KR20140137696A - Dry laver manufacturing apparatuse - Google Patents

Abstract

More particularly, the present invention relates to a Kim food manufacturing apparatus, and more particularly, to a Kim food manufacturing apparatus, in which first steaming is carried out by a first conveying unit, a first liquid composition and a solid composition are supplied and coated and laminated, The second steaming layer coated with the composition is supplied to the upper side of the first steaming layer, and the second steaming layer coated with the second liquid composition is laminated on the first steaming layer so as to be in contact with the first steaming layer. , It is possible to improve the productivity and improve the working efficiency as it is cut to a certain size.

Description

[0002] Dry laver manufacturing apparatus [0003]

More particularly, the present invention relates to a Kim food which is capable of improving the productivity as a result of coating and laminating a liquid composition and a solid composition between two sheets of Kim, Manufacturing apparatus.

Generally, dry laver is produced in the world, about 200 million per year, and is produced in Japan, Korea, and China, and about 80% of the Korean produce is mainly produced in Jeollanam-do.

However, since the production period of Kim is concentrated in the winter season, it is urgent to develop appropriate processing methods due to the problems such as the price drop due to overproduction.

There is Kimbugae as a processed product of Kim, but Kimbugae is made by applying glutinous rice paste to the dried kimchi, adding glutinous rice to it, applying glutinous rice again, sprinkling sesame seeds, drying it for 1 ~ 2 days in the shade, Fried and edible.

However, because glutinous rice paste is used to bond Kim and Kim, the Kimbugae is distorted after drying and it is not only poor in appearance but also hard and vigorous. In addition, Consumption of processed foods is extremely low.

Korean Patent Publication No. 96-10969 discloses a method of manufacturing Kimbu-kyung, which uses glutinous rice flour mixed with sorbitol, sugar, salt, MSG and water as a seasoning glutinous rice paste, 28843 For the preparation of kimbukgak, it is prepared with glutinous rice paste on kimchi, cut into appropriate size, cut into appropriate size, dried at 40 ~ 60 ℃ for 2 ~ 3 hours and dried at 20 ~ 50 ℃ It is dried, fried in oil and packed.

However, these Kimbugae are not uniform in size due to the irregularity of the appearance of dried kimchi after drying due to the moisture and starch contained in the seasoning glutinous rice paste. And it has a disadvantage in that the Kimbuga is tough and hard so that there is no taste inherent to Kim, and the merchantability is remarkably deteriorated as Kim.

In addition, Kim's main consumption areas are concentrated in countries where rice is a stock, such as Korea, Japan, and China, so there is a limit to sales. To solve this problem, various methods have been developed to increase the consumption of each country It is desperately required.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and a device for transferring a first liquid by a first transfer part, 2 liquid composition is applied to the upper side of the first laver so that the side of the second laver coated with the second liquid composition is in turn brought into contact with the first laver by the lamination part, It is an object of the present invention to provide a kim food manufacturing apparatus capable of improving the productivity as it is cut to a certain size after roughing and improving the working efficiency.

According to an aspect of the present invention, there is provided an apparatus for supplying a steaming agent, comprising: a first feeding section for feeding steaming, a first steaming feeder for feeding a first steaming feed to the first feeding section, A first liquid composition supply means for applying a first liquid composition on an upper surface thereof, a solid composition supply means for supplying a solid composition onto the upper surface of the first steeped and transported first liquid composition, A second feed section for feeding the second steaming layer to be laminated on the upper side of the first steaming section fed with the composition, a second steaming section for feeding the second steaming section one by one to the second feeding section, A second liquid composition supply means for applying a liquid composition to the upper surface of the second frying pan; a second liquid composition to be transferred by the first transfer portion; The solid composition A lamination supply means for supplying the upper surface of the second steep to the upper side of the supplied first steep for feeding the upper surface of the second steep to correspond to the upper surface of the first steep, Drying means for drying the first pressurized first and second pressurized portions, and cutting and discharging means for cutting and discharging a plurality of pressurized first and second pressurized first and second pressures in the conveying direction.

Preferably, the first transfer unit includes a first base frame, a plurality of first transfer rollers formed along the first base frame, wherein the plurality of first transfer grooves are spaced apart from each other at a predetermined interval, A plurality of first conveying rods connected to the first conveying rollers so that the first conveying rollers are rotatable in the same manner and provided in the first conveying grooves at respective corresponding positions of the first conveying rollers so as to rotate in an endless track to convey the steels, And a first conveyance driving unit that rotates the roller to rotate the first conveyance line to convey the steels.

