KR101811632B1 - Softgel encapsulation machine and methods of making softgel capsule using the same - Google Patents

Abstract

The purpose of the present invention is to provide a soft capsule molding apparatus which can perform high-speed molding of a soft capsule containing a variety of liquid medicines along with gelatin, thereby dramatically enhancing productivity and minimizing a defect rate. For the purpose, the soft capsule formation apparatus comprises: a sheet formation portion for using a gelatin solution to form two gelatin sheets; a pair of die rolls facing each other adjacently to spin in reverse directions in order to heat and seal the gelatin sheets and simultaneously form a shape of a capsule, wherein cavities engraved in a shape of a half of a capsule are respectively formed and arranged on the circumferences of the pair of the die rolls to correspond to the counterpart cavities on the other die roll; and a wedge disposed on the upper side of the pair of the die rolls, having a plurality of nozzles arranged thereon, which receive liquid medicines from a liquid medicine supply portion and inject the same between the gelatin sheets, and including a heater for heating the gelatin sheets at a predetermined temperature and an built-in temperature sensor for detecting temperature, wherein a long recess is formed in a width direction of the cavity on the edge of the liquid medicine jetting portion of the nozzles in the wedge in order to reduce pressure applied to the liquid medicines, thereby enabling the nozzles to jet the liquid medicines simultaneously toward the cavity and the other adjacent cavity.

Description

TECHNICAL FIELD [0001] The present invention relates to a soft capsule molding machine,

The present invention relates to a molding machine for making various chemical solutions in the form of soft capsules together with gelatin. More particularly, the present invention relates to a molding machine capable of high-speed molding and minimizing a defective rate while improving productivity, To a capsule molding machine.

BACKGROUND ART [0002] Today, soft capsules filled with an undiluted drug solution in an encapsulated capsule made of an animal raw material such as gelatin or a vegetable raw material such as starch are known. These soft capsules are generally manufactured using a rotary type molding machine .

For example, a rotary type molding machine proposed in Japanese Patent Application Laid-Open No. 11-221267 includes a sheet forming portion for forming a thin film gelatin sheet with a gelatin solution, a capsule forming portion for forming a capsule with a gelatin sheet, and a drug solution supply part for supplying the drug solution into the gelatin sheet which is encapsulated.

Particularly, in the capsule forming part, cavities engraved in a half of the shape of the capsules are formed so as to correspond to each other on the outer periphery so as to form the outer shell of the capsule, and a pair of die rolls And a wedge for injecting (ejecting) a chemical liquid is mounted on the upper side of the die roll, and the wedge is connected to the chemical liquid supply portion for supplying the chemical liquid.

Accordingly, the two gelatin sheets formed in the sheet forming section are sandwiched between a pair of rotating die rolls of the capsule forming section, and at the same time, the undiluted liquid is injected between the gelatin sheets at a constant cycle, The gelatin sheet is cut into a capsule shape by a pair of die rolls to produce a soft capsule filled with the undiluted solution in the gelatin film continuously.

In order to improve the quality of soft capsules and reduce defects, it is very important to precisely align the cavities of the die rolls facing each other and to perform the molding in accordance with the timeline of the wedge.

1 and 2, in the conventional capsule forming part wedge 13, the chemical liquid discharge hole 13a is formed so as to correspond to the cavities 11b and 11b 'of the die rolls 11 and 11' And the nozzle 13b is formed at a position where the height h2 is 10 mm higher than the end of the chemical liquid discharge hole 13a, that is, the lower end of the wedge 13.

This is to keep the gelatin sheet of the soft capsule (C) at a constant rotation time and distance to minimize the leakage of the chemical solution while heat-sealing the gelatin sheet and to stabilize the bonding and sealing.

Since the properties of the gelatin sheet (A) (A ') are such that the pockets are formed by the pressure and the cavities 11b and 11b' of the die rolls 11 and 11 ' . In this process, the gelatin sheet A is temporarily stretched and slightly shrunk, so that sealing and sealing of the gelatin sheets A and A 'can be performed stably only after a certain period of time.

