KR20120135702A - Container cap structure - Google Patents

Abstract

PURPOSE: A container cap structure is provided to easily discharge gas generated from agricultural chemicals containing microorganisms to outside by supplying oxygen into a container. CONSTITUTION: A container cap structure comprises the following: a container main body(10) including screw threads on the upper outside, and a space unit filled with agricultural chemicals containing microorganisms; a cap member(20) screwed to an inlet of the container main body; a cover member(100) including cut-out units(115) for inflowing air into the container main body, and a flow patch for inducing the flow of the external air; and a protrusion with both ends having different thickness around the cut-out units.

Description

Container cap structure {CONTAINER CAP STRUCTURE}

The present invention relates to a container cap structure, and in particular, while preventing the outflow of the contents of the liquid state filled in the container to the outside, while allowing the air to flow into the container from the outside and the gas generated inside the container to the outside It relates to a container cap structure whose structure has been improved so that it can be spilled.

As a plastic container, the bag type thing formed from the plastic sheet conventionally, and the plastic bottle type thing formed by blow molding are known.

The bottle type container has the advantage that it can stand upright. However, since this type of container is formed by blow molding, there is a problem in flexibility, and therefore, there is a drawback that a considerable amount of liquid remains since the container does not collapse sufficiently when the liquid in the container flows out.

In addition, a screw thread is formed on the outer circumferential surface of the upper inlet of the container, and a cap member is fastened to the inlet portion where the thread is formed to seal the inlet of the container.

The liquid containing microorganisms among the liquids filled in the container should be supplied with oxygen due to the nature of the microorganisms.

However, when the inlet of the container is sealed by the cap member, oxygen cannot be supplied from the outside, so that a vacuum negative pressure is formed in the container and the container itself breaks down.

In order to prevent this deformation, since the thickness of the container itself must be formed thicker than a predetermined thickness, there is a problem that the manufacturing cost of the container increases.

Meanwhile, as an example for supplying external oxygen into the container, as shown in FIG. 1, the cap member 20 is fastened to a screw thread formed at the inlet side of the container body 10, and the container body 10 is closed. The packing member 30 is disposed inside the inlet, and the cover member 40 of the nonwoven fabric material interposed between the upper side of the packing member 30 and the cap member is disposed.

Cover member 40 is composed of a non-woven material compressed to allow the outside air to pass through.

However, the above structure has a hassle that the packing material for supporting the cover member has to be provided separately, and in the case of pesticides containing the microorganisms, the gas is discharged and the gas is not easily discharged in the case of the pesticides expanded in the container. Therefore, there is a disadvantage that the container swells.

The present invention has been proposed in view of the above-mentioned problems, and an object of the present invention is to provide oxygen from the outside air into the container, and to easily discharge the gas generated from the pesticide containing the microorganisms to the outside. It is to provide a container cap structure with an improved structure so that it can be discharged.

Another object of the present invention is to provide a container cap structure having an improved structure to prevent container deformation due to vacuum pressure or expansion even when the container itself is thinly formed.

The present invention for achieving the above object is a container body having a thread formed on the upper outer peripheral surface, the inlet is opened upward and has a space portion filled with a pesticide containing microorganisms therein;

A cap member fastened to the inlet side of the container body by a screw coupling method;

A cover member disposed between the inlet of the container body and the cap member, the cover member having a flow path for guiding external air into the inside of the container body and having a cutout portion at a lower portion thereof that is a passage through which the air flows into the container body; Provided with

One side and the other side of the protrusion based on the sheath portion is characterized in that formed in different thicknesses to have a difference in thickness.

The flow path is disposed on the outer circumference of the plurality of flow path grooves for inflow of the outside air spaced apart from each other,

Grooves are formed in the center of the upper surface to enable air charging.

A connection groove is formed to be recessed downward in the upper surface to communicate with each of the flow path grooves toward the groove portion side.

The protrusion of the cover member is made of a silicon material so as to allow the outside air to flow when a vacuum negative pressure is formed in the space part and to be deformed by the pressure of the gas generated inside the container body.

The protrusion is a ratio of the thickness of the thick one side portion and the thin other portion is 1.5 to 3.0: 1.0 ratio.

The protruding portion is formed in the hemispherical shape at the center lower side of the cover member.

