KR102763566B1 - System for bottle sealing that preventing leakage through structural tension of the cap - Google Patents

Abstract

The present invention provides a technical idea including a cap unit that prevents separation from the bottle by pressurizing the outer surface of the upper part of the bottle through a predetermined tension at the bottom and presses the inner surface of the bottle from the upper part of the bottle to prevent arbitrary leakage of the internal liquid contained in the bottle; and a holding unit that forms a plurality of screw lines that are provided at the upper part of the bottle and protrude outwardly with a predetermined incline and prevents unauthorized separation of the cap unit through the plurality of screw lines.

Description

{System for bottle sealing that preventing leakage through structural tension of the cap}

The present invention relates to a bottle sealing system, and more specifically, to a bottle sealing system capable of sealing a bridge-type stopper without changing the neck structure of an existing bottle, and safely seating the bridge-type stopper within the neck structure of an existing sealing method through a triple screw structure, thereby preventing arbitrary leakage through the structural tension of a cap.

As environmental awareness grows, sustainable alternatives are quickly gaining ground in the syringe and label markets.

In particular, the shift toward biodegradable materials and recyclable designs is becoming a major market trend, and this change is having a positive impact not only on environmental protection but also on improving a company's brand image.

Syringes and labels are currently used as important components in various markets in the packaging industry, but these products are mainly made of various materials such as plastic, paper, and aluminum, and each material has various impacts on the environment and is closely related to environmental pollution issues, so various environmental issues are emerging at the corporate, market, and national levels.

In the case of the problem, plastics in the syringes or labels made of plastic materials such as polyethylene (PE), polypropylene (PP), and polyethylene terephthalate (PET) are difficult to decompose naturally and, if not recycled, cause soil and marine pollution. In addition, they can decompose into microplastics and have a negative impact on the ecosystem.

In addition, since they are often made of composite materials, they are difficult to recycle. For example, if the label has adhesive attached or is made of a mixture of multiple layers of materials, it is difficult to separate them during the recycling process, so in most cases they are treated as waste.

In addition, some sealants and labels may use toxic chemicals during the manufacturing process or release harmful substances when discarded. In particular, PVC (polyvinyl chloride) materials can release toxic substances such as dioxins when burned, posing a significant environmental risk.

Companies and governments are attempting various responses and changes to environmental issues, and companies that are aware of environmental issues are making efforts to switch to recyclable or biodegradable materials.

For example, recyclable and environmentally friendly alternatives such as paper-based labels are being developed, and various technologies are being studied to reduce plastic use.

In addition, as consumers' demand for eco-friendly products increases, eco-labeling is becoming more important, and by using labels that are certified as eco-friendly, it also serves to inform consumers that the product is intended to reduce its impact on the environment.

On the one hand, governments and international organizations are strengthening policies to reduce plastic use. For example, the EU has introduced regulations to limit the use of single-use plastics, which have also affected the market for syringes and labels, and various regulations are providing strong incentives to reduce environmental impact.

Prior literature on containers and caps of various methods for sealing exists, for example, “Resealable pouring element and method of assembling the pouring element (Registration No. 10-1360377, hereinafter referred to as “Patent Document 1”).”

In the case of patent document 1, it relates to a resealable pouring element, comprising: a base surrounded by a flange and having both uninterrupted inner and outer threads; an opening element having at least one cut portion, etc.; and a screw cap formed as a screw-type lid, wherein the opening element has an uninterrupted outer thread and is arranged on the inside of the base, and the opening element is formed in such a way that it cuts an opening in the container material located under the pouring element when the cap is initially operated. The pouring element, which can be simply assembled, can stably perforate a composite material of a beverage container without a weak point and can form a sufficiently large pouring opening. For this purpose, both the outer thread of the opening element and the inner thread of the base are reduced or interrupted at at least one portion of the lower section when initially assembled, and the opening element can be moved axially from above into the base when screwed in without pressing or excessively compressing the threads.

In addition, as a prior utility model document, there exists “Sealing gasket for airtight container lid (Registration No. 20-0363598, hereinafter referred to as “Patent Document 2).”