For example, if the diameters of the die rolls 11 and 11 'are 150 mm, the gelatin sheet A' should be satisfactorily bonded and sealed after the chemical solution is discharged from the nozzle 13b at least 0.58 seconds after the completion of the shrinkage .

That is, in the conventional soft capsule molding machine, the rotational speed of the die rolls 11 and 11 'is maintained at 2.0 rpm / min or less or temporarily stopped and then rotated (intermittently) And a skilled worker must set the time and interval for discharging the chemical liquid M from the nozzle 13b to a mechanical operation error according to the rotation ratio of the die rolls 11 and 11 ' There is a limitation that the productivity is significantly lowered due to structural operating constraints such as satisfying the quality condition while minimizing the failure of the joint portion and the loss of the material.

In addition, the sheet forming part is formed by forming the gelatin solution into a gelatinous sheet in the form of a thin film which is gelled by using a spreader box and a cooling drum, and at the same time, And the wedge 13 of the capsule forming part is cooled to ~ 22 ° C and the wedge 13 of the capsule forming part is cooled to 38 to 45 ° C so that the gelatin sheet (A) (A ') is instantaneously stretched and contracted by the pressure of the chemical liquid , At which time the temperature of the die rolls 11, 11 'is maintained at 24 占 폚.

As a result, if the speed of rotation of the die rolls 11 and 11 'is increased to increase the production speed, the time required for the gelatin sheet A' to pass through the wedge 13 is shortened, (Width and thickness) between the gelatin sheets (A) and (A ') can not be uniformly heated under normal temperature conditions at which they can not be shrunk, .

If the heating temperature of the wedge 13 is increased while the rotational speed of the die rolls 11 and 11 'is increased, the gelatin sheet A' A 'is transferred to the gelatin sheet A' in a short time, It can not be shrunk when the chemical liquid is fed normally, and it sticks easily to the die rolls 11 and 11 ', thereby causing sealing and cutting defects.

In addition, the gelatin sheet (A) (A ') supplied to the capsule forming portion can be kept at a moisture content of about 25 to 45% to minimize malfunctions and defects or defective rates.

That is, when the moisture content of the gelatin sheet (A) (A ') is less than 25%, a phenomenon of winding around the outer periphery of the die rolls 11 and 11' There is a problem that the bonding area of the capsules is narrow and thin, and the rate of defective blowing is high.

On the other hand, since animal gelatin is mostly an animal protein extracted from livestock such as cattle or pig, there is a disadvantage that it can not contain a substance which reacts with the animal protein as a content and side effects such as allergies after ingestion. Diseases such as mad cow disease and foot-and-mouth disease, and Muslims are reluctant to use halal and haram.

As an alternative, capsules made by mixing glycerin, purified water, and the like with vegetable raw materials such as modified starch and caragenaan have been proposed. However, these capsules are difficult to manufacture because they are relatively easily changed in properties compared to animal gelatin .

That is, although the animal gelatin has a low viscosity, even if the temperature is rapidly lowered, the drying, that is, the gelation is stabilized. However, since the vegetable gelatin has a high viscosity, when the temperature difference suddenly changes, the physical property changes and the pocket is not formed properly, It is not possible to maintain the shape of the core, and it is deformed or cracked, resulting in popping.

Herein, the background art or the prior art described above is only intended to help understand the technical significance of the present invention as information acquired by the present inventor or derived from the present invention, It does not mean that it is widely known in the field.

KR10-1639800 B1 (2016.07.08) KR10-1564409 B1 (2015.10.23) KR20-0462191 Y1 (August 23, 2012) KR10-0979586 B1 (Aug. 26, 2010) KR10-0954227 B1 (April 14, 2010) KR10-1358002 B1 (2014.01.27) KR10-1126778 B1 (Mar. 07, 2012) KR20-0445951 Y1 (2009.09.03) JP 2001-17514 A (2001.01.23)

Accordingly, the present inventor has focused on solving the limitations and problems of the conventional soft capsule molding machine considering the above-mentioned matters in detail, and has found that the time and interval of the chemical solution discharge from the nozzle and the rotation rate of the die roll It is possible to minimize the defective rate and the loss of the material, and it is also possible to minimize the defective rate by reducing the heating temperature necessary for forming the capsule according to the moisture content of the gelatin sheet, In order to develop a capsule capsule molding machine with a new structure capable of stably producing capsules and capable of high-speed molding and greatly enhancing productivity, the inventors of the present invention have devoted themselves to the development of the capsule capsule molding machine. As a result, .