The first supply means includes a first supply hole positioned above the first transfer portion for loading a plurality of first steels and discharged downward. The first supply hole has a size And a first conveying unit that is disposed below the first conveying unit and passes through the first conveying line in the upward or downward direction, A first supply frame for supplying the first supply frame to the first transfer line of the first transfer unit, and a second supply frame for supplying the first transfer frame to the first transfer line by sucking the outside air through the upper end of the first supply frame, A first lift section for lifting and lowering the first supply frame, and a second lift section for lifting and lowering the first supply frame and a second lift section for moving the first and second lift sections, For controlling the lifting section 1 comprises a supply controller.

The first liquid-phase composition supply device includes a first liquid-phase hopper having a first liquid-phase composition and elasticity. The first liquid-phase composition supply device has elasticity and is rotatably provided on the first base frame. A first application roller for applying the composition, a first liquid composition supplied and supplied between the first application roller and the first liquid hopper, and a second liquid composition supplied between the first application roller and the first liquid hopper by pressurizing the first application roller, A first liquid supply roller for regulating and uniformly distributing the amount of the first liquid composition applied on the upper surface thereof, a second liquid supply roller disposed below the first transfer part for applying the first liquid composition by the first liquid supply roller, A first liquid phase supporting roller for supporting the first liquid phase supplying roller, and a first liquid phase driving part for rotating the first liquid phase supplying roller.

The solid composition supply means includes at least one solid hopper for storing the solid composition, a solid composition rotatably disposed at the lower end of the solid hopper, and a solid composition stored on the upper surface of the first liquid composition coated with the first liquid composition And a solid-state drive unit for rotating the solid supply roller.

The second conveying unit may include a second conveying unit, a second conveying roller, a plurality of second conveying rollers formed along the second base frame, the second conveying rollers being spaced apart from each other by a predetermined distance, A plurality of second conveying rods connected to the conveying rollers so as to rotate in the same manner and provided in the second conveying grooves at respective corresponding positions of the respective second conveying rollers for conveying the second steels by an endless track rotation, And a second conveyance driving unit that rotates the conveyance roller to rotate the second conveyance line to convey the second conveyance line.

And the second supply means includes a second supply hole for discharging the second plurality of rods located on the upper side of the second transfer portion and discharging the second plurality of rods, A second stacking body disposed below the second transferring unit and configured to pass upward or downward between the angles of the plurality of second transferring rods, A second supply frame for supplying the second supply frame to the second transfer line of the second transfer unit, and a second supply frame for sucking the second laid on the second loading body by sucking the outside air through the upper end of the second supply frame, A second lift section for raising and lowering the second feed frame, and a second lift section for raising and lowering the second feed frame, and a second lift section for raising and lowering the second feed frame, For controlling the lifting section 2 comprises a supply controller.

The second liquid-phase composition supply means includes a second liquid-phase hopper containing the second liquid composition. The second liquid-phase hopper has elasticity. The second liquid-phase hopper is rotatably provided on the second base frame. A second application roller for applying the composition, a second liquid composition supplied and supplied between the second application roller and the second liquid hopper, and a second liquid composition supplied between the second application roller and the second liquid hopper by pressurizing the second application roller, A second liquid feed roller for regulating and uniformly distributing the amount of the second liquid composition applied on the upper surface, a second liquid feed roller located below the second feed portion and coated with the second liquid composition by the second liquid feed roller, A second liquid phase supporting roller for supporting the second liquid phase supplying roller, and a second liquid phase driving unit for rotating the second liquid phase supplying roller.

The laminated supply means includes a laminated base frame, a laminated rotating frame rotatably provided on the laminated base frame, a laminated mounting frame provided on the laminated rotating frame for positioning the first conveying unit or the second conveying unit, And a second conveying unit that is provided in the stationary frame to suck the outside air to suck the second steaming part conveyed by the second conveying part or to supply the sucked second steaming part to the upper side of the first steaming part conveyed by the first conveying part And a lamination control unit for controlling the laminated adsorption unit and the lamination driving unit. The lamination unit includes a laminated adsorption unit for discharging and separating the laminated carrier frame from the laminated carrier frame, a lamination driving unit for moving up and down the lamination rotation frame,

The stacked adsorption unit may include a plurality of adsorption holes formed along the laminated carrier frame to suck or discharge air, and an adsorption blower blowing air to suck or discharge outside air through the adsorption holes .

