阅读说明：本技术 具有多重螺纹的结合装置 (Combination device with multiple threads ) 是由 李贞旻 于 2017-01-05 设计创作，主要内容包括：本发明提供一种具有多重螺纹的结合装置,对于与容器的曲部结合的结合装置,主体的外侧部由上侧面部与下侧面部构成,在所述上侧面部的上侧面部内壁部形成规格不同的第一螺纹与第二螺纹,在所述上侧面部的下方设置下侧面部,在所述下侧面部的内壁部形成辅助螺纹,所述辅助螺纹形成于第二螺纹开始的密封壁的下端部。并且,所述辅助螺纹适合容器颈螺纹的规格接近30MM的尺寸,所述辅助螺纹从所述第二螺纹开始的部位向下部具有7MM左右的高度。(The invention provides a connecting device with multiple screw threads, for connecting with the curved part of a container, the outer side part of a main body is composed of an upper side surface part and a lower side surface part, a th screw thread and a second screw thread with different specifications are formed on the inner wall part of the upper side surface part, a lower side surface part is arranged below the upper side surface part, an auxiliary screw thread is formed on the inner wall part of the lower side surface part, the auxiliary screw thread is formed at the lower end part of a sealing wall where the second screw thread starts, moreover, the auxiliary screw thread is suitable for the size of the container neck screw thread, the size of the auxiliary screw thread is close to 30MM, and the auxiliary screw thread has the height of about 7MM from the part where the second screw thread starts to the.)

1, A combination device with multiple threads,

in the coupling device coupled to the curved portion of the container, the outer side portion of the main body is composed of an upper side surface portion and a lower side surface portion, th screw threads and second screw threads of different specifications are formed on the inner wall portion of the upper side surface portion,

said second threads passing through the container neck threads corresponding to said th threads in a slightly spread or unobstructed state during said th threads engaging threads of a container neck thread having a thread adapted to said th threads, said th threads passing through the container neck threads corresponding to said th threads, during said th threads, stably engaging the container neck threads adapted to said th threads,

the second threads stably engage with container neck threads corresponding to the second threads when engaged with a container neck adapted for the second threads, the th threads being hindered from engaging with container neck threads corresponding to the second threads in an expanded state of the th threads during the same process as ,

in the conventional multi-thread coupling device having a container neck inner wall sealing portion extending inside an upper side portion having the th thread and the second thread, a lower side portion is provided below the upper side portion, an auxiliary thread is formed on an inner wall portion of the lower side portion, the auxiliary thread being formed at a lower end portion of a sealing wall starting the second thread, the auxiliary thread being adapted to a size of the container neck thread close to 30MM in size,

the auxiliary thread has a height of about 7MM from a portion where the second thread starts toward a lower portion.

2. The multi-threaded coupling device of claim 1,

the auxiliary thread has a height of about 6MM to 7MM from a portion where the second thread starts toward a lower portion.

3. The multi-threaded coupling device of claim 1,

the auxiliary thread has a height of about 7MM to 8MM from a portion where the second thread starts toward a lower portion.

4. The multi-threaded coupling device of claim 1,

the auxiliary thread has a height of about 6MM to 8MM from a portion where the second thread starts toward a lower portion.

5. The multi-threaded coupling device of claim 1,

the auxiliary thread has a height of about 4MM to 6MM from a portion where the second thread starts toward a lower portion.

6. The multi-threaded coupling device of claim 1,

a lower end inner wall lower end portion is formed in an inner wall portion of both the lower end portion and the lower side portion of the auxiliary screw.

7. The multi-threaded coupling device of claim 6,

the diameter of the lower end part of the lower end inner wall is more than 31 MM.

8. The multi-threaded coupling device of claim 6,

and a second guide member having a lower end portion widened from the auxiliary thread is formed at a lower portion, i.e., a lower end portion of the lower end inner wall.

9. The multi-threaded coupling device of claim 1,

the diameter of the lower end part of the lower end inner wall is more than 31 MM.

