KR200485638Y1 - Cutting apparatus for rice cake - Google Patents

Abstract

The present invention discloses a rice cake cutting apparatus capable of easily realizing cutting at the same time as a karaoke molding.
A cutting device according to the present invention is provided with a kneading water input panel for feeding a kneading product to an upper portion of a main body, and a compressor for compressing the kneading product is disposed at the lower end of the kneading water input panel, And a discharger for discharging the rice cake into the cutter to cut the rice cake to a predetermined length, which is installed on the front surface of the discharge machine and has a high thermal conductivity, A cooler for cooling the temperature of the cutter knife to a predetermined value or less; and a drive motor installed in the main body and providing a rotational force of a set torque to the cutter knife; And the volume of the cut rice cake is contracted according to the cooling action of the cooler to enlarge the gap between the cut rice cake and the inflow product.
Therefore, the present invention has the effect of not only simplifying the cooling process of the rice cake, but also speeding up the production of the rice cake by performing the cutting process simultaneously with rapid cooling by the electric method of the rice cake which is discharged after molding .

Description

{CUTTING APPARATUS FOR RICE CAKE}

More particularly, the present invention relates to a method and apparatus for cutting a rice cake, and more particularly, by performing direct cooling and cutting in the process of discharging the rice cake after the molding of the rice cake to eliminate the water cooling process by the water tank, The present invention relates to a chopping machine capable of cutting a rice cake.

In general, the rice cake used for rice cake soup or rice cake cake is formed by putting rice cake into a known rice cake manufacturing apparatus and compressing the rice in the inside of the rice cake producing apparatus, and discharging it to a discharge port formed in a certain size in the rice cake manufacturing apparatus. Since the length of the gulleck formed as described above is continuously discharged through the discharge port, when the gullette is discharged to the discharge port, the gullette is cut into a certain size using the scissors, and the gullette cake discharged through the discharge port is hot and the surface is too thick. In order to prevent the sticky rice cake from sticking to each other by cooling the hot stuff, the rubber bottle filled with water is placed in front of the discharge port, and the rice gruel which is discharged through the discharge port is passed through the water in the rubber bottle and cooled and cut using scissors .

However, as described above, the rubber pail containing the water used for cooling the rice cake is not used only for one purpose of cooling the rice cake, but it is used for all purposes used in the mill such as receiving red pepper powder. have.

Accordingly, the accompanying patent document discloses a karaoke rice cooling and cutting device capable of cutting a kara rice cake to a certain length while cooling it. That is, as shown in FIG. 1, a cooling bath 10 for cooling the rice cake which is discharged from the rice cake manufacturing apparatus, and a rice bowl support (not shown) for storing the rice husk cake 30 formed at one side of the cooling bath 10 20).

The cooling tank 10 for cooling the rice cake is formed to have an open top and water for cooling the rice cake is contained in the inside of the cooling tank 10. A valve for discharging the water contained in the cooling tank 10 A drain pipe 11 formed with a drain pipe 13 is formed. A water pipe 11 having a valve 13 is formed at the lower part and a cutter 12 for cutting the rice cake which is introduced into the cooling bath 10 is provided at one side of the cooling water tank 10, ).

It is most preferable that the cutting knife 12 formed on one side of the cooling tank 10 is formed on one entire side, but it is also possible to use the cutting knife 12 only by fixing it on the center portion. As described above, at the one side of the surface of the cooling tank 10 where the cutting knife 12 is formed at one side and the cutting knife 12 is formed so as to be protruded, Thereby forming a rice crockery 20 on which the rice cake 30 is placed.

The rice crockery 20 in which the storage box 30 containing the rice cake cut by the cutting knife 12 is placed is placed in the cooling bath 10 so that the storage box 30 is positioned below the cutting knife 12, So that the rice cake cut by the cutting knife 12 is immediately contained in the storage box 30 located at the bottom.

The above-described rice cake cutting device stores the kara rice cake in the storage box while cooling the rice cake, so that the operation can be performed at a time, thereby saving the work time. However, it is pointed out that it is not an improved structure for automation because it induces the efficiency of the worker's work rather than the simplification of the process as the cut-out after the cooling process is performed by the cooling water stored in the water tank. .

That is, the rice cake which is discharged from the rice cake molding machine is guided to the water tank by the artificial operation appropriately to carry out the cooling process, and after the lapse of a predetermined time, the operator carries out the cutting process in which the rice cake is cut. In addition, after the cutting process, the drying process for drying the rice cake is carried out to reach the packaging process. Thus, as will be appreciated, it is realistic that the cooling process does not achieve automation, and the cutting process has a problem that a lot of time must be devoted to a continuous process after the cooling process.