In the case of Patent Document 2, it relates to a sealing gasket provided so as to be inserted into a mounting groove provided on the outer end of a lid of a sealed container, the gasket is formed as a cap-shaped member that gradually narrows upwards, and the lower end is curved and has a structure that is rounded upwards, and the lower part of the gasket is pressed into close contact with the inner surface of the mounting groove, but the lower part is formed wider than the mounting groove of the lid so as to maintain close contact with the inner surface of the mounting groove when the lid of the sealed container is coupled, and a plurality of holes are provided along the length of the gasket to enhance the close contact or restoring force of the gasket when the lid of the sealed container is coupled, and the holes have a fan shape and a structure in which they are arranged symmetrically with each other.

The invention by patent document 2 provides a sealing gasket for a sealed container lid formed with a cap-shaped gasket that gradually narrows upwards and has a rounded structure with an upwardly curved bottom, thereby preventing lifting or distortion when the lid is combined and increasing the sealing force at the top of the container, thereby improving the sealing effect.

In addition, as a prior utility model document that helps discharge liquid substances and enables sealing, there exists a "liquid container lid (Registration No. 20-0371223, hereinafter referred to as "Patent Document 3").

In the case of patent document 3, a lid mounted on a container for conveniently storing a liquid substance and easily discharging the liquid substance through a discharge port is provided, wherein an opening member having a cut-off portion that is easily cut at the bottom of a ring-shaped handle formed in the center of a second top plate so that a finger can be inserted therein, a second discharge port is formed in the open portion by cutting the opening member, a lower cap having a tubular guide wall that guides the liquid substance discharged through the second discharge port formed wider than the second discharge port, and a second connecting member that engages with one side of the outer surface of the lower cap and rotates to fit into the lower cap, and a leak-prevention pipe that prevents leakage by contacting the guide wall is formed on the central bottom surface of the first top plate, and a first discharge port for discharging the liquid substance is formed in the form of a tube on one side of a dome-shaped hemisphere formed in the center of the first top plate, and a second protruding portion is protruded on one side of the outer surface, and a first connecting member that engages with one side of the outer surface of the lower cap and rotates to fit into the lower cap so as to accommodate the upper cap. A liquid container lid characterized by being formed of a cover having a first protruding portion on one side of the outer surface thereof.

Patent Document 3 is a liquid container lid that can be conveniently used by dividing it into large and small capacities according to the intended use by using alternately the caps in which each first discharge port and second discharge port are formed.

Registration No. 10-1360377 Utility Model Registration No. 20-0363598 Utility Model Registration No. 20-0371223

A bottle sealing system capable of preventing arbitrary leakage through the structural tension of a cap according to the present invention has been devised to solve the above-mentioned conventional problems, and presents the following tasks to be solved.

First, ensure that the seal is maintained securely without changing the height of the existing beverage sealing neck or the container or equipment.

Second, the lack of space in the neck is addressed by introducing multiple screws in the design to address the space problem and maintain excellent fastening strength.

Third, by implementing a structure that can safely and effectively seal the stopper without changing the size or height of the existing container, the efficiency of the production process is increased, and a new sealing method can be applied without additional cost.

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

The bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention has the following problem-solving means to solve the above-mentioned problem.

A bottle sealing system capable of preventing arbitrary leakage through the structural tension of a cap according to the present invention may be characterized by including a cap unit that prevents arbitrary leakage of internal liquid contained in the bottle by pressing an outer surface of an upper portion of the bottle through a predetermined tension at a lower portion thereof and pressing an inner surface of the bottle from an upper portion of the bottle; and a holding unit that forms a plurality of screw lines that are provided at an upper portion of the bottle and protrude outwardly with a predetermined incline and prevents unauthorized separation of the cap unit through the plurality of screw lines.

The cap unit of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized by including a bridge portion formed by protruding outwardly from the lower portion of the cap unit and forming a predetermined tension; and a sealing portion formed by protruding outwardly from the upper portion of the cap unit and pressurizing and sealing the inner circumferential surface of the upper portion of the holding unit.

