KR20130036815A - Cutter for root vegetables - Google Patents

Abstract

PURPOSE: A root crops cutter is provided to cut a large amount of radices vegetable in a spiral shape at a time, and enhance the convenience of work with automated process. CONSTITUTION: Fix several standing unit(110) to fix radices vegetable. Cut radices vegetable as the blade part(120) is positioned at each outside of standing unit. A power transmission unit(130) which is respectively connected to standing unit to convey rotary motion and linear motion of driving unit to standing unit. A driving unit(140) provides rotary motion and linear motion to a power transmission unit. A radices vegetable is cut in a spiral shape. A control unit(150) which controls the operation of driving unit is connected to the driving unit, and controls the linear speed of a driving unit. A power transmission unit is one among a bar, a screw, and a worm gear. A standing unit comprises a pin(111) inserted with Radices vegetable, and a supporting unit(112) which fixes one side of Radices vegetable inserted to a pin. Screws are respectively connected to a standing unit. A handle unit let screw move back as well forth, and rotate. [Reference numerals] (150) Control unit;

Description

Cutter for Root Vegetables

The present invention relates to a root vegetable incision, and more particularly to a root vegetable incision capable of cutting the root vegetable in a spiral shape.

In general, root vegetables such as potatoes, sweet potatoes, lotus root, etc. are usually used to cut flat or cut into a square pillar shape when used in fried dishes.

In recent years, the so-called "tornado potato," which cuts potatoes in a spiral shape and fry them on skewers to attract consumers' visual interest, has become popular.

However, in order to make such a whirlwind potato, it is very difficult to chop the potato because the potato must be helically cut while turning the spiral.

Therefore, a potato incision machine has been proposed that allows the whole potato to be cut into one.

Conventional potato incision machine is to cut the potato without cutting by pressing the sharp blade in the process of rotating the rotating shaft to move forward, it is operated by manual and incision by cutting the potato one by one. There is a problem that is not suitable when production is required.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

An object of the present invention is to provide a root vegetable incision machine to enable the mass production by cutting a large number of root vegetables in a spiral shape at once, and to improve the convenience of work by an automated process.

One embodiment of the root vegetable incision of the present invention provided to achieve the above object is a plurality of hooks for fixing the root vegetable; A blade portion provided at an upper portion of each of the stand portions to cut root vegetables; A power transmission unit connected to each of the rack units to transmit rotational and linear motions of the drive unit to the rack units; It includes a drive unit for providing a rotational motion and a linear motion to the power transmission unit, the root vegetable is characterized in that the incision is made in a spiral shape.

A control unit for controlling an operation of the driving unit is connected to the driving unit, and the control unit controls a linear speed of the driving unit.

The power transmission unit is characterized in that one of the bar, screw, worm gear.

The hook portion is characterized by consisting of a pin to which the root vegetable is fitted, and a support for fixing the pin and fixing one surface of the root vegetable fitted to the pin.

Another embodiment of the root vegetable incision of the present invention comprises a plurality of hooks for fixing the root vegetable; A blade portion provided at an upper portion of each of the stand portions to cut root vegetables; Screws respectively connected to the holder; And, characterized in that it comprises a handle portion for rotating and moving the screw backwards.

Here, the rack portion is characterized by consisting of a pin to which the root vegetable is inserted, and a support to fix the pin and to fix one surface of the root vegetable fitted to the pin.

According to the root vegetable incision machine of the present invention, it is possible to mass-produce a large amount of root vegetables at a time in a spiral shape and mass production is possible, and the convenience of work is improved by an automated process.

1 is a perspective view showing a root vegetable incision according to an embodiment of the present invention.
Figure 2 is a plan cross-sectional view showing an embodiment of the power transmission unit and the drive in the root vegetable incision according to the present invention.
Figure 3 is a cross-sectional view showing another embodiment of the power transmission unit and the drive in the root vegetable incision according to the present invention.
Figure 4 is an enlarged perspective view of the main portion showing another embodiment of the power transmission unit and the drive in the root vegetable incision according to the present invention.
Figure 5 is a cross-sectional view showing a root vegetable incision according to another embodiment of the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings will be described in detail the root vegetable incision of the present invention. For the purposes of this specification, like reference numerals in the drawings denote like parts unless otherwise indicated.