The laminated dental implant frame according to any one of claims 1 to 3, wherein the laminated dental impression frame comprises: a dental fixed frame fixed to the laminated rotary frame; a stationary adsorption frame having a plurality of adsorption holes of the laminated adsorption section and positioned between the plurality of second transfer lines; And a mounting stopper frame which is connected to the stationary frame and protrudes beyond the surface of the stationary adsorption frame on which the suction holes are formed and stops the end of the second channel conveyed by the second conveyance part.

In addition, when the stationary adsorption frame of the laminated stationary frame is located at the second conveyance part for adsorbing the second steaming, the position of the surface on which the adsorption holes are formed is the same as a virtual horizontal plane passing the uppermost end of each second conveyance line And the position of the surface on which the suction holes are formed is positioned above the imaginary horizontal plane passing through the uppermost end of each first transfer line when the second transfer line is positioned to the upper side of the first transfer line.

The pressing portion includes a first pressing roller having elasticity and rotatably mounted on the first base frame for pressing the second steep laminated on the first steeping face in the first steaming direction, A second pressing roller provided on the lower side of the first pressing roller for supporting the lower side of the first Kim pressed downward and a second pressing roller provided between the first pressing roller and the second pressing roller, And a pressing guide roller for pressing the pressing roller.

In addition, the drying unit includes a drying furnace provided in the first sending unit, and a heat supply unit for supplying heat to the drying furnace.

The cutting and discharging means includes a first cutting roller provided on the first conveying portion and having a plurality of first cutting edges for cutting the dried kimchi in the downward direction by the drying means, A second cutting roller having a plurality of second cutting blades for cutting the dried foodstuff with the blade, and a second cutting blade for rotating the first cutting blade and the second cutting roller, And a cutting drive unit for cutting the Kim food by a blade.

As described above, according to the Kim food manufacturing apparatus of the present invention, the first liquid composition and the solid composition are sequentially supplied to and coated on the first wick by the first transfer portion, and the second liquid composition The second steels can be stacked on top of the first steels easily by the stacking portion, and thus the production time due to automation can be shortened It is a very useful and effective invention that can shorten, as well as increase work efficiency by increasing production.

1 is a view showing a Kim food manufacturing apparatus according to the present invention,
FIG. 2 is a side view of a Kim food manufacturing apparatus according to the present invention,
FIG. 3 is a view showing a feeding section of the Kim food manufacturing apparatus according to the present invention,
4 is a view showing a first Kim supply unit of the Kim food manufacturing apparatus according to the present invention,
5 is a view showing the first liquid composition supplying means of the Kim food manufacturing apparatus according to the present invention,
FIG. 6 is a view showing a solid composition supplying means of the Kim food manufacturing apparatus according to the present invention,
FIG. 7 is a view showing a second conveyance unit of the Kim food manufacturing apparatus according to the present invention,
8 is a view showing the second Kim supply part and the second liquid composition supply part of the Kim food manufacturing apparatus according to the present invention,
FIG. 9 is a view showing a stacking and feeding means of the Kim food manufacturing apparatus according to the present invention,
10 is a perspective view of the lamination supply means according to the present invention,
11 is a view showing a laminated mount frame and a laminated adsorption unit of the lamination supply means according to the present invention,
12 is a view showing an operating state of the stacking and feeding means according to the present invention,
Fig. 13 is a view showing a crushing portion and a drying means of a kimchi food manufacturing apparatus according to the present invention,
Fig. 14 is a view showing the cutting means of the Kim food manufacturing apparatus according to the present invention. Fig.

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

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

FIG. 1 is a view showing a Kim food manufacturing apparatus according to the present invention, FIG. 2 is a side view of a Kim food manufacturing apparatus according to the present invention, and FIG. 3 is a cross- FIG. 4 is a view showing a first Kim supply unit of a Kim food manufacturing apparatus according to the present invention, FIG. 5 is a view showing a first liquid composition supplying means of a Kim food manufacturing apparatus according to the present invention And FIG. 6 is a view showing a solid composition feeding means of the Kim food manufacturing apparatus according to the present invention, FIG. 7 is a view showing a second feeding section of the Kim food manufacturing apparatus according to the present invention, and FIG. Fig. 9 is a view showing a lamination supply means of a kimchi food manufacturing apparatus according to the present invention, and Fig. 10 is a view showing the second liquid supply means and the second liquid- A perspective view of the stacked supply means 11 is a view showing a laminated mounting frame and a laminated adsorption unit of the lamination supply means according to the present invention, FIG. 12 is a view showing an operating state of the lamination supply means according to the present invention, Fig. 14 is a view showing the crushing unit and the drying means of the frozen food manufacturing apparatus according to the invention, and Fig. 14 is a view showing the cutting means of the frozen food manufacturing apparatus according to the present invention.

