KR101564409B1 - Packing device to capsule for liquid with high viscosity - Google Patents

Abstract

The present invention relates to a high viscosity liquid capsule manufacturing apparatus capable of smoothly introducing a liquid having a high viscosity into a roller side to encapsulate a packaging object smoothly,
In the process of passing the supplied packaging film through the roller, capsule packaging is performed on the packaging object,
Wherein a plurality of concave grooves are formed in the surface of the roller to accommodate the object to be packaged, the object to be packed into the roller includes a liquid form of high viscosity, and an injection tube into which the object to be packed in liquid form with high viscosity is introduced into the concave groove Communicating,
A gear pump for injecting the object to be packed is connected to the injection tube, and the operation state of the gear pump is controlled by a motor.

Description

TECHNICAL FIELD [0001] The present invention relates to a high-viscosity liquid-phase capsule manufacturing apparatus,

The present invention relates to a capsule manufacturing apparatus for encapsulating a liquid object to be packaged having a high viscosity among objects to be packaged, and more specifically, to a capsule manufacturing apparatus for a high viscosity liquid capsule capable of encapsulating an object to be packaged by injecting a liquid having a high viscosity into a roller .

Capsule-type solid system It can be manufactured in various forms. It is capsule only. It has capsule-type solid agent which is filled with powder inside. (In this case, pulling both sides of the capsule pulls the capsule apart and exposes the powder filled inside) Is filled with a specific solid material and a liquid filler, and the solid material is wrapped in a film and packed in a capsule form.

The present invention also relates to an apparatus for producing a capsule in the form of a solid pellet by encapsulating the capsule with a film filled with the contents as in the latter type,

Unlike the above-described solid tablet form pill, a liquid form is injected into the capsule, and the capsule is wrapped with a film to manufacture a capsule.

[0004] Conventional techniques relating to packaging devices for encapsulating packaged objects with encapsulation are disclosed in Japanese Patent Application No. 10-1019729 entitled " Small Capsule Packing Device ", Registered Patent No. 10-900825 entitled " Automatic Device for Packaging Drugs and Foods in Capsules &Quot; and the like,

The present invention relates to a device for sealing and packaging a liquid material, such as an extract liquid such as garlic juice, or a syrup, which is difficult to directly ingest, as a capsule, and has a point in common with the present invention described below in that the object to be packaged is a liquid.

However, when the object to be packaged is a liquid form having a high viscosity and a low viscosity due to a high viscosity in liquid form, there is a limitation in that the introduction of the object to be packed into the roller side is not smooth by the above-

Meanwhile, the inventor and inventor of the present invention has filed a patent application No. 10-1447545 entitled " Capsule Packing Apparatus " in relation to a manufacturing and packaging apparatus for producing a capsule of a solid form by encapsulating the contents with a film filled with contents And registered them.

Japanese Patent Application No. 10-1447545 discloses that one or more packaging rollers are provided so that suction is performed only on one side of the packaging rollers and the packaging film contacting the other side of the packaging rollers can be flexibly formed in accordance with the main injection of the liquid type filling material to be subsequently injected As a technical feature.

That is, if a negative pressure (force pulling the film toward the roller side) acts on the packaging roller on one side, positive pressure (force pushing the film toward the roller side) exists on the packaging roller on the other side to overcome the problems and limitations of the conventional capsule packaging .

However, the disclosed patent No. 10-1447545 does not aim at a liquid phase having a high viscosity, and the packaging apparatus disclosed in the Japanese Patent No. 10-1447545 also has a limitation in encapsulating a liquid phase of a high viscosity as a packaging object,

Furthermore, due to the nature of high viscosity, there is still a limit to the fact that smooth introduction into the roller side is not achieved.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a capsule manufacturing apparatus for encapsulating and packaging a liquid having a high viscosity, There is a purpose in this.

The present invention also provides a device for manufacturing a capsule which can control the filling amount according to the viscosity state of the liquid phase, .

