JP6279806B1 - Portable drug container and manufacturing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a disposable portable medicine container having a diffuser function for spraying medicine in a mist form. SOLUTION: A flat spring is built in a flat rectangular container made of a flexible material, and its elastic force is used to enable volume reduction / expansion of the container. And spray from the nozzle. [Selection] Figure 1

Description

  The present invention relates to a portable medicine container used for carrying medicines such as deodorants, fragrances, disinfectants, insecticides, insect repellents, etc., and a method for using the same, and in particular, a deodorant contained therein. The present invention relates to a disposable portable drug container that can be used after a single use of a drug (also referred to as a drug solution in this specification) such as a fragrance or a fragrance.

  In recent years, fragrances have been widely used in daily life because of their deodorizing effect and relaxation effect. In addition, it has been recognized that aroma oils made from essential oils extracted from natural materials have the effect of relaxing the mind and body and enhancing the natural healing power, and the concept of aromatherapy has become widespread.

  The use of fragrances such as aromatherapy is usually performed at home, but sometimes it is necessary to use fragrances on the go. For example, there are cases where people want to relax due to the fragrance of aromas at their offices or accommodations when traveling. In addition, there are cases that require the use of a deodorant to deodorize odors attached to clothes from food and drink before visiting a person on the go or returning home. Furthermore, there are cases where it is necessary to use a disinfectant for sterilization of tables, chairs, handrails, door knobs, toilet seats, etc. used by an unspecified number of people.

  Thus, in order to use drugs such as fragrances and deodorants on the go, it is necessary to carry a portable container enclosing the drug. Therefore, in recent years, many advertisements regarding portable containers have been found on the Internet website. In addition, many patent applications relating to improvements in the structure and functions of portable containers have been submitted.

  For example, Patent Document 1 discloses an fragrance container that can be carried in small portions without spilling the internal fragrance, and can smell the fragrance as needed. FIG. 9 is a view showing the shape of the fragrance container of this prior document. The fragrance container includes a lid body 21, a cap-shaped container 22, and a ring packing 23 sandwiched between the lid body 21 and the cap-shaped container 22. A short cylindrical portion 24 having a bottom opening is integrally projected at the lower portion of the lid 21, and a male screw portion 25 is engraved on the outer periphery thereof.

  A short cylindrical portion 24 having a bottom opening is integrally projected at the lower portion of the lid 21, and a male screw portion 25 is engraved on the outer periphery thereof. Furthermore, a vent hole 26 penetrating the inside and the outside of the cylinder portion 24 is opened. A female threaded portion 27 is engraved on the upper inner peripheral surface of the cap-shaped container 22. Further, the cap-like container 22 is filled with a liquid absorbing liquid 28. From the state in which the lid 21 is opened, the male screw portion 25 of the lid 21 is completely screwed into the female screw portion 27 of the cap-shaped container 22, and the inside and outside are held in a non-ventilated state, and by loosening the screw from this state, It has a structure that allows internal and external ventilation.

  Further, in Patent Document 2, in order to save consumption of the fragrance, evaporation or sublimation of the fragrance is suppressed, and a favorite fragrance is easily dissipated by a one-touch operation by a one-touch operation. A portable pharmacy device is disclosed. FIG. 10 is a diagram showing the shape of the portable drug device of Patent Document 2. As shown in FIG.

  This portable medicine device is filled with a medicine 33 such as a fragrance in a pen-like external container 32 that can be dissipated into the atmosphere through a partition wall having a vent hole 31 and can be held in a breast pocket or the like. In order to save, a cap 34 is put on the open end of the atmosphere to prevent the medicine from being diffused.

To easily dissipate the desired amount at any time, remove the cap 34, change the air diffusion area of the drug with the evaporation control cylinder 35, hold it at the chest pocket edge with the clip 36, and quickly release the drug near the nose Can be achieved.
According to the present invention, normally, the consumption of the medicine is prevented, and the medicine can be easily dissipated from the ventilation part by heating at the body temperature of the chest at any time, and the medicine is prevented from being infiltrated into the cloth such as the pocket. There is an effect.

  Patent Document 3 discloses a portable container such as a liquid fragrance. The present invention, as a portable container for liquid fragrances (perfumes), deodorants (deodorants, deodorants), etc., always exhibits the fragrance and deodorizing action of liquid fragrances, etc. The object is to provide a product that is not bulky and has no risk of leakage. FIG. 11 is a diagram showing the shape of the portable container disclosed in Patent Document 3. As shown in FIG.