1 is a perspective view showing a root vegetable incision according to an embodiment of the present invention, Figure 2 is a plan sectional view showing an embodiment of the power transmission unit and the drive in the root vegetable incision according to the present invention, Figure 3 4 is a cross-sectional view showing another embodiment of the power transmission unit and the drive unit in the root vegetable incision according to the present invention, Figure 4 shows another embodiment of the power transmission unit and the drive in the root vegetable incision according to the present invention An enlarged perspective view of the main part.

As shown in Figures 1 to 4 root vegetable incision according to an embodiment of the present invention includes a stand 110, the blade portion 120, the power transmission unit 130, the drive unit 140 And, each component is mounted on the inside, the outside in the housing 100.

The hook part 110 includes a pin 111 into which the root vegetable is inserted, and a support part 112 to fix the pin 111 and to fix one side of the root vegetable inserted into the pin 111, and the support part 112 is It is connected to the power transmission unit 130. The power transmission unit 130 is positioned inside the housing 100 through the front surface of the housing 100 such that the holder 110 is located outside the front of the housing 100. The holder 110 is provided in plurality at a predetermined interval in front of the housing 100.

Here, it is preferable that the pin 111 is tapered to the end so that the root vegetables are easily inserted and the friction with the root vegetables is increased so that the root vegetables do not move easily.

In addition, the support portion 112 is provided with a fixing projection 113 radially arranged around the pin 111 on the surface in contact with the root vegetable, the root vegetable is fixed by fixing one side of the root vegetable fitted to the pin 111 It is desirable to be able to rotate integrally with the pin 111.

The blade part 120 is fixed to the housing 100 and is fixed to the blade holder 121 which is located on the upper portion of each of the holder parts 110, and each blade holder is fixed to the blade holder 121 and spaced apart from the holder part 110 by a predetermined interval. It consists of a blade 122 located at the top. At this time, the blade 122 is rotatably coupled to one side end of the blade holder 121 to enable the upper and lower position adjustment of the blade 122, or is integrally coupled with the angle control lever (not shown) It is preferable to be coupled so that the angle can be adjusted according to.

The power transmission unit 130 is connected to the mounting unit 110, respectively, and transmits the rotation and linear movement of the driving unit 140 to the mounting unit 110, may be configured as shown in FIG. As shown in 3, it may be composed of a screw, as shown in Figure 4 may be composed of a worm gear.

As shown in FIGS. 2 and 3, the driving unit 140 supports and transfers the motor 141 for rotating the bar or screw and the motor 141 when the power transmission unit 130 is a bar or a screw. , The support frame 142 to be moved later, the guide portion 143 for guiding the movement of the support frame 142 by supporting both sides of the support frame 142, and the motor 141 is connected to the support frame 142 It may be composed of a linear movement member 144 for linear movement. That is, when the support frame 142 is linearly driven by the driving of the linear motion member 144, the motor 141 supported by the support frame 142 is linearly moved, and the linear motion of the motor 141 is the motor 141. The power transmission member 130 and the hook portion 110 connected to the front and rear to move, the power transmission member 130 and the hook portion 110 is rotated in accordance with the drive of the motor 141, the hook portion 110 ) And rotational motion and linear motion at the same time.

In addition, the driving unit 140 may be configured as a motor 141 for driving a worm gear when the power transmission unit 130 is a worm / gear, as shown in FIG. That is, when the motor 141 is driven, the worm / gear converts the rotational motion of the motor 141 into a linear motion and a rotational motion, thereby simultaneously providing the rotational motion and the linear motion to the plug portion.

In addition, the driving unit 140 is connected to the control unit 150. The controller 150 controls the linear motion member 144 to control the linear speed of the drive unit 140. In addition, the controller 150 controls the plurality of driving units 140 at the same time so that the plurality of plugs 110 can rotate and linear movement at the same time.

Referring to the operation of the root vegetable incision according to an embodiment of the present invention configured as described above are as follows.