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide a soft capsule molding machine and a method of manufacturing the soft capsule using the soft capsule molding machine, which can minimize the defective rate even if errors occur in the operation time and interval of the nozzle and die roll.

Another object of the present invention is to provide a soft capsule molding machine and a method of manufacturing a soft capsule using the soft capsule molding machine, which can be universally used regardless of the type of gelatin, It is.

Herein, the technical object and object to be solved by the present invention are not limited to the technical object and purpose mentioned above, and another technical object and purpose not mentioned can be understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method for manufacturing a gelatin sheet, comprising the steps of: forming a gelatin sheet into two gelatin sheets; A pair of die rolls, each of which is engraved in a half of the shape of the capsule to be formed in a shape corresponding to the outer periphery of each of the cavities, A plurality of nozzles for injecting the chemical solution from the chemical solution supply unit and injecting the chemical solution from the chemical solution supply unit, a heater for heating the gelatin sheet to a predetermined temperature, and a temperature sensor for detecting the temperature Wherein the wedge includes a wedge, and at the edge of the wiping portion of the nozzle, Wherein a recess is formed in a width direction of the cavity so that the cavity can be simultaneously ejected toward one cavity and another cavity adjacent thereto.

As a result, even if an error occurs in the operating time and interval of the nozzle and the die roll, the pressure of the chemical liquid is reduced by the recess and is naturally injected into the pockets of the gelatin sheet. It is possible to minimize the defect of the joint portion and the loss of the material.

According to a preferred embodiment of the present invention, a temperature sensor for detecting the temperature of the wedge is provided, and a moisture sensor for electrically detecting moisture in the gelatin solution is provided on the sheet forming part, And a controller for controlling the temperature of the wedge by controlling the heater according to the detected temperature value of the temperature sensor, thereby controlling the temperature of the wedge in accordance with the moisture content of the gelatin sheet so that the soft capsule having a good quality Not only can it be stably produced, but also can be used universally regardless of the type of gelatin.

In addition, in a preferred embodiment of the present invention, since the preheating unit for preheating the gelatin sheet between the sheet forming unit and the wedge in a stable state without abrupt temperature change is further provided, high speed molding is possible, can do.

According to a preferred embodiment of the present invention, a moisture sensor for electrically detecting moisture in the gelatin solution is provided on the sheet forming part, and the heater and the preheating part of the wedge are controlled according to the detected moisture value of the moisture sensor The controller controls the temperature of the wedge and the preheating unit to heat the gelatin sheet to a stable state without a sudden temperature change according to the moisture content of the gelatin sheet to prevent deterioration of physical properties, Can be stably produced, and can be used for general purposes regardless of the type of gelatin.

In addition, in a preferred embodiment of the present invention, a water jacket formed so as to circulate cooling water outside the wedge, and a water jacket for circulating cooling water in the water jacket through a cooling water inlet and an outlet of the water jacket, And a controller for controlling the cooler to rapidly lower the temperature of the wedge when the detected temperature value of the temperature sensor is equal to or higher than a normal value, thereby controlling the heating temperature of the wedge more efficiently, The soft capsule of the present invention can be stably produced.

According to a preferred embodiment of the present invention, when the water content in the gelatin solution on the sheet forming part is less than 25%, the controller calculates the difference from the reference on the basis of 25% The heating temperature of the wedge is controlled more effectively by controlling the heater temperature so as to lower the heater temperature of the wedge by calculating the difference from the reference value on the basis of 25% So that a soft capsule having good quality can be stably and efficiently produced.

