut. The knife blade portion constituting the blade portion 710 has a plurality of semicircular grooves spaced apart at regular intervals so that the root canals 1 can be easily cut. Since the cutting hole 710a is surrounded by the groove portion of the blade, the root canal 1 can be easily cut.

The fixed frame 720 is formed of a metal material or a synthetic resin material to fix the edge of the blade 710, and is formed in a rectangular ring shape. The blade 710 is mounted inside the fixed frame 720 and the edge of the blade 710 is fixed to the inside of the fixed frame 720.

The separating tray 730 is detachably coupled to the fixing frame 720 so as to be positioned at the lower edge of the front surface of the blade 710. The separator plate publication 730 has a form in which one plate is continuously bent at an angle of 90 degrees, for example, a shape in which a plurality of separating surfaces are continuously formed by changing the up-and-down direction at an angle of 90 degrees. In the separating tray 730, the ends of two separating surfaces located at both edges of the separating surfaces are detachably fitted in fixing grooves formed in the fixing frame 720. By separating the cutting hole outlet located at the lower corner portion of the plurality of cutting holes 730a formed in the blade portion 710 from the outlet of the other cutting holes, So that the cut material discharged through the cut holes located in the other portions is separated and discharged from the cut portions of the other portions. Therefore, the root portion 1 and the shell portion (shell portion) of the root vegetable 1 having passed through the blade portion 710 can be separated and discharged with the separation discharge plate 730 as a boundary.

The number of cutting holes separated by the separating tray 730 and the bending shape of the separating tray can be variously modified depending on the type of the root crop to be cut or the thickness of the cross-section of the root crop to be cut. On the other hand, the separator plate 730 is detachably fixed to the fixed frame 720 and can freely change its fixing position.

At the end of the separator plate 730, a skin removing plate 740 is bent outward to remove the skin portion of the root canal 1 that is separated and discharged by the separation separating plate 730 to be dropped.

Therefore, all of the lower shell portion and the side shell portion of the root vegetable 1 are automatically separated and removed by the separation discharge plate 730 and the outer sheath plate 740 while the root vegetable 1 passes through the cutting device 700 do. Therefore, the worker can separate the part of the side shell part and the part of the upper shell part of the cut root muscle 1 and remove it, so that the peeling work can be easily performed.

The second pushing part 500 is installed on one side of the hopper part 400. The second pushing unit 500 pushes the root vegetables 1 seated in the hopper unit 400 toward the cutting device 700 in the longitudinal direction.

The second pushing portion 500 may include a second cylinder rod 510 and a pressing body 520.

The second cylinder rod 510 advances and retreats in a direction perpendicular to the moving direction of the first cylinder rod 310, that is, in a direction parallel to the conveying direction of the conveying unit 100. The second cylinder rod 510 is connected to the pneumatic cylinder or the hydraulic cylinder and moves forward and backward.

The pressure body 520 is fixed to the distal end of the second cylinder rod 510. This is because the root canals 1 inserted into the hopper part 400 have various thicknesses and the second cylinder rod 510 must be capable of accurately pivoting the center of the end face of the root canal 1, It is preferable to provide a pressing body 520 having a larger sectional area than the second cylinder rod 510 at the end of the second cylinder rod 510. [ Therefore, the pressing body 520 is wider than the cross-sectional area of the second cylinder rod 510 so that the root canal 1 can be pushed and pressed even when the root canal 1 is inserted into the hopper portion 400. Further, it is preferable that the pressing body 520 is formed to have the same cross-sectional shape as the cross-section of the inner space of the hopper part 400.

FIG. 9 is a state view showing an operation state of a transport apparatus for cutting a root canal according to an embodiment of the present invention, FIG. 10 is an enlarged view of an operation state of an alignment guide member and a wedge- In a state in which the root vegetable is cut off.

9 to 11, an operation state of the transport device for cutting a root canal according to an embodiment of the present invention will be described. The transport unit 100 rotates in the form of an endless track conveyor, To move the root vegetables 1 such as radish, cucumber, radish or the like in one direction. At this time, the alignment guide member 140 provided on the transfer unit 100, for example, the elastic force of the elastic plate 141 is elastically pressed, so that the root canals 1 can be straightened in a line without twisting toward the first pushing unit 300 Align them so that they are transported. Accordingly, it is possible to prevent a phenomenon such that a plurality of root vegetables 1 are transported in a state in which they are not aligned straight to the first pushing part 300 due to the twisting, or are transferred in a state of being overlapped in two rows.

A plurality of feed rollers 111 are rotatably mounted on the feeder 100 so that when a plurality of root canals 1 are transported by the transporting rollers 111 rotating, .

The sensor unit 200 senses and transmits a signal to the control unit when the root canal 1 transported by the transfer unit 100 contacts the sensor unit 200 installed at the distal end of the transfer unit 100, And controls the operation of the first pushing unit 300 by receiving the sensing signal of the first pushing unit 200.

The first pushing unit 300 receives the signal of the control unit and pushes the root vegetable 1 conveyed by the feed unit 100 in the lateral direction with respect to the feeding direction to move the hopper unit 400. At this time, since the catching surface plate 330 provided on the first pushing portion 300 seals the rear side open surface of the pushing plate 320, when the pushing plate 320 moves forward and backward, 320 to prevent it from being caught.