The sealing portion of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that it maintains a predetermined tension direction in the direction of the inner surface of the bottle from an upper portion protruding from the cap unit to a lower portion pressing a predetermined position on the inner surface of the bottle.

The sealing portion of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that it maintains the predetermined tension direction to form a predetermined air slot between the inner surface of the bottle and the outer surface of the sealing portion of the cap unit, and prevents the liquid leakage due to external pressure through the internal pressure of the air slot.

The bridge portion of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be provided to protrude outward from the inner surface of the cap unit, and may be arranged in multiple pieces spaced apart at regular intervals, and may be characterized in that it forms a detachment resistance by pressing the outer surface of the bottle through the tension.

The holding unit of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that it forms a catch portion protruding outwardly at a predetermined position from the upper portion, and the upper portion of the bridge portion presses the lower portion of the catch portion, thereby forming resistance against opening and detachment of the cap unit.

The cap unit of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized by including a trapping part having a pattern protrudingly formed on an inner surface corresponding to the screw line and rotating along the screw line to pressurize the outer surface of the holding unit.

The trapping part of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that it rotates along the screw line to move the cap unit up and down, and is held between the screw lines to prevent arbitrary detachment of the cap unit.

The holding unit of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that the starting points of the screw lines are provided spaced apart at preset angle intervals.

The holding unit of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may be characterized in that it moves up and down along the screw lines, but is trapped between a plurality of screw lines to prevent detachment of the cap unit.

The bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention having the above configuration provides the following effects.

First, it provides the effect of increasing the efficiency of the manufacturing process and reducing costs by introducing a new sealing technology without major modifications to the existing production line, thereby enabling sealing without changing the size or height of the existing container.

Second, the liquid inside the container is firmly sealed through a screw structure (triple screw structure) with a starting interval of 120 degrees, preventing external contaminants from penetrating and liquid leakage, thereby improving the product's preservability and safety, and providing the effect of strengthening the product protection function during distribution and storage.

Third, it improves the user experience by sealing and sealing the inner surface of the container to ensure easy opening and sealing, thereby increasing the convenience of use for consumers and contributing to enhancing the competitiveness of the product.

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

Figure 1 is a photograph showing a conventional sealing adhesive method applied.
Figure 2 shows a conventional cap structure applied.
FIG. 3 is a cross-section of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.
FIG. 4 is a cross-sectional view of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.
FIG. 5 is an overall cross-sectional view of a bottle to which a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention is applied.
FIG. 6 is a second overall cross-sectional view of a bottle to which a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention is applied.
FIG. 7 is a plan view and a front view of a cap screw thread of a bottle sealing system capable of preventing arbitrary leakage through a conventional cap screw thread and structural tension of a cap according to one embodiment of the present invention.
FIG. 8 is an enlarged view of a sealing portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.
FIG. 9 illustrates a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention, in which a tension portion is provided between the inner surface of a cap unit and a bridge portion.
FIG. 10 is an enlarged view of a bridge portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.
FIG. 11 is an enlarged view of a sealing portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.

The bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention can have various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, but should be understood to include all modifications, equivalents, or substitutes included in the technical spirit and technical scope of the present invention.

Fig. 1 is a photograph of a conventional sealing adhesive method applied. Fig. 2 is a photograph of a conventional cap structural method applied. Fig. 3 is a cross-sectional view of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention. Fig. 4 is a cross-sectional view of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention. Fig. 5 is a cross-sectional view of an entire bottle to which a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention is applied. Fig. 6 is a second cross-sectional view of an entire bottle to which a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention is applied. Fig. 7 is a plan view and a front view of a cap thread of a conventional cap and a cap thread of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention. FIG. 8 is an enlarged view of a sealing portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention. FIG. 9 is an enlarged view of a bridge portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention, in which a tension portion is provided between an inner surface of a cap unit and a bridge portion. FIG. 10 is an enlarged view of a bridge portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to an embodiment of the present invention.

FIG. 11 is an enlarged view of a sealing portion of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to one embodiment of the present invention.

When a liquid is placed in an existing bottle and distributed and sold in the market, the upper part of the bottle is sealed with an inner seal to prevent leakage of the liquid, as shown in Fig. 1, to seal the inside of the bottle.