Korean Patent Publication No. 10-2001-0085489, published on Oct. 08, 2004, entitled "

The object of the present invention is to simplify the cooling process of the rice cake by performing the cutting process at the same time that rapid cooling by the electric method is performed for the rice cake after the molding In addition, the present invention provides a rice cake cutting apparatus capable of imparting quickness to the production of rice cakes.

Another object of the present invention is to provide a rice cracker cutting device capable of successively cutting a rice cake after discharging and fixing the rice cake by suppressing a chilling phenomenon caused by heat generation by performing rapid cooling in the process of molding and discharging the rice cake.

Another object of the present invention is to provide a glaze-shaped rice cake which can remove the sticking phenomenon of the glaze rice cake in the cutting process by inducing the space between the glaze rice cake which is cut and discharged and the glaze rice cake which is continuously discharged by using the shrinkage phenomenon caused by rapid cooling of the rice glaze rice cake Cutting apparatus.

Another object of the present invention is to provide a rice cake cutting apparatus capable of removing the sticking phenomenon between cut pieces of rice cake by supplying cooling water between the glaze rice pits formed in the cutting step of rice cake.

To achieve the above object, according to the present invention, there is provided a rice cake cutting apparatus comprising: a kneading water input panel for feeding a kneaded product to an upper portion of a main body; a compressor for compressing kneaded water at a lower end of the kneading water input panel; And a discharger for discharging the compressed kneaded material to a predetermined pressure to form a rice cake. The apparatus for cutting a rice cake molding machine according to any one of claims 1 to 3, wherein the cutter is a metal material having a high thermal conductivity, A cooler for cooling a temperature of a cutter knife installed in the cutter and a cutter to a temperature lower than a reference value, and a drive motor provided in the body to provide a rotational force of a set torque to the cutter knife; And the volume of the cut rice cake is contracted according to the cooling action of the cooler to enlarge the gap between the cut rice cake and the inflow product.

The cutter according to a preferred embodiment of the present invention comprises a housing coupled to an end of the ejector and a cooler contacting the one end of the housing and performing continuous cooling by an electrical signal; The housing includes a discharge tube for guiding the kneaded material discharged through the discharge device to a predetermined shape, a discharge tube for extending the discharge tube forward, and a structure rotatable on the rotation axis projecting from the installation surface of the discharge tube A cutter knife for cutting the kneaded material introduced into the inlet tube in a state of being cooled by the cooler, and a drive gear for providing the rotational force of the drive motor with the cutter knife.

Further, a drive motor according to a preferred embodiment of the present invention is installed apart from the cutter; And the driving force of the driving gear is transmitted by a driving wire interlocking with a driving shaft of the driving motor.

Further, the cutter knife according to a preferred embodiment of the present invention includes: an annular gear on an outer circumferential surface so as to engage with the drive gear; a mounting hole provided at a central portion of the annular gear to be rotatable from the rotary shaft; And a cutting portion having a space formed therein for cutting the kneaded material between the mounting hole and the annular gear, and for allowing the kneaded material to continuously flow into the inlet pipe after the cutting.

According to a preferred embodiment of the present invention, the driving motor includes a reduction gear, the cutting portion is provided with a blade in a rotating direction, and the rotation intensity of the cutting portion is increased according to the reduction ratio of the driving gear and the annular gear .

According to a preferred embodiment of the present invention, a front surface of the cutter is provided with a cooling water supply pipe for supplying cooling water to the inside of the housing, and a cooling water inlet port for communicating with the cold water supply pipe to discharge cooling water from the installation surface of the inlet pipe Further comprising; And the cooling water inlet is installed between the space portions of the cutter knife.

Further, the cooler according to a preferred embodiment of the present invention is characterized by being a Peltier element.

The rice cake-cutting apparatus proposed in the present invention not only simplifies the cooling process of the rice cake, but also speeds up the production of the rice cake by performing the cutting process simultaneously with rapid cooling of the rice cake after the molding by the electric method It is possible to produce korean rice cake for a patient or a child quickly. In addition, in the present invention, by using the shrinkage phenomenon caused by the rapid cooling of the rice cake, it is possible to eliminate the phenomenon of sticking the rice cake in the cutting process by inducing the space between the rice cake to be cut and discharged and the rice cake to be continuously discharged .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view for explaining a conventional rice cake cooling and cutting apparatus; FIG.
Fig. 2 is a perspective view showing a molding machine equipped with a rice cake cutting apparatus according to the present invention. Fig.
3 is a perspective view showing the cutting apparatus of Fig.
4 is an exploded perspective view illustrating the operation of the cutting apparatus of FIG.
5 is a perspective view showing a cutting apparatus as another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the rice cake cutting apparatus is connected to the outlet of the rice cake molding machine and immediately cuts out the rice cake which is formed and discharged. Here, since the discharged rice cake is in a chipped state, it is cooled and cut, and the cutter itself is cooled by including the cutter knife. Such cooling rapidly shrinks the karat cake in the chiseled state, and alleviates the adhesive force between the cutter knife and the karat cake.