In order to accomplish the above object, according to the present invention, there is provided an apparatus for manufacturing a high viscosity liquid capsule,

In the process of passing the supplied packaging film through the roller, capsule packaging is performed on the packaging object,

A plurality of concave grooves for accommodating the object to be packaged are formed on the roller surface,

Wherein the object to be packed into the roller includes a high viscosity liquid state,

An injection pipe through which the object to be packed in the form of liquid having a high viscosity is inserted is communicated with the concave groove,

A gear pump for injecting the object to be packed is connected to the injection tube, and the operation state of the gear pump is controlled by a motor,

The motor is a servo motor.

The gear pump

And is mounted to a gear block having an injection port for injecting the object to be packed on one side and a discharge port for discharging the object to be packaged on the other side,

An outer gear assembly including a first gear disposed on the outer side and a shaft for rotating the first gear, a drive assembly including a drive shaft and a drive gear rotated in association with the outer gear assembly, A driven assembly comprising a coaxial and a middle gear; a gear casing housing the drive assembly and the driven assembly; and a front / rear plate mounted to the front and rear of the gear casing,

And the gear casing and the front and rear plates are formed to have the same cross section.

Further, the motor is provided with a second gear engaged with the first gear of the gear pump,

And the discharge amount of the object to be packaged by the gear pump is controlled by the rotation of the second gear.

According to the capsule manufacturing apparatus of the above configuration, there is an effect that the object to be packed which can be encapsulated can be expanded to a liquid state having a high viscosity,

Precise gear pumps and servo motors are used for injecting high viscosity liquid objects into concave grooves formed on the roller surface, and the discharge amount of the gear pump can be controlled through the servo motor to the objects to be packaged in a high viscosity liquid phase, It is expected that the effect can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a capsule manufacturing apparatus according to the present invention. Fig.
2 is a view showing a capsule manufacturing apparatus according to the present invention in a different direction.
FIG. 3 schematically shows a gear pump in a capsule manufacturing apparatus according to the present invention, wherein [A] is a view showing a state where a gear block is mounted, and [B] is a view showing a state where a gear block is removed.
4 is a schematic view showing a cross section of a gear pump of a capsule manufacturing apparatus according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, an apparatus for manufacturing a capsule for granulation according to the present invention will be described in detail with reference to the drawings.

The apparatus for manufacturing a high viscosity liquid-phase capsule according to the present invention is characterized in that the object to be packaged is encapsulated with a flexible film in a liquid-type packaging object having extremely low fluidity due to its high viscosity,

The mechanism in which the object to be wrapped on the roller side is wrapped and encapsulated with the film is the same as that of the present invention and the inventor's registered patent No. 10-1447545, so that it is unnecessary to explain the part considered to be unnecessary Can be omitted.

That is, the capsule manufacturing apparatus according to the present invention, as in the case of Japanese Patent Registration No. 10-1447545, also operates a negative pressure and a positive pressure on the packaging film in wrapping and encapsulating the packaging object in a film,

Suction holes are formed only in the concave grooves of one roller on a pair of rollers formed with concave grooves formed on the surface thereof so that the packaging film is brought into close contact with the concave groove surfaces (that is, the sound pressure The packaging film provided on the other side is operated to apply a positive pressure to push the packaging film toward the concave groove according to the amount of the packaged object to be filled,

Although a pair of rollers is shown in the drawing, at least one roller is sufficient for the roller used in the present invention.

Next, a key part of the apparatus for producing a high viscosity liquid-phase capsule according to the present invention is to encapsulate a liquid having a high viscosity as an object to be packaged and to encapsulate the liquid with high viscosity and to inject the liquid with high viscosity smoothly into the concave groove And other portions except for this point refer to the structure shown in the above-mentioned Japanese Patent No. 10-1447545.