However, in the case of the sealing neck type that seals the inside of the bottle, a process for attaching the sealing paper to the top of the bottle had to be added, and there was the inconvenience of consumers having to peel off the seal when opening.

In addition, the sealing paper had the disadvantage of not only being inconvenient in that the seal was not properly removed, but was designed to be disposable, so it could not be resealed using the sealing paper after opening, and there was also the problem of liquid leaking between the lids when resealing them.

In order to improve the sealing form of the sealing method from the perspective of environmental protection as well as the convenience of the user, the present invention provides a sealing system that securely maintains the seal through a cap that presses and closes the upper part inside the bottle, and also prevents unauthorized removal of the cap.

A bottle sealing system capable of preventing arbitrary leakage through the structural tension of a cap according to the present invention is configured to include a cap unit (100) and a holding unit (200).

In the case of the cap unit (100), the outer surface of the upper part of the bottle is pressed through a predetermined tension at the bottom to prevent separation from the bottle, and the inner surface of the bottle is pressed tightly from the upper part of the bottle to prevent arbitrary leakage of the internal liquid contained in the bottle.

A holding unit (200) is provided at the top of the bottle and has a plurality of screw lines that are formed to protrude outwardly and have a predetermined incline, and prevents unauthorized detachment of the cap unit through the plurality of screw lines.

The cap unit (100) is provided at the top of the bottle as shown in Fig. 3 and seals liquid, etc. provided inside the bottle at the top of the bottle.

As shown in Fig. 4, the cap unit (100) is provided in a form that presses the inner surface of the bottle from the upper part.

As shown in FIGS. 3 and 4, the cap unit (100) is composed of a moving cap that moves along a screw line provided at the upper end of the bottle and a lead cap that has a perforated line that is cut through opening and presses the outer surface of the bottle (container) even when the moving cap is opened.

The holding unit (200) provides a screw thread to the upper part of the bottle (container), and a cap unit (100) is provided to have a sealed and covered form.

The cap unit (100) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention is configured to include a bridge portion (110) and a sealing portion (120).

In the case of the bridge portion (110), a predetermined tension is formed and it protrudes outward from the lower part of the cap unit.

The sealing portion (120) is formed to protrude outward from the upper portion of the cap unit (100) and presses and seals the inner surface of the upper portion of the holding unit (200).

The sealing portion (120) is provided in a form that protrudes downward from the upper portion of the moving cap of the cap unit (100), as shown in FIG. 4.

The sealing portion (120) seals the internal liquid by pressing the inner surface of the bottle against the surface corresponding to the inner surface of the cap unit.

The sealing portion (120) has tension and a predetermined angle from the upper portion to the lower portion.

At this time, the predetermined angle is an angle in the direction of pressing the inner surface of the bottle, as shown in Fig. 4.

The sealing portion (120) is provided in the bottle, so that some pushing is provided toward the inner side of the container, but the pushing further presses the inner surface of the container.

The bridge portion (110) is provided below the perforated line and, as shown in Fig. 4, presses the outer surface of the container below the perforated line.

The sealing part (120) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention maintains a predetermined tension direction in the direction of the inner surface of the bottle from the upper part protruding from the cap unit (100) to the lower part pressing a predetermined position on the inner surface of the bottle.

The lower part of the sealing portion (120) presses against a predetermined position from the upper part on the inner surface of the bottle, and the pressing is done through tension.

In the case of tension, it corresponds to a physical tension through the sealing portion (120), and tension is provided through a predetermined angle provided by the sealing portion (120) (here, the angle is an angle provided toward the inner surface of the bottle).

This tension allows the sealing portion (120) to maintain a constant pressure inside the bottle until the bottle is opened.

Additionally, the physical tension can maintain the angle even when the cap unit (100) moves and reseales, so that the internal pressure is maintained even when resealing.

The sealing portion (120) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention maintains a predetermined tension direction to form a predetermined air slot between the inner surface of the bottle and the outer surface of the sealing portion (120) of the cap unit (100), and prevents liquid leakage due to external pressure through the internal pressure of the air slot.