The root canals 1 moved by the first pushing part 300 are dropped and placed on the hopper part 400. [ The cylinder rod 610 of the pressurizing cylinder 600 installed on the hopper unit 400 is lowered and the pressurizing plate 620 presses and supports the root canal 1 loaded on the hopper unit 400.

The second cylinder rod 510 of the second pushing portion 500 is extended while the pressurizing cylinder 600 pressurizes and supports the root canal 1 mounted on the hopper portion 400 to move the root canal 1 in the longitudinal direction To the cutting device 700 side.

A plurality of cutting holes 710a formed by the grid-shaped blade portions 710 of the cutting device 700 are cut to a uniform thickness while the root canals 1 pass. At this time, the separator plate 730 provided at the lower edge of the front surface of the blade 710 cuts out the cutting hole exit located in the lower corner portion of the plurality of cutting holes 710a formed in the blade 710, So that the cut material discharged through the cutting holes located in the lower corner portion is separated and discharged from the cuts of other portions. Therefore, the root portion 1 and the shell portion (shell portion) of the root vegetable 1 having passed through the blade portion 710 can be separated and discharged with the separation discharge plate 730 as a boundary.

Further, the skin portion of the root canal 1, which is separated and discharged by the separating sheathing 730, is detached and dropped while bumping against the sheathing detacher 740 which is bent at the end of the separating sheathing 730. Thereby, all of the lower shell portion and the side shell portion of the root vegetable 1 are automatically separated (separated) by the separation discharge plate 730 and the outer skin removing plate 740 while the root vegetables 1 pass through the cutting device 700 Removed. Therefore, the worker can separate the part of the side shell part and the part of the upper shell part of the cut root muscle 1 and remove it, so that the peeling work can be easily performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the present invention. You will understand. It is therefore to be understood that the embodiments described above are in all respects illustrative and not restrictive. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: transfer unit 110: transfer rod
111: Feed roller 120: Chain
130: sprocket 140: alignment guide member
141: elastic plate 200: sensor part
210: sensor plate 220: sensor rod
300: first pushing portion 310: first cylinder rod
320: pushing plate 330:
400: hopper part 500: second pushing part
510: second cylinder rod 520: pressure body
600: pressure cylinder 700: cutting device
710: Blade part 720: Fixing frame
730: Separation Boat Publishing 740: Sheath Removal Board

Claims (8)

1. A feed device for cutting a root canal, which feeds a root vegetable to a cutting device,
A conveying unit that rotates in the form of an endless track conveyor and moves the root vegetables in one direction by rotation of a plurality of conveying rollers;
A first pushing part installed at one side of the feeding part and pushing the root muscle transported by the feeding part in a lateral direction with respect to the feeding direction;
A hopper part installed on the other side of the feeding part symmetrical to the first pushing part with respect to the feeding part, wherein the hopper part in which the root vegetables moved by the first pushing part are put on and seated; And
And a second pushing part installed at one side of the hopper part and pushing the root vegetables seated on the hopper part toward the cutting device side.
The method according to claim 1,
Wherein the aligning guide member is provided on a front side of the conveying unit with respect to the conveying direction with respect to the conveying direction so that the root canals that are moved by the conveying unit are aligned in a straight line to the first pushing unit. Transfer device.
3. The method of claim 2,
Wherein the alignment guide member is formed of an elastic plate, one end of the elastic plate is fixed to the guide frame of the conveyance unit, and the other end of the elastic plate is inclined toward the first pushing unit side. Transfer device.
The method according to claim 1,
The conveying unit includes a plurality of conveying rollers arranged continuously in the conveying direction in the form of conveying rods. The conveying rollers are installed to rotate the conveying rollers so that the conveying rollers can maintain the standby state at the current position And a cutting device for cutting a root canal.
The method according to claim 1,
The first pushing portion,
A cylinder rod that advances and retracts in a direction perpendicular to the conveyance direction of the conveyance unit; And
And a pushing plate provided at a distal end of the cylinder rod.
6. The method of claim 5,
The first pushing portion,
The root is prevented from being caught between the feeding part and the first pushing part when the root is transported by the feeding part in the forward / backward movement of the first pushing part, provided at one end of the pushing plate facing the direction in which the root- And further comprising an engaging finger plate.
The method according to claim 6,
Wherein the engaging flange is formed to protrude rearward at one end of the pushing plate and is curved in a direction opposite to the direction in which the root is conveyed, and the rear end is bent inwardly so that when the pushing plate is moved forward or backward, So that the root vegetable is inserted into the rear side of the pushing plate so as not to be caught.
The method according to claim 1,
Wherein the cutting device includes a blade portion having a plurality of cutting holes to cut the blade to a predetermined size while passing through the root means, wherein the blade portion has a plurality of blades arranged in a lattice shape, and a separation / discharge plate is coupled to one edge of the blade portion, The root portion passing through the blade portion is separated and discharged with the separation plate as a boundary, and the outer plate is bent outward at the end of the separation plate to be separated and discharged by the separation plate, And a part of the slider is detached and dropped.

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