 First, the root vegetables to be cut are fixed to the fixing protrusions 113 of the support part 112 by being pinned to the pins 111 of the respective socket parts 110, and then, when power is applied, the controller 150 controls each of the driving parts 140. The driving signal is transmitted, and each driving unit 140 drives simultaneously according to the driving signal of the control unit 150. At this time, the driving unit 140 is a rotary motion and a linear motion by the rotational motion of the motor 141 and the linear motion of the linear motion member 144, the rotational motion and the linear motion through the power transmission member (130) Is passed to 110. In addition, the drive unit 140 is rotated by the drive of the motor 141, the rotational movement of the drive unit 140 is converted into a linear movement and a rotational movement by the power transmission member 130, the hook portion 110 Rotational and linear motions may also be transmitted. Then, the root vegetable inserted into the hook portion 110 is rotated integrally with the hook portion 110 while advancing by the pitch of the screw or thread of the power transmission unit 130 or by the linear speed of the driving unit 140 to the blade portion 120. By passing through it is cut into a spiral shape.

As such, one embodiment of the present invention is capable of mass production by cutting a large amount of root vegetables into a spiral shape at once and improves the convenience of operation by an automated process.

Figure 5 is a cross-sectional view showing a root vegetable incision according to another embodiment of the present invention.

Another embodiment of the root vegetable incision as shown in Figure 5 is a plurality of hooks 210 for fixing the root vegetables, and the blade portion 220 is provided on the upper portion of each of the racks 210 to cut the root vegetables 220 ), A screw 230 connected to the holder 210, and a handle 140 for rotating and linearly rotating the screw 230.

Here, the hook portion 210 and the blade portion 220 is made of the same configuration as the hook portion 110 and the blade portion 120 of one embodiment, the drive unit 140 for rotating and linearly rotating the screw 230 and Instead of the power transmission unit 130 is provided with a handle unit 240.

The screw 230 extends integrally from the center of one end of the housing portion 210 so as to penetrate the front surface of the housing 100 so that the housing portion 210 is located outside the front of the housing 100, and the interior of the housing 100. Is supported by the support bracket 232 and penetrates the rear of the housing 100 is connected to the handle portion 240. Here, the support bracket 232 is formed with a screw thread 233 engaged with the screw 230 so that the screw 230 can rotate and move forward and backward.

The handle part 240 is installed at one end of the screw 230 penetrating the rear of the housing to rotate the screw 230.

That is, the root vegetables to be cut are fixed to the fixing protrusions 213 of the support parts 212 by pins 211 of each of the rack parts 210, and then rotate the screw 230 by rotating the handle part 240, and the screw The 230 is engaged with the support bracket 232 and the rotational movement and linear movement, the rotational movement and the linear movement of the screw 230 is transmitted to the holder 210 to be advanced by the pitch of the screw 230 By passing through the blade portion 220, the root vegetables are cut in a spiral shape.

As described above, another embodiment of the present invention is capable of mass production by cutting a large amount of root vegetables into a spiral shape at once and improving the convenience of operation.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications Equivalents should be considered to be within the scope of the present invention.

100: housing 110, 210: rack
111,211: pin 112,212: support
113,213: Fixed protrusion 120,220: blade portion
121: blade holder 122: blade
130: power transmission unit 140: drive unit
141: motor 142: support frame
143: guide portion 144: linear motion member
150: control unit 230: screw
232: support bracket 240: handle portion

Claims (6)

A plurality of racks for fixing the root vegetables;
Blade parts for cutting the root vegetables located on the outside of each of the rack;
A power transmission unit connected to each of the rack units to transmit rotational and linear motions of the drive unit to the rack units; And
It includes a drive unit for providing a rotational motion and a linear motion to the power transmission unit,
The root vegetable is a root vegetable incision, characterized in that the incision is made in a spiral shape. The method of claim 1,
The drive unit is connected to the control unit for controlling the operation of the drive unit, the control unit is a root vegetable incision, characterized in that for controlling the linear speed of the drive unit. 3. The method according to claim 1 or 2,
Root vegetable incision, characterized in that the power transmission portion of the bar, screw, worm gear. The method of claim 1,
Root vegetable incision is characterized in that the root portion is composed of a pin to which the root vegetable is inserted, and a support for fixing the pin and fixed to one side of the root vegetable fitted to the pin. A plurality of racks for fixing the root vegetables;
A blade portion provided at an upper portion of each of the stand portions to cut root vegetables;
Screws respectively connected to the holder; And
Root vegetable incision, characterized in that it comprises a handle for rotating the screw forward and backward. The method of claim 5, wherein
Root vegetable incision is characterized in that the root portion is composed of a pin to which the root vegetable is inserted, and a support for fixing the pin and fixed to one side of the root vegetable fitted to the pin.

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