In the case of an air slot, as shown in FIG. 8, the lower part of the sealing part (120) provided between the bottle and the cap unit (100) presses a predetermined position on the inner surface of the bottle, and the upper part forms some space from the inner surface of the bottle, thereby forming an air slot.

These air slots prevent outside pressure from entering the interior of the bottle and prevent liquid from leaking outside.

Additionally, the air slots may serve some buffering role, helping to control internal pressure.

Additionally, it is possible to prevent product leakage even when the bottle is shaken through the air slot.

The bridge portion (110) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention is provided to protrude outward from the inner surface of the cap unit (100), and is arranged in multiple pieces spaced apart at regular intervals, and forms a detachment resistance by pressing the outer surface of the bottle through the tension.

The bridge portion (110) may be provided in multiple pieces spaced apart at the bottom of the cap unit (100).

Additionally, the bridge portion (110) may be provided to protrude upward from the lower portion of the cap unit (100) at a predetermined angle, as illustrated in FIG. 4.

The protruding bridge portion (110) is pressed against and pressed against the outer surface of the bottle.

The holding unit (200) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention forms a catch portion (210) that protrudes outwardly at a predetermined position from the upper portion, and the upper portion of the bridge portion (110) presses the lower portion of the catch portion (210), thereby forming resistance against opening and detachment of the cap unit (100).

In the case of the catch portion (210), as shown in FIG. 4, it is provided to protrude outwardly from the bottle at a predetermined position and can be provided at the cut line position of the cap unit (100).

A movable cap is provided at the upper portion from the cut line, and a lead cap is provided at the lower portion from the cut line. Due to the catch (210), the lead cap provided at the lower portion of the cut line does not move and continuously presses the lower portion of the container.

The cap unit (100) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention has a pattern formed protruding on the inner surface corresponding to the screw line (201).

In addition, the trapping part (130) moves up and down the cap unit (100) by rotating along the screw line (201), and is held between the screw lines (201) to prevent the cap unit (100) from being accidentally detached.

The cap unit (100) has a trapping part (130) that protrudes inwardly corresponding to the screw line (201), and the trapping part (130) rotates and moves upward and downward through the screw line (201).

Additionally, the trapping part (130) is trapped between the screw threads (201) to prevent the cap unit (100) from being accidentally detached.

In the case of the screw thread (201), it protrudes outward in a spiral shape, and through contact between the trapping part (130) and the screw thread (201), leakage and leaks of the contents inside the bottle are prevented and the contents are protected from the external environment.

The holding unit (200) moves up and down along the screw line (201), but is trapped between a plurality of screw lines (201) to prevent the cap unit (100) from coming off.

When the screw thread (201) and the trapping part (130) are completely closed, the interior can be packed and sealed through the frictional force of the screw thread (201) and the sealing part (120) provided on the upper part of the inside of the cap unit (100).

The holding unit (200) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention is provided with the starting points of the screw lines (201) spaced apart at preset angle intervals.

In the case of the screw line (201), it is provided to protrude outwardly at the top of the bottle, and as shown in (b) and (d) of FIG. 7, the starting points from which the screw line (201) starts are formed at 120-degree angle intervals, so that if the top of the bottle corresponds to 360 degrees, the starting points can be three points.

In the case of the screw thread (20) provided at the top of the existing bottle, the starting point of the screw thread was provided at 270 degrees, so the starting point was point 2.

The existing two-point screw thread (20) could cause the cap to rotate or not fit perfectly, which could cause problems with the sealing of the liquid inside the bottle, resulting in leakage of the contents inside.

On the other hand, in the case of the present invention, the starting point is increased to three points, so the points at which the sealing and opening of the cap can begin are increased, and convenience is provided to the user through the increased starting points.

In the case of a cap unit (100) of a bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap according to the present invention, a tension part (111) may be further included between the inner surface of the cap unit and the bridge part (110).

In the case of the tension part (111), it is provided in a form that adds tension to the bridge part (110), so that the bridge part (110) can continuously press the outer surface of the bottle, and the bridge part (110) can be separated from the inner surface of the cap unit (100).