That is, it is difficult to cut the karat cake in the chipped state by the cutter knife, but the temperature of the karat cake is quenched to alleviate the chattering condition and at the same time, air or water is supplied onto the cut part in the cutting process to remove the adhesive force between the cut surfaces. That is, the cut karat cake is sharply lowered in temperature by the cooler, so that the gap between the discharged karat cake and the cut karat cake is widened to remove the adhesive force.

As described above, in the present invention, cutting and quickly cutting the karaya cake at the same time as molding is intended to simplify and quickly produce the karaya cake. It is intended to quickly produce such a rice cake, which is for producing a rice cake for a patient or a child, and does not increase the cutting speed of the rice cake in the conventional method. That is, when the cutting speed is high in the state of the karat cake, the adsorption of the karat cake is carried out, and re-separation by manual operation is required.

As shown in FIG. 2, the rice cake molding machine disclosed in the present invention is provided with a kneading water input panel 211 for inputting a kneaded product into an upper part of a body 213 of a predetermined shape, A compressor 215 for compressing the kneaded product, and an ejector 217 for ejecting the compressed kneaded product at a predetermined pressure to form a rice cake.

The cutter 201 cuts the cutter knife installed at the front surface of the ejector 217 to a predetermined length and cools the cutter knife installed at the cutter 201 to a temperature lower than a reference value A driving motor 203 installed in the main body 213 for providing a rotational torque of a set torque and a driving motor 203 for transmitting rotational force of the driving motor 203 to the cutter knife provided in the cutter 201 And a driving wire 205.

The drive motor 203 for transmitting the power of the cutter 201 is separated from the drive wire 205 by a cutter knife. The motor 203 is also cooled by the cooler 207, and energy is wasted unnecessarily. Therefore, the driving motor 203 is separated from the cutter knife in the cutter 201, and transmits the rotational force at a position separated by the driving wire 205.

The driving motor 203 is rotated at a reduced speed and the driving wire 205 extending from the rotational axis of the driving motor 203 is rotated in response to the driving signal of the switch 231 The rotational force is transmitted. The driving wire 205 rotates the rotary shaft of the cutter knife provided inside the cutter 201, and a cutting process is performed in addition to the litter molding process.

The cooler 207 attached to one side of the cutter 201 is preferably electrically cooled, and in the present invention, a Peltier element (control bag element) may be applied. The Peltier element is an element in which one side is cooled by an electrical signal, and is operated by DC power. Therefore, it is necessary to supply DC power for controlling the operation of the Peltier element, and a separate converter is installed inside the main body 213. [

3 is a perspective view showing a cutter according to the present invention.

As shown in the drawing, the cutter 201 includes a housing 313 which is connected to the end of the ejector 217 and is made of a metal material having a high thermal conductivity, and a housing 313 which is in contact with one end of the housing 313, The housing 313 includes a charging pipe 315 for guiding the kneaded material discharged through the discharging unit 217 into a predetermined shape and a discharge pipe 315 for guiding the charging pipe 315 forward And a cooling water supply pipe 315 connected to the inlet pipe 315 for cooling the cooling pipe 207. The cooling pipe 207 is connected to the inlet pipe 315, And a drive gear 319 for providing the rotational force of the drive wire 205 to the cutter knob 317. The cutter knife 317 includes a cutter knife 317,

At least one cutter knife 317 has a gear shape to engage with the driving gear 319 on an outer circumferential surface of the housing 313 and a coupling groove 321). The coupling groove 321 allows separation between the ejector 217 and the cutter 201 so as to remove a contaminant flowing between the cutter knife 317 and the inlet pipe 315.

However, if the shape of the rice cake is to be changed, the shape of the feed pipe 315 will be modified and processed. In addition, the discharge pipe 311 can be extended along the length of the rice cake, and the rotational speed of the cutter knife 317 must be variable. If necessary, the angle of the installation surface of the feed pipe 315 can be changed to change the cutting angle of the rice cake.