According to an embodiment of the present invention which has the means and structure for solving the above-mentioned object and the technical solution to the above problem, even if an error occurs in the operation time and interval of the nozzle and the die roll, It is naturally injected into the pockets (cavities) of the gelatin sheet, so that it is possible to minimize the defect of the joint portion and the loss of the material due to the nozzle position error or the like.

Therefore, the soft capsule of good quality can be formed at a high speed at least three times higher than the conventional one, and the productivity can be greatly improved.

According to another embodiment of the present invention, the temperature of the heater and the preheating unit built in the wedge are controlled according to the moisture content in the gelatin solution, and the gelatin sheet is heated to a stable state without a rapid temperature change to prevent deterioration of physical properties It is possible to minimize the defective rate while greatly increasing the productivity, and it is also possible to use the gelatin in a universal manner regardless of the viscosity, temperature, and dryness (the degree of moisture required for maintaining the capsule and encapsulation) Can be used.

Here, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

FIG. 1 and FIG. 2 are schematic views showing a capsule forming part of a soft capsule molding machine according to a conventional technique.
3 is a schematic view of a soft capsule molding machine according to an embodiment of the present invention.
4 is a cross-sectional view schematically showing a part (capsule forming part) of a soft capsule molding machine according to an embodiment of the present invention.
FIG. 5 is a circuit diagram schematically showing a configuration of a heater in a soft capsule molding machine according to an embodiment of the present invention.
6 is an enlarged cross-sectional view of the soft capsule molding machine according to the embodiment of the present invention when the die roll and the wedge are normally operated.
7 is an enlarged cross-sectional view showing an abnormal operation of the die roll and the wedge in the soft capsule molding machine according to the embodiment of the present invention.
8 is a cross-sectional view schematically showing a part (capsule forming part) of a soft capsule molding machine according to another embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described more specifically with reference to the accompanying drawings.

Prior to this, the following terms are defined in consideration of the functions of the present invention, and they are to be construed to mean concepts that are consistent with the technical idea of the present invention and interpretations that are commonly or commonly understood in the technical field of the present invention.

In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, when a part includes an element, it does not exclude other elements unless specifically stated otherwise, but may include other elements.

The term "unit" and "unit " mean a unit form or a module form for processing at least one desired function or operation and may be implemented by means of hardware or software, .

3 to 7, a soft capsule molding machine according to an embodiment of the present invention includes a sheet forming part 15, a pair of die rolls 20, a wedge 30, a chemical liquid supply part 40, A controller 50 and a preheating unit 60. [

That is, in the sheet forming section 15, two sheet-shaped gelatin sheets S are formed with a gelatin solution, and heat sealing is performed in the pair of die rolls 20 and the wedge 30 which rotate the sheet- At the same time, the chemical liquid F supplied from the chemical liquid supply unit 40 is injected and cut between the gelatin sheets S at a predetermined cycle to form a capsule shape so that the chemical liquid F is filled in the gelatin sheet S The soft capsules are continuously produced.

The sheet forming part 15 is a part for continuously transporting and supplying a thin film gelatin sheet S with a gelatin solution and is provided on both sides of the pair of die rolls 20 and the wedge 30 Respectively.

On the sheet forming part 15, a moisture sensor 16 for electrically detecting the moisture in the gelatin solution is provided.

The sheet forming portion 15 may employ a normal structure composed of a solution supplying portion, a spreader box, a forming drum, and a winding rollers.

In this case, the moisture sensor 16 may be mounted on the solution supply unit or the spreader box.

The pair of die rolls 20 and the wedge 30 are arranged in such a manner that a predetermined amount of the chemical liquid F supplied from the chemical liquid supply unit 40 between the two gelatin sheets S transported and supplied from the sheet forming unit 15 Is a part for molding a soft capsule by injection, filling and cutting, and is located at the center portion of the sheet forming part 15 for encapsulation.

The pair of die rolls 20 are used to heat seal the two gelatin sheets S to be conveyed and supplied from the sheet forming part 15 and simultaneously form capsules The cavities 21 engraved in a half shape are provided so as to be opposed to each other so as to face each other and to rotate in opposing directions.

Here, a blade portion for cutting the encapsulated gelatin sheet S is formed at the edge of the cavity 21.