  In this container, a predetermined amount of a liquid fragrance 43 is introduced into a small liquid-impervious plastic film bag 42 having a small-diameter vent opening 41 through the vent opening 41 and then vented. A sheet 44 of a microporous film having liquid impermeability and air permeability is adhered and adhered to the outside of the opening 41 for sealing and sealed.

  Furthermore, Patent Document 4 discloses a drug volatilization bag and a drug volatilization container for storing the drug volatilization bag. In the present invention, an inner bag made of a soft film in which a liquid medicine is housed is housed in an outer bag (one surface of the outer bag is formed of a porous sheet) and carried. belongs to.

When volatilizing chemicals, it is intended to use an external force from the outside of the outer bag body to damage the inner bag body and volatilize the drug leaking inside the outer bag body from the porous sheet into the outside air. It is what you are doing.
However, this method may cause damage to the inner bag when external force is applied to the inner bag when it is not intended to carry the drug volatilization container.

Japanese Patent Laid-Open No. 10-179705 JP 2000-325458 A JP 2003-310734 A JP2015-123992A

  The portable containers of Patent Documents 1 to 3 described above are “refillable” type containers that are replenished with a fresh fragrance and used repeatedly after the first stored medicine such as the fragrance. is there. In such a container, an opening for refilling the fragrance and the like and a sealing means for sealing the opening after refilling are indispensable.

  Specifically, in the cases of Patent Documents 1 and 2, the barrel is vertically used with a cylindrical container, the upper part is an open end, and the open end is covered with a screwed lid. Seal by screwing. Moreover, in the case of patent document 3, the trunk | drum uses the cylindrical shape sideways and uses it, and the opening part is provided in the trunk | drum side surface center vicinity. After replenishing with a fragrance or the like, a thin plastic film is adhered and pasted so as to cover the opening, and the opening is sealed.

  However, such a “refill” type container has an opening, and is always exposed to the risk of liquid leakage. In particular, since fragrance is a highly permeable and volatile liquid, the fragrance component oozes out even from a slight gap, for example, from the metal joint surface of the screw, and the odor is absorbed into the surroundings. The phenomenon is likely to occur.

In addition, the portable drug container is usually stored together with other portable items in a small case such as a handbag or a pouch. For this reason, when odor leakage occurs, the inside of the accessory case and other portable items may be scented, which may cause a major trouble in some cases.
Furthermore, it can be seen that the problem itself is that the user of the portable drug container is always worried about odor leakage.

  Therefore, if the portable medicine container is of a “disposable” type in which the container is disposable every time it is used, it is not necessary to provide an opening for replenishing the medicine. Therefore, it may be possible to drastically solve the various problems caused by odor leakage as described above.

  When the portable medicine container is made disposable, there is a problem of cost. However, in recent years, rapid progress in plastic processing technology has enabled the manufacture of large quantities and low-cost products. Has become mainstream packaging. If this is taken into consideration, the profitability in terms of cost can also be obtained for disposable drug containers.

  On the other hand, the biggest problem for making a portable drug container disposable is how to secure the diffuser function of this container. For example, a fragrance diffuses the fragrance component in the air and enjoys its fragrance. Therefore, when the fragrance solution is taken out of the container, a so-called “diffuser function” is often required which atomizes or volatilizes the fragrance solution and diffuses the fine particles or vapor into the air. This function is the same for deodorants and disinfectants.

  The diffuser function of the fragrance solution mainly includes a heating type and a spray type. The heating method is a method in which the fragrance solution is warmed to dissipate the vapor, and the spray method is a method in which a small-diameter nozzle is disposed at the outlet of the container and the inside of the container is pressurized to spray the liquid in a spray form.

  A disposable portable fragrance container is a container that contains an amount of fragrance used at one time, that is, a very small amount of fragrance, and is an extremely small container having a small space volume (hereinafter referred to as “ultra-small container”). Called). Giving a diffuser function to such an ultra-small container is not feasible on the extension of the conventional technology and requires a new idea.

  Therefore, the present invention adds a new idea to the structure of the portable drug container, and enables spraying of the chemical solution in the container even in an ultra-small container, and thus a disposable portable fragrance having a diffuser function. The problem is to provide a drug container.