As shown in the figure, the kim food manufacturing apparatus 10 includes a first transfer section 100, a first Kim supply means 200, a first liquid composition supply means 300, a solid composition supply means 400, The second liquid supply means 700, the lamination supply means 800, the compression unit 900, the drying means 1000 and the cutting and discharging means 1100, .

The first transfer part 100 is provided for transferring the impurities and the first irrigation device 200 is provided for supplying the first irrigation wafers 1 to the first transfer part 100 one by one.

The first liquid composition supplying unit 300 applies the first liquid composition 2 to the upper surface of the first blade 1 transferred by the first transfer unit 100, 1 is provided for supplying the solid composition 3 to the upper surface of the first laver 1 to which the liquid composition 2 is applied and transported.

The second transfer part 500 is provided to transfer the second liquid 4 and the second liquid 4 to be stacked on the upper side of the first liquid 1 supplied with the solid composition 3, And is preferably positioned in parallel with the transfer unit 100.

The second Kim supply means 600 is provided to supply the second Kim 4 one by one to the second transfer section 500 and the second liquid composition supply means 700 is provided to the second transfer section 500 by the second transfer section 500 And the second liquid composition 5 is applied to the upper surface of the second kim 4 transferred.

The lamination supply means 800 is configured to supply the second droplet 2 coated with the second liquid composition 5 transferred by the second transfer portion 500 to the first liquid composition 2 transferred by the first transfer portion 100, And the solid composition 3 are supplied to the upper side of the supplied first roots 1 so that the upper surface of the second roots 4 is supplied in an inverted manner so as to correspond to the upper surface of the first roots 1.

The squeezing unit 900 is provided for squeezing the stacked first and second rods 1 and 4 and the drying unit 1000 includes the first rope 1 and the second rope 4, And the cutting and discharging means 1100 cuts and discharges a plurality of dried pressed first and second rods 1 and 4 in the feeding direction.

As shown in FIG. 3, the first conveying unit 100 includes a first base frame 110, a first conveying roller 120, a first conveying line 130, and a first conveying driving unit 140).

A plurality of first conveying rollers 120 are provided along the first base frame 110, and a plurality of first conveying grooves 122 are formed to be spaced apart from each other at regular intervals.

The first conveying rods 130 are connected to the first conveying rollers 120 so that the first conveying rollers 120 rotate in the same manner and are provided in the first conveying grooves 122 at the corresponding positions of the first conveying rollers 120 And a plurality of teeth for feeding the first roots 1 are provided.

The first conveying drive unit 140 rotates the first conveying roller 120 and rotates the first conveying line 130 to convey the first conveying line 1.

4, the first loading body 210, the first supply frame 220, the first adsorption unit 230, the first lift driving unit 240 (see FIG. 4) And a first supply control unit 250. [

The first loading body 210 is located on the upper side of the first transfer unit 100 and is provided with a first supply hole 212 for loading a plurality of first rods 1 and discharging to the lower side, The holes 212 are formed to be smaller than the size of the first rods 1.

The first feeding frame 220 is positioned below the first feeding part 100 and passes through the first feeding rods 130 in the upward or downward direction, To the first transfer line (130) of the first transfer unit (100).

The first adsorption unit 230 sucks the first air 1 loaded on the first loading body 210 by sucking the outside air through the upper end of the first supply frame 220 or the adsorbed first air 1 To be supplied to the first transfer line 130 and to be separated from the first supply frame 220.

The first lift control unit 240 is provided to move up and down the first supply frame 220 and the first supply control unit 250 controls the first suction unit 230 and the first lift movement unit 240 .

5, the first liquid-phase composition supplying device 300 includes a first liquid-phase hopper 310 and a first application roller 320, a first liquid-phase supplying roller 330, a first liquid-phase supporting roller 340 and a first liquid phase driving part 350.

The first liquid hopper 310 contains the first liquid composition 2 and the first application roller 320 is elastic so as to be rotatable with respect to the first base frame 110, 1) so as to apply the first liquid composition (2).