The pressure of the gelatin sheet S at the center of the bottom surface of the cavity 21 is pulled by vacuum suction or suction or when the chemical liquid F is ejected from the nozzle 31, Holes are formed in order to form the holes.

The wedge 30 is formed into a wedge shape having curved surfaces symmetrically concave on both sides for injecting the chemical liquid F between the pair of die rolls 20 and between the supplied gelatin sheets S And the gelatin sheet is encapsulated by supplying the chemical liquid F from the chemical liquid supply unit 40 to the curved surface formed concave to face the upper side of the outer periphery of the die rolls 20, And a plurality of nozzles 31 for injecting the chemical liquid F are arranged between the plurality of nozzles S.

A chemical solution supply port for connecting the respective nozzles 31 and the chemical solution supply unit 40 is formed on the upper surface of the wedge 30 and a heater 32 for heating the gelatin sheet S to a predetermined temperature, And a temperature sensor 34 for detecting the temperature of the liquid.

That is, under the control of the controller 50, the heater 32 heats the wedge 30 to transfer the heat required for heat sealing to the gelatin sheet S.

Particularly, in the wedge 30, the chemical liquid F is supplied to the periphery of the chemical liquid jetting portion of the nozzle 31 so that the pressure of the chemical liquid F can be simultaneously jetted toward one cavity 21 and another cavity 21 adjacent thereto. And an elliptical shape in which the recess 33 is recessed in the width direction.

Here, the wedge 30 is formed so as to surround at least two-fifths of the upper portion of the pair of die rolls 20, so that the nozzles 31 are arranged at a position within a range of 100 to 175 degrees, desirable.

That is, the wedge 30 can be formed such that the area where the nozzle 31 is formed is widened to cover the upper portion of the pair of die rolls 20 as the position of the nozzle 31 is farther from the position where the encapsulation is performed, The rotation speed of the nozzle 31 can be increased at a speed corresponding to the position of the nozzle 31.

For example, when the nozzle 31 is formed at a position of 100 degrees around the rotation axis of the die roll 20 having a diameter of 150 mm, it is possible to increase the speed by about 8 times compared with the conventional one, The speed of the die roll 20 is about 26 rpm / min. When the nozzle 31 is formed at the position of 175 degrees, the nozzle is formed at a position of 7.645 degrees, It is possible to increase the speed more than 13 times as compared with the case where the rotation speed of the die roll is 2 rpm / min.

The chemical solution supply unit 40 is a part for supplying the chemical solution between the encapsulated gelatin sheets S and supplies the chemical solution to the nozzle 21 of the wedge 30 at a predetermined timing And is positioned on the upper side of the wedge 30.

The chemical solution supply unit 40 may employ a conventional structure including a hopper, a plunger pump, and a tube assembly.

The controller 50 controls the operation of the molding machine in general and controls the heater 32 in accordance with the detected moisture value of the moisture sensor 16 and the detected temperature value of the temperature sensor 34 to control the heating temperature of the wedge 30 .

For example, if the moisture content in the gelatin solution on the sheet forming part 15 is less than 25%, the difference value with respect to the reference is calculated on the basis of 25%, and the temperature of the heater 32 of the wedge is lowered by the calculated value If the difference exceeds 45%, the difference between the reference value and the reference value is calculated on the basis of 45%, and the temperature of the heater 32 of the wedge can be controlled to be increased by the calculated value.

5, the controller 50 compares the signals of the temperature controller 34 and the variable controller 37 with the variable controller 37 for arbitrarily setting the temperature of the heater 32, A relay 39 that is provided on the electric power supply wire to turn on / off the power supply, and a transistor 39a that drives the relay 39 and the relay 39.

That is, the microcomputer 38 recognizes the temperature set by the variable controller 37 and receives the signal from the temperature sensor 34 to compare the received signal. The microcomputer 38 controls the power supplied to the heater 32, When the temperature sensed by the temperature sensor 34 is higher than the temperature set by the variable regulator 37, the microcomputer 38 sends a signal to the transistor 39a and the relay 39 And when the temperature sensed by the temperature sensor 34 is lower than the temperature set by the variable regulator 37, the microcomputer 38 sends a signal to the transistor 39a so that the relay 39 The power is continuously supplied to the heater 32 by keeping the on state, thereby generating heat.