The portable drug container of the present invention for solving the above problems is
A container body made of a flexible thermoplastic resin sheet or film;
A discharge nozzle that is inserted into the container main body, one end opens near the bottom of the container main body, a small-diameter nozzle hole is provided at the other end, and a gap between the inserted container and the container is hermetically bonded;
A leaf spring disposed in the container body and bent from a rigid plastic thin plate;
A nozzle cover that is hermetically bonded to the container main body is provided so as to cover an upper portion of the discharge nozzle.

  In this portable medicine container, the adhesion between the opening of the container body and the outer periphery of the discharge nozzle and the adhesion between the top surface of the container body and the lower end of the nozzle cover are made of thermoplastic resin. It is preferably performed by thermocompression bonding.

In addition, the method for producing a portable drug container of the present invention has a small diameter at the end from the opening of a bag-like or cylindrical container made of a flexible thermoplastic resin sheet or film having at least one end opened. Insert the discharge nozzle with nozzle holes,
The thermoplastic resin sheet or film is hermetically pressure-bonded so that the bag-like or cylindrical container is divided into a nozzle cover that covers the nozzle hole and a container body into which a medicine is injected, thereby forming a crimping allowance. And shut off the inflow of outside air from the nozzle hole,
A desired amount of chemical solution from the opening and a leaf spring obtained by bending a resilient hard plastic thin plate are introduced into the container body,
An external force is applied to the leaf spring to bring it into a pressure contact state, and air in the container body is discharged from the discharge nozzle,
A method of manufacturing a portable drug container, characterized in that the pressure-bonding margin is formed by air-tightly pressing the opening while maintaining the pressure contact state of the leaf spring.

According to the present invention, it is possible to spray a liquid in a container even in an ultra-small portable medicine container, and thereby it is possible to provide a disposable portable medicine container having a diffuser function. .
If the portable medicine container of the present invention is used, it can be carried with the container completely sealed, and the container after use of the medicine can be immediately discarded. Trouble can be avoided completely.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings of the examples. 1 and 2 are views showing the shape and structure of a portable drug container according to an embodiment of the present invention. FIG. 1 shows a state before the medicine is sealed in the container or after the medicine in the container is used, and FIG. 2 shows a state before the medicine sealed in the container is used.

1A is a front view of the container, FIG. 1B is a cross-sectional view of the XX plane of FIG. 1A, and FIG. 1C is a perspective view with a part broken away. FIG.
As seen in the figure, the container is composed of a container body 1, a discharge nozzle 2, a leaf spring 3, a nozzle cover 4, and the like.

The container body 1 is a flat rectangular bag-like body or box-like body made of a flexible thermoplastic resin sheet or film. The material is not particularly limited as long as it is a thermoplastic resin. In this example, a polyethylene film having a thickness of 0.08 mm formed into a bag shape by thermocompression bonding was used. In addition, this sheet or film may be either a resin single layer or a multilayer (a resin alone or a combination of a resin and a metal foil). In the case of a multilayer, the outer layer or the intermediate layer has fine holes, special stretching, etc. May be processed.

  The discharge nozzle 2 is a resin pipe inserted into the container main body 1 through an opening provided in the ceiling surface 5 of the container main body 1, and a lower end thereof opens to the bottom of the container, and a small-diameter nozzle hole 6 near the upper end. Is formed. The gap between the outer periphery of the discharge nozzle 2 and the opening of the ceiling surface 5 is hermetically bonded so that air in the container does not leak.

  In the present embodiment, the tip of the discharge nozzle 2 is bent 90 degrees, and the nozzle hole 6 is formed in a lateral portion. However, the tip of the discharge nozzle 2 may be directed straight upward. In short, it is only necessary to select in which direction the medicine is desired to be sprayed.

  The leaf spring 3 is made of a rectangular elastic hard plastic thin plate, and its upper and lower sides are bent in the same direction with the same width. By applying an external force to the bent surface, the pressed state (the bent surface is close to the bottom surface). State) and can be restored to the original state by removing external force. The leaf spring 3 is not limited to a rectangle, and may be a rectangle such as a square or a parallelogram, and the shape is not particularly limited as long as it can be formed on a leaf spring.