The first liquid supply roller 330 is provided between the first application roller 320 and the first liquid hopper 310 and supplies the first liquid composition 2 to be supplied, To control and uniformly distribute the amount of the first liquid composition (2) applied on the upper surface of the first blade (1) being conveyed.

The first liquid support roller 340 is disposed below the first transfer part 100 and is supported by the first liquid supply roller 330 to support the first liquid 1 coated with the first liquid composition 2 And the first liquid phase driving part 350 is provided for rotating the first liquid phase supplying roller 340.

As shown in FIG. 6, the solid-state composition supplying unit 400 includes at least one solid-state hopper 410, a solid-supplying roller 420, and a solid-state driving unit 430.

The solid hopper 410 is provided for storing the solid composition 3 and the solid supply roller 420 is rotatably provided at the lower end of the solid hopper 410 to supply the solid composition stored therein to the first liquid composition 2 And is supplied to the top surface of the applied first frit 1 by a predetermined amount.

Further, the solid-state driving unit 430 is provided to rotate the solid supply roller 420.

Here, in one embodiment, the solid composition supplying means 400 is provided with two pieces, one supplying almonds and the other supplying sesame.

Of course, it is natural that the solid composition supplied varies depending on the situation.

7, the second conveying unit 500 includes a second base frame 510, a second conveying roller 520, a second conveying line 530, and a second conveying driving unit 540 .

A plurality of second conveying rollers 520 are provided along the second base frame 510, and a plurality of second conveying grooves 522 are formed to be spaced apart from each other at regular intervals.

In addition, a plurality of second conveying rods 530 are provided to connect the plurality of second conveying rollers 520 so that the second conveying rollers 520 rotate in the same manner, (522) and rotates in an endless track to feed the second roots (4).

The second conveying drive unit 540 rotates the second conveying roller 520 to rotate the second conveying line 530 to convey the second conveying line 4.

8, the second supplying unit 600 includes a second loading body 610 and a second supplying frame 620, a second loading unit 630, a second loading and unloading unit 640, And a second supply control unit 650.

The second loading body 610 is positioned above the second transfer part 500 to load a plurality of second rods 4 and a second supply hole 612 for discharging the second loading body 610 downward. The holes 612 are formed to be smaller than the size of the second rods 4.

The second feeding frame 620 is positioned below the second feeding part 500 and passes between the angles of the plurality of second feeding rods 530 in the upward or downward direction, And the second conveying rods 530 of the second conveying part 500. The second conveying rods 530 of the second conveying part 500 are provided with a second conveying belt 530,

The second adsorption unit 630 sucks the second air 4 through the upper end of the second supply frame 620 to adsorb the second air 4 loaded on the second air loading body 610, To the second feeding frame 620. The second feeding frame 620 is provided with a first feeding frame 530 and a second feeding frame 530,

The second lift control unit 640 is provided for moving up and down the second supply frame 620 and the second supply control unit 650 is provided for controlling the second suction unit 630 and the second lift moving unit 640 Respectively.

8, the second liquid composition supply device 700 includes a second liquid hopper 710 and a second application roller 720, a second liquid supply roller 730, a second liquid supply roller 730, 740 and a second liquid phase driver 750.

The second liquid hopper 710 contains the second liquid composition 5 and the second application roller 720 has elasticity and is rotatably provided in the second base frame 510 to be in contact with the second liquid 4) to apply the second liquid composition (5).

The second liquid supply roller 730 supplies the second liquid composition 5 provided between the second application roller 720 and the second liquid hopper 710 and supplies the second liquid composition 5 to the second application roller 720, So that the amount of the second liquid composition 5 applied on the upper surface of the second kim 4 being conveyed is controlled and uniformly distributed.

The second liquid support roller 740 is located below the second transfer part 500 and is supported by the second liquid supply roller 730 in order to support the second liquid 4 on which the second liquid composition 5 is applied And the second liquid phase driver 750 is provided for rotating the second liquid phase supply roller 730. [

9 and 10, the lamination supply means 800 includes a laminated base frame 810 and a laminated rotary frame 820, a laminated mounting frame 830, a laminated suction portion 840, a laminated driving portion 850 and a stacking controller 860. [

The laminated rotary frame 820 is rotatably mounted on the laminated base frame 810 and the laminated mounting frame 830 is provided in the laminated rotary frame 820 to be rotatably supported on the first conveyance unit 100 or the second conveyance unit 500 To be positioned.