On the other hand, if the moisture content in the gelatin solution on the sheet forming part 150 is less than 25%, the rotational speed of the die roll 20 is controlled to be increased, and if the water content exceeds 45% However, this would result in a problem that the production speed would be significantly reduced.

The preheating unit 60 heats the gelatin sheet S conveyed and supplied from the sheet forming unit 15 in advance in a stable state without abrupt temperature change and feeds the sheet And is provided between the forming section 15 and the wedge 30.

The preheating unit 60 includes a heater (not shown) for heating the gelatin sheet S to a predetermined temperature and a temperature sensor (not shown) for detecting the temperature.

The main function and operation principle of the soft capsule molding machine according to the embodiment of the present invention will be described as follows.

First, as shown in Figs. 3, 6 and 7, two sheets of gelatin sheet S are supplied between a pair of die rolls 20, and a nozzle 31 The drug solution F is injected between the two gelatin sheets S sandwiched between the die rolls 20 by successively ejecting the drug solution F at predetermined time intervals. At the same time, the wedge 30 is heated by the heater 32 to dissolve the gelatin sheet S by the heat to increase the adhesive force, and the pair of left and right die rolls 20 are arranged such that the gelatin sheets S have a minimum distance Heat seal with pressure when passing through part. At this time, the knife portions (not shown) formed at the edges of the cavities 21 of the die rolls 20 are engaged with each other, so that the gelatin sheet S is cut into a capsule shape.

In addition, a mangle roller is disposed on the lower side of the die roll 20 on which the capsules have been formed. The remaining squid gelatin sheet (scrap sheet) after the capsules are cut is pulled downward, and at the same time, The remaining gelatin sheet is separated, and only soft capsules are recovered via the shooter placed on the front side. At this time, the rotating speed of the mangle roller is adjusted so that the remaining squalicelatin sheet is not torn or rolled in the die roll 20 during feeding.

Even if an error occurs in the operation time and interval of the nozzle 31 and the die roll 20 due to the operator's mistake in this process, the pressure of the chemical liquid is naturally lowered by the recess 33, It can be injected into the pocket (cavity).

6, an elliptical recess 33 recessed at the edge of the chemical liquid ejecting portion of the nozzle 31 is formed in one cavity 21 (the direction of rotation of the die roll) in the width direction of the cavity 21 When the ejection position of the nozzle 31 is normal, the chemical liquid F, which is primarily filled in the recess 33, is naturally formed by the pressure when the nozzle 31 is ejected, (21).

7, even if a position error of the injection position of the nozzle 31 with respect to the cavity 21 occurs, the chemical liquid F that maintains the state of being primarily filled in the recess 33 The pressure can be simultaneously ejected toward the one cavity 21 and the other cavity 21 adjacent to the cavity 21 while the pressure is lowered by the recess 33. Therefore, (F) can be smoothly injected.

Therefore, it is possible to minimize the failure of the joint portion and the loss of the material generated when the chemical liquid F is directly sprayed onto the joint portion of the capsule C due to the injection position error of the nozzle 31 High speed molding is possible, which can greatly improve productivity.

Further, by controlling the heating temperature of the heater 32 and the preheating unit 60 built in the wedge according to the moisture content in the gelatin solution, the gelatin sheet S can be heated to a stable state without a sudden temperature change, And can be used universally regardless of the viscosity, temperature, and drying degree (the degree of the moisture required to keep the capsule and the encapsulation) according to the raw materials and kinds of gelatin, as well as minimizing the defective rate while greatly increasing the productivity .

8, the soft capsule molding machine according to another embodiment of the present invention includes a sheet forming portion 15, a pair of die rolls 20, a wedge 30, A supply unit 40, a controller 50, and a preheating unit 60.