  The leaf spring 3 is accommodated in the container body 1 such that the entire bottom surface (the surface that is not bent) is along or in contact with the inner side of one side surface of the container body 1. That is, when the container body 1 made of a plastic resin is assembled by thermocompression bonding, the assembly may be performed in a state where the leaf spring 3 is accommodated in the container body 1.

  The nozzle cover 4 covers the upper part of the discharge nozzle 2 in an airtight manner. This is for preventing outside air from entering the container from the discharge nozzle 2, and is made of a resin cylinder with the upper surface sealed and the lower surface open. The lower end of the resin cylinder is hermetically bonded to the ceiling upper surface 5 of the container body 1.

In this example, adhesion between the lower end of the nozzle cover 4 and the ceiling upper surface 5 of the container body 1 was performed by thermocompression bonding of a thermoplastic resin.
Further, an incision 7 for breaking the cylinder by applying an external force is formed on the entire circumference near the base (lower end) of the resin cylinder. The reason for forming this cut 7 will be described later.

  Also in FIG. 2, FIG. 2 (a) is a front view of the container, and FIG. 2 (b) is a cross-sectional view of the XX plane of FIG. 2 (a) (the perspective view is omitted). The difference between the state of FIG. 1 and FIG. 2 is that FIG. 1 is a state where the leaf spring is not pressed and the nozzle cover is separated, and FIG. 2 is a state where the leaf spring is pressed and the nozzle cover is bonded. .

  FIG. 2 shows a state in which the medicine is enclosed in the container body 1 and the container is carried. In this state, since the nozzle cover is adhered, the medicine is sealed and there is no fear of causing odor leakage. In addition, the portable drug container of the present invention is extremely small and lightweight, and the leaf spring 3 is pressed against the container when it is carried, so that the container is thin, and it is one of the features that is convenient for carrying.

  FIG. 3 is a diagram showing the dimensions of the portable drug container of this example. As can be seen in the figure, this container has a height of 50 mm and a width of about 40 mm, and the thickness is about 5 mm when the leaf spring is pressed. Therefore, there is no problem with carrying the container in a pocket of clothes.

  FIG. 4 is a diagram showing the shape of the leaf spring used in this example. The leaf spring 3 is made of a thin elastic plastic thin plate, and its top and bottom are bent in the same direction to form a leaf spring. The bending width W and the bending angle θ (the angle between the bending surface 8 and the bottom surface 9) of the bending surface 8 are substantially the same vertically.

  The values of the bending width W and the bending angle θ are not particularly limited, but W may be about 10 to 15 mm and θ may be about 20 ° to 40 °. The size of the bottom surface 9 of the leaf spring 3 is large enough to be accommodated in the container body 1, that is, in this embodiment, the container body is about 40 mm (width) × 35 mm (height) and the bottom surface 9 is 35. It may be a size of about × 30 mm.

In the leaf spring 3 of this embodiment, a notch 10 is formed on both the upper and lower sides in the vicinity of the center of the bent surface 8 in the longitudinal direction. The notch 10 is for inserting the straight pipe portion of the discharge nozzle 2 when the leaf spring is accommodated in the container body 1. Therefore, the width of the notch 10 may be slightly larger than the outer diameter of the straight pipe portion of the discharge nozzle 2.
Further, since the positional relationship between the leaf spring 3 and the straight pipe portion changes considerably depending on whether or not the leaf spring 3 is in a pressure contact state, the notch portion 10 has almost the entire length in the width direction of the bending surface 8. It is formed over.

  The material of the leaf spring 3 is not particularly limited as long as it has sufficient elasticity as a spring. In this embodiment, a thin plate made of polyethylene terephthalate and having a thickness of 0.5 mm is bent into a leaf spring shape. I used something. Further, the bending width W of the leaf spring 3 in this embodiment was about 15 mm, and the bending angle θ was about 30 degrees.

  Next, a method for using the portable drug container of the present invention will be described. FIG. 5 is an explanatory diagram of an operation procedure for filling and sealing the portable medicine container with the medicine in one embodiment of the present invention. First, as shown in FIG. 5 (a), the container body is filled with an amount of medicine consumed in one use in a state where the nozzle cover 4 is not adhered to the container body 1. The method of introducing the drug into the container is, for example, by immersing the tip of the discharge nozzle 2 in the drug solution in a state where the volume of the container is reduced by pressing the leaf spring 3, and gradually loosening the leaf spring to a desired amount. You should just inhale the medicine.