The laminated adsorption unit 840 is provided in the laminated carrier frame 830 to suck outside air to adsorb the second kim 4 transferred by the second transfer unit 500 or to adsorb the second kim 4 Air is discharged so as to be stacked on the upper side of the first rope 1 conveyed by the first conveyance unit 100, and then separated from the laminated assembly frame 830.

The laminated driving unit 850 is provided for raising and lowering the laminated rotating frame 820 and the laminated controlling unit 860 is provided for controlling the laminated absorbing unit 840 and the laminated driving unit 850.

Here, as shown in Figs. 11 to 12, the laminated adsorption section 840 is composed of a suction hole 842 and an adsorption blowing section 844.

A plurality of suction holes 842 are formed along the laminated mounting frame 830 to suck or discharge the air and the suction air blowing portions 844 are formed to suck or discharge the outside air through the suction holes 842 Blowing.

The laminated mount frame 830 is composed of a mount fixing frame 832, a mount absorbing frame 834, and a mount stopper frame 836.

The stationary holding frame 832 is fixed to the laminated rotary frame 820 and the stationary suction frame 834 is formed by a plurality of suction holes 842 of the laminated suction portion 840 and a plurality of second transfer rods 530 .

The stationary stopper frame 836 connects each of the stationary adsorption frames 834 to the stationary frame 832 and projects beyond the surface of the stationary adsorption frame 834 on which the adsorption holes 842 are formed, So that the end of the second rope 4 fed by the second rope 4 is caught and stopped.

In other words, the second puddle 4 conveyed by the second conveyance unit 500 is placed in a state in which the conveyance is interrupted by being caught by the mounting stopper frame 836, and the plurality of adsorption holes 842 to adsorb the second roots 4 to the absorbing frame 834.

When the laminated driving unit 850 is rotated in a state where the second roots 4 are adsorbed, the laminated mounting frame 830 is rotated and positioned on the upper side of the first feeding unit 100 as the laminated rotating frame 820 is rotated .

Thus, the rotated second kim 4 is positioned on the upper side of the first kim 1 laminated with the solid composition 3, the air suction is stopped by the adsorption blowing portion 844, 4 are laminated on the upper side of the first roots 1.

Here, the adsorption blowing-out part 844 can discharge the air through the adsorption holes 842 to easily detach the second Kim 4 from the stationary adsorption frame 834.

When the stationary adsorption frame 834 of the laminated stationary frame 830 is positioned in the second transfer part 500 for adsorbing the second roots 4, the position of the surface on which the adsorption holes 842 are formed, Is positioned equal to a virtual horizontal plane passing the uppermost end of the transfer line 530.

Of course, the surface of the stationary adsorption frame 834 may be positioned below the virtual horizontal plane passing the uppermost end of the second conveyance line 530. [

This is to prevent the second roots 4 conveyed by the second conveyance unit 500 from being caught before being conveyed to the upper side of the surface of the stationary adsorption frame 834 having the suction holes 842 formed thereon.

The position of the surface on which the adsorption holes 842 are formed is smaller than the position of the first transfer rods 130 when the second roots 4 are positioned on the first transfer unit 100 so as to stack the second roots 4 on the upper side of the first roots 1, Is located on the upper side of the virtual horizontal plane passing through the uppermost end of the plane.

This is because the second wafers 4 should be supplied to the upper side of the first wafers 1 having the first liquid composition 2 and the solid composition 3 stacked thereon, In order to supply the second roots 4 in consideration of the volume of the solid composition 3.

As shown in FIG. 13, the pressing portion 900 is composed of a first pressing roller 910, a second pressing roller 920, and a pressing guide roller 930.

The first pressing roller 910 has elasticity and is rotatably provided on the first base frame 110 so that the second blade 4 stacked on the upper side of the first blade 1 is rotated in the direction of the first blade 1 As shown in Fig.

The second pressing roller 920 is resilient and is provided below the first pressing roller 910 to support the lower side of the first blade 1 pressed downward, Is provided to guide the first nip 1 between the first nip roller 910 and the second nip roller 920 and the second nip 4 is stacked.

14, the drying unit 1000 includes a drying furnace 1010 and a heat supply unit 1020.

The drying furnace 1010 is provided in the first transfer part 100 and the heat supply part 1020 supplies the heat to the drying furnace 1010 so that the first and second rods 1 and 4 are in a compressed state To thereby produce the Kim food 20.

12, the cutting and discharging means 1100 includes a first cutting roller 1110, a second cutting roller 1120, and a cutting driver 1130. [

The first cutting roller 1110 has a plurality of first cutting edges 1112 and is provided on the first conveying portion 100 to cut the dried food 20 in the downward direction by the drying means 1000 Respectively.