The cutter knife 317 is preferably made of a metal material having a high thermal conductivity and the cutter blade 317 is cooled together with the housing 313 during the cooling process by the cooler 207. As described above, the cooling of the cutter knife 317 is intended to easily cut the kneaded product maintaining the chipped state, and the cut kneaded product is cooled in the process of being fed through the feed pipe 315 to the cooled housing 313 ).

The contraction of the kneaded product reduces the volume of the cut karat cake, so that the gap between the cutting surfaces is widened, and the mutual separation is facilitated. That is, when the kneaded material supplied through the discharge unit 217 is cut by the cutter knife 317 and then introduced into the injection pipe 315, the interval between the kneaded material supplied due to the shrinkage of the rust- It is widened and separated naturally.

Meanwhile, the cooler 207 has a structure in which a Peltier element using a control bag effect is applied and joined to one side of the housing 313. The Peltier element includes a heating plate, and cools the housing 313 in accordance with the amount of heat generated by the heating plate. The Peltier element is started by DC power, and is provided with a conversion circuit for converting the commercial power to DC power.

Accordingly, the cooler 207 is pre-cooled before power is supplied to cut the rice cake together with the start of the rice cake molding machine 200. The cooler 207 determines the capacity of the Peltier element in proportion to the required cooling temperature, and one Peltier element may be used or a plurality of low Peltier elements may be used.

4 is a perspective view for explaining a cutter structure of a cutter according to the present invention.

The cutter knob 317 is provided with an annular gear 401 on the outer circumferential surface so as to engage with the driving gear 319 and is rotatable from the center of the annular gear 401 The kneading machine 405 cuts the kneaded material between the mounting hole 405 and the annular gear 401 and inserts the kneaded material into the space portion 407 And a cutting portion 403 formed with a cutter 403.

The cutting portion 403 is provided with a blade in the rotating direction and increases the rotational strength of the cutting portion 403 according to the reduction ratio of the driving gear 319 and the annular gear 401, The kneaded product is easily cut.

The drive gear 319 is designed according to a gear ratio for raising the rotational strength of the cutter knob 317 to a set value and is provided with a rotational force from the drive wire 205 having a flexible structure. The driving wire 205 provides the driving force of the driving motor 203 to the driving gear 319. The driving motor 203 also includes a reduction gear to increase the rotational strength of the cutter knob 317 .

The driving wire 205 is connected to the driving shaft of the driving motor 203 and is connected to the driving gear 319 through the inside of the housing 313. This structure is based on the fact that the installation direction between the drive motor 203 and the drive gear 319 is different, and the drive gear 319 can be rotated without using the drive wire 205 according to the design change of the rice- You will be able to start it directly.

Two cutter knives 317 are provided according to the embodiment of the present invention, and drive gears 319 are provided at the center positions of the two cutter knives 317. Therefore, the two cutter knives 317 are interlocked by one drive gear 319, so that the rotation directions of the two cutter knives 317 are different. Accordingly, the installation direction of the cutting portion 403 constituting the two cutter knives 317 is also different.

The cutter 201 thus configured operates with the kicker 207 and the cooler 207 to set the housing 313 of the cutter 201 and the cutter knob 317 Cool to temperature. Thereafter, the kneaded material supplied through the discharge unit 217 flows into the supply pipe 315 of the cutter 201, and flows through the spaces 407 secured during rotation of the cutter knife 317. Further, the kneaded product is cut by the cutting portion 403 due to the rotation of the cutter knife 317.

The kneading water introduced into the inlet pipe 315, that is, the rice cake is cooled (cooled) by the cooling temperature of the housing 313, And the volume is contracted.

Therefore, a gap is created between the rice cake cut by the cutting portion 403 and the kneaded product introduced through the discharge device 217, and the gap becomes wider as the volume of the cut rice cake is contracted. This extends the distance between the cut karat cake and the batter to induce complete separation between the cut karat cake and the batter.

By continuously repeating the above process, continuous cutting is performed along with the formation of the rice cake, thereby remarkably reducing the cooling process by the water and simplifying the manufacturing process of the rice cake.

As another embodiment of the present invention, another cooling water can be supplied during the rotation operation of the cutting unit 403. This provides cooling water between the cut karat cake and the kneaded water to make it easier to separate the karat cake and the kneaded water.

5 is a perspective view showing the front and rear surfaces of the cutting machine according to the present invention.