The tension part (111) has tension of its own, maintains tension by the pressure of the bridge part (110), and can be maintained in a form that continuously pushes the bridge part (110) toward the outer surface of the bottle.

The sealing portion (120) of the cap unit (100) of the bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap according to the present invention may further include a ribbed portion (121) on the outer surface of the sealing portion (120) that comes into contact with the bottle.

The riblet portion (121) is arranged in a plurality of spaced shapes, and can be formed spaced apart in a serial direction or in a parallel direction, as shown in Fig. 11.

In the case of a plurality of riblet portions (121), they can be provided in a predetermined outwardly convex shape, and the surface of the riblet portions (121) can form a plurality of wrinkles.

The surface of the ribbed portion (121) having multiple wrinkles can form fine protrusions on the surface to reduce surface friction.

Multiple folds are a structure that can form viscous resistance to liquid.

In addition, the riblet portions (121) are arranged in a parallel manner in a plurality of spaced apart forms, and are provided in a form that presses the inner surface of the bottle, as shown in Fig. 11, and the liquid inside the bottle can be prevented from flowing out through the riblet portions (121).

The surface of the riblet portion (121) forms a small vortex on the surface through surface friction, thereby preventing liquids, etc. from pooling or staying on the surface of the riblet portion (121), thereby maintaining the stability of products, such as liquids, inside the bottle.

The scope of the rights of the present invention is determined by the matters described in the claims, and the parentheses used in the claims are not described for optional limitation, but are used to indicate clear elements, and the description within the parentheses should also be interpreted as essential elements.

100: Cap Unit
110: Bridge section
120: Sealing part
121: Reblet section
130: Trapping section
200: Holding Unit
201: Screw
210: The stumbling block

Claims (10)

A cap unit that prevents the outer surface of the upper part of the bottle from being separated from the bottle by applying a predetermined tension to the lower part, and prevents the inner surface of the bottle from being pressed tightly from the upper part of the bottle to prevent any leakage of the internal liquid contained in the bottle; and
A holding unit is provided on the upper part of the bottle, and forms a plurality of screw lines having a predetermined incline and protruding outwardly, and prevents unauthorized detachment of the cap unit through the plurality of screw lines.
The above cap unit,
A bridge section forming a predetermined tension; and
It includes a sealing part that presses and seals the inner surface of the upper part of the holding unit,
The above bridge part,
They are arranged in multiple pieces at regular intervals, and the outer surface of the bottle is pressurized through tension to form a detachment resistance.
The above holding unit
A catch portion protruding outwardly from the upper portion is formed at a predetermined position, and the upper portion of the bridge portion presses the lower portion of the catch portion, thereby forming resistance against opening and detachment of the cap unit.
The above cap unit,
It includes a trapping part in which a pattern is protruded and formed on the inner surface to correspond to the above screw line,
The above trapping part,
By rotating along the screw line, the cap unit is moved up and down, and is held between the screw lines to prevent the cap unit from being accidentally detached.
The above cap unit,
A bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap, characterized in that it includes a tension unit that forms its own tension, is provided between the inner surface of the cap unit and the bridge portion to add tension to the bridge portion, continuously presses the outer surface of the bottle, and continuously pushes the bridge portion toward the outer surface of the bottle.
delete In the first paragraph, the sealing part,
A bottle sealing system capable of preventing arbitrary leakage through the structural tension of the cap, characterized in that a predetermined tension direction is maintained in the direction of the inner surface of the bottle from the upper portion protruding from the cap unit to the lower portion pressing a predetermined position on the inner surface of the bottle.
In the third paragraph, the sealing part,
A bottle sealing system capable of preventing arbitrary leakage through the structural tension of a cap, characterized in that a predetermined air slot is formed between the inner surface of the bottle and the outer surface of the sealing portion of the cap unit by maintaining the predetermined tension direction, and leakage of the liquid due to external pressure is prevented through the internal pressure of the air slot.
delete delete delete delete In the first paragraph, the holding unit,
A bottle sealing system capable of preventing arbitrary leakage through structural tension of a cap, characterized in that the starting points of the above screw lines are provided spaced apart at preset angle intervals.
delete