The present invention provides a container cap structure whose structure is improved to allow air to flow from the outside into the container while preventing the outflow of the contents of the liquid state filled in the container to the outside, and to discharge the gas generated in the container to the outside. According to the present invention, according to the present invention, it is possible to introduce external air in a simple configuration while preventing the external loss of the liquid as a content, as well as allowing the gas generated inside the container to flow out to the outside, and thus the container itself. Forming a thin thickness of the has a useful effect that can prevent the deformation of the container.

1 is a cross-sectional view showing a coupling structure of the existing container and the cap.
2 is an exploded perspective view of the container cap structure according to the present invention.
Figure 3 is a perspective view of the cover member of the present invention.
Figure 4 is a bottom view of the cover member of the present invention.
5 is a cross-sectional view of the cover member of the present invention.
6 and 7 are cross-sectional views showing another form of the cover member of the present invention.
8 is a use state diagram of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same reference numerals as in FIG. 1 will be described for the same components as the conventional components.

2 to 5, the container cap structure according to the present invention has a configuration in which a container having a space portion 15 filled with a solution in which an inlet 12 opened upward is disposed at an upper portion thereof. A main body 10; A cap member 20 formed on an inner circumferential surface thereof and fastened to the inlet side of the container body 10 by a screw coupling method; It is disposed to be interposed between the inlet of the container body 10 and the cap member 20 has a flow path for guiding the outside air into the interior of the container body 10 and the oxygen in the air in the lower portion flows into the container body 10 The cover member 100 has a sheath 115 that is a passage and has protrusions 110 having different thicknesses of one side and the other side.

In more detail, the container body 10 has a substantially cylindrical structure, a male thread is formed on the outer circumferential surface of the inlet, and has a structure in which a solution such as a pesticide containing microorganisms is filled in the space 15.

The cover member 100 has a shape deformation so that when the vacuum negative pressure is formed in the space 15, the outside air is circulated through the sheath 115 of the protrusion 110 and flows out when gas is generated in the container. It is preferable to consist of a stretchable silicone material as much as possible. At this time, the cover member 100 may be made of a silicon material only the protrusion 110.

In addition, the flow path of the cover member 100 has a plurality of flow path grooves 102 formed in a wedge shape to be spaced apart from each other so as to allow the inflow of outside air to the outer circumferential surface thereof, and the groove part of the shape concave downward to fill the air in the center of the upper surface thereof. 105 is formed, the connection groove 104 is formed in a radial shape to be recessed downward on the upper surface to communicate from each flow path groove 102 to the groove portion 105 side.

That is, the flow path of the cover member 100 serves as a passage for guiding external air introduced through the screw thread of the cap member 20 and the screw thread of the container body 10 into the container body 10.

In addition, the sheath 115 is formed in the center of the protrusion 110 in the form of "-". This is because the gap of the sheath 115 is opened by the internal vacuum pressure of the space 15 to allow inflow of external air, but the solution filled in the space 15 is blocked from passing through.

In addition, for this purpose, the protrusion 110 is formed in the hemispherical shape at the center lower side of the cover member 100 to support the opening and closing structure of the sheath 115.

In addition, the protrusion 110 has a thickness greater than that of the right side (one side) on the left side (one side) in the drawing based on the sheath.

The thickness of one portion 110A of the protrusion 110 and the thickness of the other portion 110B preferably have a ratio of 1.5 to 3.0: 1.0. This is because when the thickness is less than 1.5, the gas outflow due to the deformation of the other side (110B) is difficult, and if the ratio exceeds 3.0, the thickness balance between the one side (110A) and the other side (110B) is not balanced. Processing is difficult and the other side (110B) is too thin, there is a risk that the pesticide inside the container is leaked to the outside.

For example, the thickness of one side portion 110A is preferably formed to a thickness corresponding to the thickness of the container body 10.

That is, the sheath portion of the present invention, in the case of pesticides that generate a vacuum inside the container due to microbial respiration, the outside air is introduced into the container, in the case of pesticides that generate gas to increase the pressure inside the container the other side is thin It deforms the site and opens the sheath to carry out the function of letting gas out.

In addition, in the present invention, the container body 10 is not in an upright state, but the solution filled in the space 15 of the container body 10 is in contact with the hemisphere-shaped protrusion 110 side while falling or being transferred horizontally. If it is, it has a structural characteristic to close the sheath 115 by applying pressure to the protrusion 110 side.