As can be seen, a cooling water supply pipe 501 for supplying cooling water to the inside of the housing 313 is provided on the front surface of the cutter 201, and the cooling water is connected to the inlet pipe A cooling water inlet 503 is provided so as to be discharged on the installation surface of the cooling water inlet 315.

It is preferable that the cooling water inlet 503 is installed between the space portions 407 of the cutter knife 317. That is, the cooling water is supplied from the inside of the annular gear 401, so that the kneaded product is cut by the cutting portion 403 and the cooling water is supplied.

The cooling water is preferably a drinkable water, and if necessary, cooled clean air may be used. In the present invention, the cooling means is supplied to the gap between the cut karat cake and the kneaded product, so as to provide a separation between the karat cake and the kneaded product. Therefore, the cooling water proposed in the embodiment of the present invention can be defined as a cooling means including cooling water and cooling air.

Therefore, the kneaded water flowing through the discharge unit 217 is supplied to the inlet pipe 315 of the cutter 201. In the process of cutting the kneaded product by the cutter knife 317, The cooling water entering through the cooling water inlet 503 penetrates into the cut surface of the kneaded product, that is, into the cutting space.

This causes the cooling water to flow into the space formed when the kneaded product is cut by the cutting portion 403 of the cutter knife 317, thereby inducing a separation between the cut rice cake and the kneaded product. In addition, the glacial rice introduced into the inlet pipe 315 is contracted by the cooling temperature of the housing 313, and the adhesion between the cooked rice cake and the kneaded water is reduced as the cooling water is supplied and held between the gaps with the incoming kneaded product prevent.

Accordingly, the cutter 201 shown in the present invention cuts by the cooling method in the course of feeding the batter and the rice cake, thereby making it possible to remarkably reduce the manufacturing process of the rice cake, .

200: karaoke machine 201: cutter
203: drive motor 205: drive wire
207: cooler 211: dough water inlet panel
213: main body 217: ejector
231: Switch 311:
313: housing 315: input tube
317: Cutter knife 319: Driving gear
321: fastening groove 323:
401: annular gear 413: cutting portion
405: Installation hole 407:
501: cooling water supply pipe 503: cooling water supply hole

Claims (7)

A cutter 201 including a cutter knife 317 for cutting a kicked rice cake which is installed on the front surface of the ejector 217 to a predetermined length and which has a heat conductivity higher than that of the cutter knife 317; And a drive motor (203) installed in the main body (213) for providing a rotational torque of a set torque to the cutter knob (317)
The cutter 201 includes a housing 313 coupled to an end of the ejector 217 and the housing 313 is connected to an inlet pipe 217 for guiding the kneaded material discharged through the ejector 217 into a predetermined shape 315 and a rotation shaft 323 protruding from the installation surface of the injection pipe 315 and having a structure capable of rotating with respect to the cooler 207 A cutter knife 317 for cutting the kneaded material introduced into the feed pipe 315 in a state cooled by a driving knife 317 and a driving knife 317 for providing a rotational force of the driving motor 203 to the cutter 317, (319);
Two cutter knives 317 are provided and annular gears 401 are provided on the outer circumferential surface so as to engage with the drive gears 319. Two cutter knives 317 are formed by one drive gear 319 An attachment 405 provided at the center of the annular gear 401 so as to be rotatable from the rotary shaft 323 and an attachment 405 for cutting the kneaded material between the attachment 405 and the annular gear 401, And a cutting portion 403 in which a space portion 407 is formed so that the kneaded material continuously flows into the injection tube 315;
Wherein the volume of the cut rice cake is contracted according to the cooling action of the cooler (207) to expand the gap between the cut rice cake and the inflow product.
delete The method according to claim 1,
The driving motor 203 is installed apart from the cutter 201;
Wherein power of the drive gear (319) is transmitted by a drive wire (205) interlocked with a drive shaft of the drive motor (203).
delete The method of claim 3,
The drive motor 203 includes a reduction gear;
Wherein the cutting portion is provided with a blade in a rotating direction and the rotating strength of the cutting portion is increased according to a deceleration ratio of the driving gear and the annular gear. The method according to any one of claims 1, 3, and 5,
A cooling water supply pipe 501 for supplying cooling water to the inside of the housing 313 and a cooling water supply pipe for supplying cooling water to the cooling water supply pipe 501 so that cooling water is discharged from the installation surface of the supply pipe 315 Further comprising a cooling water inlet (503);
Wherein the cooling water inlet (503) is installed between the space portions (407) of the cutter knife (317). The method according to any one of claims 1, 3, and 5,
Wherein the cooler (207) is a Peltier element.

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