As shown in FIG. 1, the pair of rollers 10 are conveyed so that the packaging film passes through the respective surfaces, and the packaging films on both sides are sealed with each other on the inner side facing each other to shape the object to be packaged into capsules. That is, the two sheets of packaging film are simultaneously inserted between the pair of rollers, and in the course of passing through the packaging roller, the packaging of the object to be packaged is performed.

On the surface of the roller, elliptical concave grooves 20 are formed along the circumferential surface so that the concave grooves are staggered in a zigzag shape so as to be more efficiently arranged on the surface of the roller.

In the pair of rollers, the concave grooves 20 formed on the respective rollers meet each other to complete a capsule-shaped frame, and the concave grooves are formed at positions corresponding to each other on one side and the other side. That is, when the respective rollers rotate, the concave grooves provided on the one side and the other side rollers 11, 12 on the inner side are aligned and facing each other.

The presser portion presses the packaging film passing through the roller together with the pressing portion formed at the edge of the concave groove of the roller on the opposite side, So that the film is sealed and joined, and the capsule in which the packaging film is sealed and joined is separated from the packing film.

Next, as described above, the roller 11 on one side of the pair of rollers has a structure in which a suction action is generated and the packaging film F passing through the roller on one side is brought into close contact with the concave groove formed on the roller (negative pressure action) The roller 12 does not cause such a suction phenomenon that the packaging film in contact with the other roller is artificially brought into close contact with the concave groove which is the surface of the roller.

That is, a suction hole 30 is formed in only the bottom surface of the concave groove of the one roller so as to bring the packaging film in contact with the concave groove into contact with the surface of the roller on one side, and such suction is not made in the concave groove of the other roller. Of course, after the suction holes are formed in both the concave grooves of the rollers on both sides, a sucking action can be selectively performed on only one side to form a positive pressure and a negative pressure.

The suction hole 30 formed in the concave groove 20 of the one side roller is connected to the close contact means. The close contact means sucks the air in the concave groove through the suction hole and conveys the packaging film in contact with the surface of the one- Make sure it is in close contact with the bottom of the groove. The specific structure of the contact means is the same as the structure disclosed in the above-described Japanese Patent Registration No. 10-1447545, and a detailed description thereof will be omitted.

Next, a thermocompression block 50 is disposed on the pair of rollers for thermocompression bonding the packaging film F to be conveyed to the roller surface so that the packaging films on both sides are sealed together with each other.

Inside the thermocompression block, a supply path (42) for introducing the object to be packed is formed in the concave groove (20) formed on the surface of the roller. The supply path is formed by the number of concave grooves formed in the width direction of the roller surface.

Next, a capsule manufacturing apparatus according to the present invention is characterized in that a packaging object to be packaged in a capsule is in the form of a high-viscosity liquid, which is a technical feature in comparison with an existing capsule packing and manufacturing apparatus, and that such a highly viscous liquid- Hereinafter, a description will be given of a technical feature of providing a separate technical device, that is,

First, as shown in FIGS. 1 and 2, the injection tube 41 is positioned above the concave groove 20 formed on the roller surface, and the object to be packaged in the form of a high viscosity liquid is supplied to the concave groove 20 through the injection tube ,

The injection means according to the present invention includes an injection pipe 41 for injecting a material to be packed into a concave groove, a gear pump 42 for transporting the object to be packaged in a high viscosity liquid state by the injection pipe, And a motor 43 for controlling the motor. It is preferable that the motor uses a servo motor having excellent controllability.

Therefore, due to the servo motor 43 and the gear pump 42 operated by receiving the rotational force from the servo motor 43, the object to be packaged in the form of a high viscosity liquid can be smoothly transported to the injection tube 41 without deviations and encapsulated in the high viscosity liquid phase .