6 and 7 is a configuration diagram showing another embodiment of the protrusion 110 of the present invention, the protrusion 110 is formed in the form of a triangular pyramid or trapezoid rather than hemisphere, which is different from the embodiment of the protrusion 110 It may have a form.

The operation of the present invention having such a configuration will now be described.

The container cap structure according to the present invention, as shown in Figure 8, after the cover member 100 is disposed between the cap member 20 and the container body 10, and the inlet side of the container body 10 and When screwing the cap member 20, the edge portion of the cover member 100 is coupled in close contact with the inlet edge side of the container body (10).

At this time, the cover member 100 is coupled to be seated on the upper side of the inlet of the container body 10 in a state accommodated inside the cap member 20.

The flow path grooves 102 of the cover member 100 transfer the outside air introduced between the threaded coupling portions formed on the outer circumferential surface of the container body 10 and the inner circumferential surface of the cap member 20 to each connection groove 104. It becomes a passage, and then, outside air flows into the groove portion 105 through the connecting grooves 104.

Subsequently, the outside air supplied into the groove portion 105 is inside the space portion 15 of the container body 10 through the sheath portion 115 opened by the vacuum negative pressure formed in the space portion 15 of the container body 10. Flows into.

A solution in which oxygen of the outside air introduced into the space 15 is filled in the space 15 is supplied to the microorganism side of the pesticide (pesticide containing microorganisms), thereby maintaining the microorganisms contained in the solution.

At this time, the cut portion 115 of the protrusion 110 to pass through only the outside air into the interior of the container body 10 as described above, to perform the function of preventing the external loss of the solution filled in the container body 10 do.

On the other hand, when the pesticide generating gas is filled in the container body, the pressure of the gas generated from the pesticide containing the microorganism is transmitted to the other side of the protrusion 110, and then the other side of the protrusion 110 is the gas pressure This causes deformation to be bent upwards.

As a result, the gas inside the container has an outflow process that flows out through the flow path groove 102 through the sheath 115 as the sheath 115 is opened by the deformation of the other side of the protrusion 110. .

Therefore, the container cap structure of the present invention can supply the outside air to the inside of the container body 10 while blocking the external leakage of the solution filled in the container, and when the gas is generated inside the container can be discharged to the outside It has a function.

In addition, the present invention can be omitted because it does not require a packing material, unlike the existing container cap structure, it can prevent the shrinkage deformation of the container due to vacuum negative pressure and the expansion deformation due to gas expansion, so that the thickness of the container itself can be formed thinner. This has the advantage of reducing the manufacturing cost due to material savings.

Description of the Related Art [0002]
10: container body 12: inlet
20: cap member 25: through hole
100: cover member 102: euro groove
104: connecting groove 105: groove
110: protrusion 115: sheath
110A, 110B: One side and the other side (projection part)

Claims (5)

A container body having a thread formed on an upper outer circumferential surface thereof, an inlet opening upwardly, and having a space part filled with a pesticide containing microorganisms therein;
A cap member fastened to the inlet side of the container body by a screw coupling method;
A cover member disposed between the inlet of the container body and the cap member, the cover member having a flow path for guiding external air into the inside of the container body and having a cutout portion at a lower portion thereof that is a passage through which the air flows into the container body; Provided with
Container cap structure, characterized in that formed with a different thickness so that one side and the other side portion of the protrusion relative to the sheath portion has a thickness difference. The method according to claim 1,
The flow path is disposed on the outer circumference of the plurality of flow path grooves for inflow of the outside air spaced apart from each other,
Grooves are formed in the center of the upper surface to enable air charging.
Container cap structure, characterized in that the connection groove is formed recessed downward on the upper surface so as to communicate from the respective channel grooves to the groove portion side. The method according to claim 1,
The protrusion of the cover member is made of a silicon material so as to distribute the outside air when the vacuum negative pressure is formed in the space portion, and to be deformed by the pressure of the gas generated in the interior of the container body Cap structure. The method according to any one of claims 1 to 3,
The protrusion is a container cap structure, characterized in that the ratio of the thickness of the thick one side portion and the thin other portion is a ratio of 1.5 ~ 3.0: 1.0. The method according to any one of claims 1 to 3,
The protrusion cap container structure, characterized in that formed in the hemispherical shape in the lower center of the cover member.

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