The second cutting roller 1120 is also provided with a plurality of second cutting edges 1122 for cutting the dried foodstuff 20 together with a plurality of first cutting edges 1112.

The cutting drive unit 1130 rotates the first cutting roller 1110 and the second cutting roller 1120 and rotates the steaming food 20 by a first cutting edge 1112 and a second cutting edge 1122 Size.

10: Kim food manufacturing apparatus 100: First conveying section
200: first Kim supply means 300: first liquid composition supply means
400: solid composition supplying means 500: second conveying portion
600: second Kim supply means 700: second liquid composition supply means
800: Lamination supply means 900:
1000: drying means 1100: cutting discharge means

Claims (15)

A first conveying unit for conveying the laver;
A first Kim supply means for feeding the first steams one by one to the first feed section;
A first liquid composition supply means for applying a first liquid composition to an upper surface of a first steaming portion conveyed by the first conveying portion;
A solid composition supply means for supplying a solid composition to an upper surface of a first steep where the first liquid composition is applied and transported;
A second transfer part for transferring the second steaming composition to be laminated on the first liquid composition and the first steaming composition supplied with the solid composition;
A second Kim supply means for feeding the second steams one by one to the second feed section;
A second liquid composition supply means for applying a second liquid composition to an upper surface of a second steaming portion conveyed by the second conveying portion;
Wherein the second liquid composition applied by the second transfer section is applied to the first liquid composition to be transferred by the first transfer section and to the upper side of the first composition to which the solid composition is supplied to laminate the second liquid composition, 2 stacking supply means for supplying the top surface of the second surface of the second surface of the second surface of the first surface of the first surface of the first surface of the first surface of the first surface of the first surface of the first surface of the first surface of the first surface,
A pressing part for pressing the stacked first and second steels;
Drying means for drying the first and second presses pressed; And
And cutting and discharging means for cutting and discharging a plurality of dried pressed first and second rods in the feeding direction.
The apparatus according to claim 1,
A first base frame;
A plurality of first conveying rollers formed along the first base frame, the first conveying rollers being spaced apart from each other by a predetermined distance;
A plurality of first conveying rods connected to the plurality of first conveying rollers so as to rotate in the same manner, the plurality of first conveying rods being provided in a first conveying groove at each corresponding position of each first conveying roller, And
And a first conveyance drive unit that rotates the first conveyance roller to rotate the first conveyance line to convey the steels.
3. The apparatus according to claim 2,
A first feeding body positioned above the first feeding portion to stack a plurality of first rods and to be discharged downward, wherein the first feeding hole is formed to have a size smaller than that of the first roving;
A first conveying unit that is located below the first conveying unit and passes through the plurality of first conveying lines in an upward direction or a downward direction, A first feeding frame for feeding the yarn into the yarn;
The first supply frame may be configured to suck outside air through an upper end of the first supply frame to adsorb the first laver loaded on the first loading body or to discharge the air to supply the first laver to the first transfer line, A first adsorption unit for separating the adsorbent from the adsorbent;
A first elevation driving unit for elevating the first supply frame; And
And a first supply control section for controlling the first adsorption section and the first lift movement section.
3. The liquid composition supply device according to claim 2,
A first liquid hopper containing a first liquid composition;
A first application roller having elasticity and rotatably mounted on the first base frame, the first application roller contacting the upper surface of the first steam being conveyed to apply the first liquid composition;
A first liquid coating composition provided between the first application roller and the first liquid hopper and supplying the first liquid composition to the first coating roller, A first liquid-phase supply roller for regulating and uniformly distributing the liquid;
A first liquid-phase-supporting roller disposed below the first transfer section for supporting a first plume on which the first liquid-phase composition is applied by the first liquid-phase supply roller; And
And a first liquid phase driving unit for rotating the first liquid phase feed roller.
3. The apparatus according to claim 2,
One or more,
A solid hopper for storing the solid composition;
A solid feed roller rotatably provided at a lower end of the solid hopper for feeding a stored solid composition to the upper surface of the first laver coated with the first liquid composition by a predetermined amount; And
And a solid driver for rotating the solid feed roller.
The apparatus according to claim 4,
A second base frame;
A plurality of second conveyance rollers formed along the second base frame, the plurality of second conveyance grooves being spaced apart from each other by a predetermined distance;
A plurality of second conveying rollers for conveying the second steels in an endless orbit rotation and provided in the second conveying grooves at corresponding positions of the respective second conveying rollers, ; And