Next, the injection tube 41 is provided on the roller surface in the same manner as the number of the concave grooves 20 arranged in the width direction of the roller,

Considering that the concave grooves are arranged in a staggered arrangement, five concave grooves are arranged in the roller width direction of the right roller 11, and five injection tubes for injecting the object to be packed into the concave grooves are provided, The number of arrangements of the next row of the arranged concave grooves is four, and four injection pipes are provided on the left roller 12 side.

Each of the injection pipes 41 is connected to the gear pump 42 and the motor 43. The gear pump and the motor are also provided in the number of the injection pipes.

Next, the gear pump employed in the present invention will be described with reference to FIGS. 3 and 4. FIG.

The gear pump 42 is mounted on a gear block 60 having an inlet I through which the object to be packed is fed into the gear pump on one side and a discharge port O through which the object to be packed is discharged through the gear pump on the other side And the gear block is formed in a "C" shape.

The gear pump 42 includes an outer gear assembly including a first gear 421 disposed on the outer side and a shaft 422 for rotating the first gear 421, a drive shaft 424 rotated in conjunction with the outer gear assembly, A driven assembly including a driven gear 423 and a driven gear 426 and a driven gear 425 rotated in conjunction with the driven gear 425 and a gear casing 427 incorporating the drive assembly and the driven assembly, And front and rear plates (428: 428a, 428b) mounted on the front and rear sides of the gear casing,

The front / rear plates 428 (428a, 428b) are mounted to a gear block 60 formed in a "C" shape.

The object to be packaged in the form of a highly viscous liquid supplied to the gear casing 427 is discharged through the drive gear 423 and the driven gear 425 which are received and rotated by the rotational force from the first gear 421.

The gear casing 427 is formed to have the same cross section as the front and rear plates 428a and 428b so that the packaged object supplied to the front plate 428a is transported in the same direction as the front plate supply path I ' 427 and can be supplied to the discharge path O 'of the rear plate 428b in the same line as the discharge path of the object to be packed discharged from the gear casing.

The motor 43 is provided with a second gear 431 that meshes with the first gear 421 of the gear pump so that the motor rotational force is transmitted to the gear pump and the output deviation The rotational force of the second gear 431, which is rotated by engaging with the first gear 421, is regulated and overcome.

While the present invention has been particularly shown and described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. , Changes and substitutions are to be construed as falling within the scope of protection of the present invention.

Description of the Related Art [0002]
F: Packaging film
10: Packing Roller
20: concave groove 30: suction hole
40: injection means
41: injection tube 42: gear pump
43: motor 431: second gear
421: first gear 422: shaft
423: drive gear 424: drive shaft
425: driven gear 426:
427: gear casing 428 (428a, 428b): front / rear plate
60: Gear block 70: Motor block

Claims (4)

A capsule manufacturing apparatus in which a packaged product is packaged in a process of passing a supplied packaging film through a roller,
A plurality of concave grooves for accommodating the object to be packaged are formed on the roller surface,
Wherein the object to be packed into the roller includes a high viscosity liquid state,
An injection pipe through which the object to be packed in the form of liquid having a high viscosity is inserted is communicated with the concave groove,
A gear pump for injecting the object to be packed is connected to the injection tube, and the operation state of the gear pump is controlled by a motor,
The gear pump
Shaped gear block having an inlet for injecting the object to be packed on one side and a discharge port for discharging the object to be packed on the other side,
An outer gear assembly including a first gear disposed on the outer side and a shaft for rotating the first gear, a drive assembly including a drive shaft and a drive gear rotated in association with the outer gear assembly, A driven assembly comprising a coaxial and a middle gear; a gear casing housing the drive assembly and the driven assembly; and a front / rear plate mounted to the front and rear of the gear casing,
Wherein the gear casing and the front and rear plates are formed in the same cross section,
The motor is a servomotor, and the motor is provided with a second gear engaged with the first gear of the gear pump,
And the discharge amount of the object to be packaged by the gear pump is controlled by the rotation of the second gear,
Wherein the gear pump and the motor are provided in a number equal to the number of the injection pipes. delete delete delete

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