Next, with the container body 1 in an inverted state (with the nozzle tip facing downward), the leaf spring 3 is pressed from the outside of the container with a finger, and most of the air in the container body 1 is discharged out of the container. To do. Thereafter, as shown in FIG. 5 (b), the nozzle cover 4 is placed on the discharge nozzle 2 while holding the leaf spring 3 with the container upright, and the base of the nozzle cover 4 is placed on the ceiling of the container body 1. Adhere air tightly to the surface. In this example, this adhesion was performed by thermocompression bonding of a thermoplastic resin.

By sealing the discharge nozzle 2 with the nozzle cover 4, the supply of air into the container body 1 is completely prevented. Therefore, even if the finger holding the leaf spring 3 is released, the leaf spring 3 is hardly restored. That is, when the leaf spring 3 tries to expand the container, the inside of the container is depressurized and the restoration is prevented by the pressure of the outside air.
Therefore, as shown in FIG. Even when the finger is released, the leaf spring 3 is pressed and the volume of the container is maintained. When going out, the container in the state shown in FIG.

FIG. 6 is an explanatory diagram showing a procedure for releasing and using the drug solution in the portable drug container of the present invention. As shown in FIG. 6A, an external force is applied from the lateral direction to the upper portion of the nozzle cover 4 of the container in the state of FIG. The notch 7 is provided to enable this breakage with a slight force.
As shown in FIG. 6B, by removing the nozzle cover 4, it becomes possible to suck outside air from the nozzle hole 6 of the discharge nozzle 2, the leaf spring 3 is restored, and the container body 1 is enlarged. In this state, as shown in FIG. 6C, when the leaf spring 3 is pressed with a finger, the medicine in the container is ejected from the nozzle hole 6 at a high speed. A swirling groove (not shown) formed inside the discharge nozzle 2 gives a swirling angular velocity to the droplet, and the medicine is discharged in a sprayed state.

FIGS. 7 and 8 are explanatory diagrams of a work procedure for filling and sealing a portable medicine container in another embodiment of the present invention. FIG. 7 shows the first half process and FIG. 8 shows the second half process. 7 and 8, (a), (b), and (c) all of the drawings are a front view and a lower view are side views.
First, as shown in FIG. 7A, the discharge nozzle 2 is inserted into a bag-like body 11 made of a thermoplastic resin sheet. The discharge nozzle 2 is in an inverted state (a state where the nozzle tip is directed downward), and is inserted deeply so that the nozzle tip is positioned near the bottom of the bag-like body 11. In addition, although the bag-shaped body 11 of this Example is cylindrical shape and both ends are open, the lower opening may be airtightly closed.

Next, as shown in FIG. 7B, the crimping margin 12 (hatched portion in the figure)
The two upper and lower sheets are adhered and bonded by thermocompression bonding. In addition, when using the bag-like body 11 with the lower opening closed as described above, the close contact / joining of the lower end of the bag-like body 11 is unnecessary. By such close contact / bonding, the nozzle hole 6 is blocked / sealed from the outside air.
Further, it is preferable to cut the portion of the cutting line 13 (shown by a broken line) with a scissors, a cutter or the like, and cut off the portion of the extra crimping margin 14.

Accordingly, as shown in FIG. 7C, the container body 1 and the nozzle cover 4 are separated by the crimping allowance 12. Further, the periphery of the discharge nozzle 2 is hermetically sealed by a crimping margin 12. Furthermore, the notch 7 can be easily formed in the base of the nozzle cover 4.

Next, as shown in FIG. 8A, the leaf spring 3 is inserted into the main body from the opening (unbonded portion) at the bottom (upper part in the figure) of the container main body 1. At this time, the leaf spring 3 is placed in the body so that the bottom surface 9 of the leaf spring 3 is along one wall surface of the container body 1 and the discharge nozzle 2 is accommodated in the notch 10 at the center of the leaf spring 3. To place.