And a second feed driving unit for rotating the second feeding roller to rotate the second feeding line to feed the second steaming feed.
7. The apparatus according to claim 6,
A second loading body positioned above the second transfer unit to load a plurality of second rods and having a second supply hole to be discharged downwardly, the second supply hole being formed to be smaller than the size of the second roving;
And a second conveying unit that is positioned below the second conveying unit and passes through between the angles of the plurality of second conveying rods in an upward direction or a downward direction, A second feed frame for feeding to the line;
The second feed frame is configured to suck outside air through an upper end portion of the second feed frame to suck the second steaming yarn stacked on the second stacking body or to discharge the air to supply the second steaming yarn to the second feed yarn, A second adsorbing portion for separating the adsorbent from the adsorbent;
A second lifting / lowering unit for lifting / lowering the second supply frame; And
And a second supply control unit for controlling the second adsorption unit and the second lift driving unit.
7. The liquid composition supply apparatus according to claim 6,
A second liquid hopper containing a second liquid composition;
A second application roller having elasticity and rotatably provided in the second base frame, for contacting the upper surface of the second frying during transportation to apply the second liquid composition;
A second liquid composition to be supplied and supplied between the second application roller and the second liquid hopper, and a second liquid composition to be supplied to the second application roller, A second liquid-phase supply roller for regulating and uniformly distributing the liquid;
A second liquid-phase supporting roller disposed below the second transfer section for supporting a second plume on which the second liquid composition is applied by the second liquid-phase supply roller; And
And a second liquid phase driving part for rotating the second liquid phase feed roller.
6. The image forming apparatus according to claim 5,
A laminated base frame;
A laminated rotating frame rotatably mounted on the laminated base frame;
A laminated mounting frame provided in the laminated rotary frame and positioned in the first conveyance unit or the second conveyance unit;
And a second conveying unit for conveying the second laver to the second laver, wherein the second laver is provided in the laminated cement frame to suck outside air to suck the second laver conveyed by the second conveying unit or to supply the sucked second laver to the upper side of the first laver conveyed by the first conveying unit A laminated adsorption unit for discharging air and separating the air from the laminated carrier frame;
A laminated driving unit for raising and lowering the laminated rotating frame; And
And a lamination control unit for controlling the laminated adsorption unit and the lamination drive unit.
10. The adsorption apparatus according to claim 9,
A plurality of adsorption holes formed along the laminated carrier frame to suck or discharge air; And
And an adsorbing air blowing unit for blowing outside air through the adsorption holes so as to suck or discharge outside air.
11. The stacked mount frame according to claim 10,
A mounting fixture frame fixed to the laminated rotation frame;
A stationary adsorption frame having a plurality of adsorption holes of the laminated adsorption unit and located between the plurality of second transfer lines; And
And a mounting stopper frame connected to the stationary frame for fixing each of the stationary adsorption frames, the stationary frame being protruded beyond the surface of the stationary adsorption frame on which the adsorption holes are formed and stopping the ends of the second rods, Manufacturing apparatus.
12. The stacked mount frame according to claim 11,
The position of the surface on which the suction holes are formed is the same as a virtual horizontal plane passing the uppermost end of each second transfer line,
And the position of the surface on which the suction holes are formed is positioned above the imaginary horizontal plane passing through the uppermost end of each first transfer line when the second transfer ring is positioned on the first transfer unit so as to stack the second transfer ring on the upper side of the first transfer ring. Kim food manufacturing equipment.
6. The apparatus according to claim 5,
A first pressing roller having elasticity and rotatable with respect to the first base frame to press the second steep laminated on the first steep side in the first steaming direction;
A second pressing roller having elasticity and provided below the first pressing roller to support a lower side of the first blade pressed downward; And
And a pressing guide roller for guiding a first steaming layer in which a second steaming layer is laminated between the first pressing roller and the second pressing roller.
The apparatus according to claim 1,
A drying furnace provided in the first sending part; And
And a heat supply unit for supplying heat to the drying furnace.
3. The apparatus according to claim 2,
A first cutting roller having a plurality of first cutting edges and provided in the first feeding section for cutting the dried kimchi in a downward direction;
A second cutting roller having a plurality of second cutting blades for cutting the dried laver food together with the plurality of first cutting blades; And
And a cutting drive section for cutting the food by the first cutting blade and the second cutting blade by rotating the first cutting roller and the second cutting roller.

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