In particular, a water jacket 35 is formed on the outside of the wedge 30 so as to circulate cooling water (coolant). The cooling water in the water jacket 35 is circulated through the cooling water inlet and outlet of the water jacket 35 And a cooler 36 for circulating the inside of the water jacket 35 to cool the cooling water (coolant) absorbing the heat to supply it to the water jacket 35.

Here, the cooler 36 includes a compressor for compressing refrigerant, a condenser for condensing refrigerant, a decompressor for decompressing refrigerant, and an evaporator tube for exchanging heat with the refrigerant by evaporating the refrigerant, thereby implementing a general refrigeration cycle system can do.

As the cooler 36, a thermoelectric element such as a peltier, which utilizes thermoelectric and thermoelectric effects, may be employed.

The controller 50 can control the cooler 36 to rapidly lower the temperature of the wedge 30 if the detected temperature value of the temperature sensor 34 for detecting the heating temperature of the wedge 30 is a normal value or more.

Accordingly, the heating temperature of the wedge 30 can be lowered much more quickly and stably, so that the defect rate can be minimized and the operation stop time can be reduced.

Here, among the constituent elements of the soft capsule molding machine according to another embodiment of the present invention, constituent elements having the same or similar operational effects as those of the above-described embodiment are denoted by the same reference numerals, and repetitive detailed description thereof will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments or constructions. Various changes and substitutions may be made without departing from the spirit and scope of the invention. It will be obvious to those skilled in the art that the present invention can be widely applied to other embodiments.

Therefore, it is to be understood that modifications and variations of the features of the present invention are intended to be included within the spirit and scope of the present invention.

15: sheet forming part 16: moisture sensor
20: die roll 21: joint
30: Wedge 31: Nozzle
32: heater 33: recess
34: Temperature sensor 35: Water jacket
36: cooler 40: chemical liquid supply unit
50: controller 60: preheating part
S: Gelatin sheet C: Capsule
F: Solution

Claims (6)

A sheet molding section for molding two gelatin sheets with a gelatin solution; a cavity formed by engaging the gelatin sheets in the shape of a half of the capsules so as to be molded into capsules at the same time as the gelatin sheets are heat sealed; A pair of die rolls arranged in an array and formed to face each other and to rotate in opposite directions to each other, a plurality of die rolls positioned above the pair of die rolls, And a wedge including a heater for heating the gelatin sheet to a predetermined temperature and a temperature sensor for detecting the temperature,
Wherein a soft recess is formed at the edge of the nozzle portion of the wedge so as to be recessed in the width direction of the cavity so that the chemical solution can be simultaneously ejected toward the one cavity and another cavity adjacent to the lowered pressure.
The method according to claim 1,
A moisture sensor for electrically detecting moisture in the gelatin solution is provided on the sheet forming part,
And a controller for controlling the heater according to the detected moisture value of the moisture sensor and the detected temperature value of the temperature sensor to adjust the heating temperature of the wedge.
3. The method of claim 2,
A water jacket configured to circulate cooling water outside the wedge;
A cooler for circulating cooling water in the water jacket through a cooling water inlet and an outlet of the water jacket and for cooling the cooling water circulated inside the water jacket to absorb heat; And
A controller for controlling the cooler to rapidly lower the temperature of the wedge if the detected temperature value of the temperature sensor is higher than a normal value;
Wherein the soft capsule forming machine further comprises:
3. The method according to claim 1 or 2,
Further comprising a preheating part between the sheet forming part and the wedge for preheating the gelatin sheet in a stable state without abrupt temperature change.
5. The method of claim 4,
A moisture sensor for electrically detecting moisture in the gelatin solution is provided on the sheet forming part,
And a controller for controlling the heater of the wedge and the preheating unit according to the detected moisture value of the moisture sensor to adjust the heating temperature of the wedge and the preheating unit.
3. The method of claim 2,
The controller calculates a difference between the reference value and the reference value based on 25% when the moisture content in the gelatin solution on the sheet forming part is less than 25%, and controls the heater temperature of the wedge to be lowered by the calculated value, %, The difference value with respect to the reference is calculated on the basis of 45%, and the heater temperature of the wedge is controlled to be increased by the calculated value.

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