Next, as shown in FIG. 8B, the leaf spring 3 is pressed from the outside of the container main body 1, and a predetermined amount of drug is injected into the container main body 1 from the drug dropping nozzle 15. Furthermore, as shown in FIG.8 (c), the opening part of the container main body 1 is airtightly sealed by thermocompression bonding, maintaining the state which pressed the leaf | plate spring 3. As shown in FIG. Even if the external force applied to the leaf spring 3 after the sealing is removed, the pressure contact state is maintained as in the description of FIG. 5C.

As described above, the present invention accommodates a small leaf spring in a drug container made of a flexible material, and uses the elastic force to enable volume reduction / enlargement of the container. Is ejected from the nozzle at a high speed, and the drug solution can be ejected in a spray form.

It is a figure which shows the shape and structure of the portable chemical | medical agent container which is an Example of this invention. It is a figure which shows the other example of the shape of the portable chemical | medical agent container of a present Example. It is a figure which shows the dimension of the portable chemical | medical agent container of a present Example. It is a figure which shows the shape of the leaf | plate spring used in the present Example. It is explanatory drawing of the operation | work procedure which fills and seals the portable medicine container in one Example of this invention with a medicine. It is explanatory drawing which shows the procedure which discharge | releases and uses the chemical | medical agent in the portable chemical | medical agent container of this invention. It is explanatory drawing of the process of the first half of the operation | work procedure which fills and seals a medicine to the portable medicine container in other examples of the present invention. It is explanatory drawing of the process of the latter half of the operation | work procedure which fills and seals a medicine in the portable medicine container in other examples of the present invention. It is a figure which shows the shape of the fragrance container which is an example of a prior art. It is a figure which shows the shape of the portable chemical device which is another example of a prior art. It is a figure which shows the shape of portable containers, such as a liquid chemical | medical agent which is a 3rd example of a prior art.

1: Container body 2: Discharge nozzle 3: Plate spring 4: Nozzle cover 5: Ceiling surface 6 of the container body: Nozzle hole 7: Notch 8: Bending surface 9: Bottom surface 10: Notch 11: Bag-shaped body 12; Fitting 13; Cutting line 14: Extra crimping allowance 15: Drip nozzle 21: Lid 22: Cap-like container 23: Ring packing 24: Short cylindrical portion 25: Male screw portion 26: Vent hole 27: Female screw portion 28: Liquid absorption 31: Vent 32: External container 33: Drug 34: Cap 35: Evaporation control cylinder 36: Clip 41: Vent opening 42: Plastic film bag 43: Drug 44: Microporous film bag 1

Claims (6)

A container body made of a flexible thermoplastic resin sheet or film;
A discharge nozzle that is inserted into the container main body, one end opens near the bottom of the container main body, a small-diameter nozzle hole is provided at the other end, and a gap between the inserted container and the container is hermetically bonded;
A leaf spring disposed in the container body and bent from a rigid plastic thin plate;
A portable drug container comprising a nozzle cover hermetically bonded to the container body so as to cover an upper portion of the discharge nozzle. The portable drug container according to claim 1, wherein the outer periphery of the container main body and the discharge nozzle, and the container main body and the nozzle cover are fixed by thermocompression bonding of a thermoplastic resin. The portable medicine container according to claim 1 or 2, wherein a cut is formed in an adhesive portion between the container body and the nozzle cover. Inserting a discharge nozzle having a small-diameter nozzle hole at the end from the opening of a bag-like or cylindrical container made of a flexible thermoplastic resin sheet or film having at least one end opened,
The thermoplastic resin sheet or film is hermetically pressure-bonded so that the bag-like or cylindrical container is divided into a nozzle cover that covers the nozzle hole and a container body into which a medicine is injected, thereby forming a crimping allowance. And shut off the inflow of outside air from the nozzle hole,
A desired amount of chemical solution from the opening and a leaf spring obtained by bending a resilient hard plastic thin plate are introduced into the container body,
An external force is applied to the leaf spring to bring it into a pressure contact state, and the air in the container body is discharged from the discharge nozzle,
A method of manufacturing a portable drug container, wherein the opening is airtightly crimped in a state where the pressure contact state of the leaf spring is maintained to form a crimping allowance.   5. The method for manufacturing a portable drug container according to claim 4, wherein a notch is provided in the pressure-bonding margin of the nozzle cover so that the nozzle cover can be easily removed by an external force. 6. The method for producing a portable medicine container according to claim 4, wherein the thermoplastic resin sheet or film outside the crimping allowance formed along the nozzle cover is cut and removed.

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