10, A combination device with multiple threads,

the outer side of the main body is composed of an upper side part and a lower side part, an th screw thread for screw thread connection with a container neck with less than 28MM is formed on the inner wall part of the upper side part of the main body, a second screw thread for screw thread connection with a container neck with a 28MM container neck screw thread is formed on the inner wall part of the upper side part,

said th thread passing through a container neck thread corresponding to said th thread in a slightly spread-out or unimpeded state of said second thread when engaged with a thread having a container neck thread compatible with said th thread, said th thread passing through a container neck thread corresponding to said th thread, said th thread stably engaging a container neck thread compatible with said th thread during the same phase,

said second threads stably engaging container neck threads corresponding to the second threads when engaged with a container neck compatible with said second threads, wherein the th threads are obstructed from engaging container neck threads corresponding to the second threads during the same procedure in a condition wherein the th threads are expanded,

in the conventional multi-thread coupling device having a container neck inner wall sealing portion extending inside an upper side portion having the th thread and the second thread, a lower side portion is provided below the upper side portion, an auxiliary thread formed at a lower end portion of a sealing wall where the second thread starts is formed at an inner wall portion of the lower side portion, and the auxiliary thread is adapted to a size of the container neck thread close to 30MM,

the auxiliary thread has a height of about 7MM from a portion where the second thread starts toward a lower portion.

11. The multi-threaded coupling device of claim 10,

the auxiliary thread has a height of about 6MM to 7MM from a portion where the second thread starts toward a lower portion.

12. The multi-threaded coupling device of claim 10,

the auxiliary thread has a height of about 7MM to 8MM from a portion where the second thread starts toward a lower portion.

13. The multi-threaded coupling device of claim 1,

the auxiliary thread has a height of about 6MM to 8MM from a portion where the second thread starts toward a lower portion.

14. The multi-threaded coupling device of claim 10,

the auxiliary thread has a height of about 4MM to 6MM from a portion where the second thread starts toward a lower portion.

15. The multi-threaded coupling device of claim 10,

the lower end of the auxiliary thread and the inner wall of the lower side surface form a lower end inner wall lower end.

16. The multi-threaded coupling device of claim 15,

the diameter of the lower end part of the lower end inner wall is more than 31 MM.

17. The multi-threaded coupling device of claim 15,

and a second guide member having a lower end portion widened from the auxiliary thread is formed at a lower portion, i.e., a lower end portion of the lower end inner wall.

18. The multi-threaded coupling device of claim 10,

the diameter of the lower end part of the lower end inner wall is more than 30 MM.

19. The multiple-threaded coupling device according to claim 1 or 10,

a container neck inner wall sealing part is formed on the lower side part and the inner side part of the upper side part, the containing part is in a state of separating from the lower side part and extending to the lower part in a protruding way, and a cutting part of a device for discharging the content of the storage space in the containing part with the storage space extending in the protruding way is connected with a folding part at the upper end.

20. The multiple-threaded coupling device according to claim 1 or 10,

the upper side portion is provided with a folding portion which is made of soft rubber and is in a form of expanding outwards, the folding portion is provided with a cutting portion extending from the inner part of the folding portion to the lower part, and an accommodating portion with a storage space is combined by taking the inner wall of the folding portion contacting with the upper side portion as the center.

21. The multi-threaded coupling device of claim 19,

the end of the housing section, which is the lower end, is narrowed inward, and the narrowed end of the housing section is sealed by a sealing member.

22. The multi-threaded coupling device of claim 19,

the container part is formed by narrowing the end of the container part, which is the lower end of the container part, inward, and sealing the narrowed end of the container part with a sealing member, wherein the lower end of the container part is narrowed by heating the end of the container part.

23. The multiple-threaded coupling device according to claim 1 or 10,

a container part having a container neck inner wall sealing part and a storage space in the shape of a container neck is formed on the lower side part and the inner side part of the upper side part, a cutting part of a device for discharging the content in the storage space is connected with a folding part at the upper end in the container part,

an end portion of the accommodating portion is provided at a lower end of the accommodating portion, and the end portion of the accommodating portion is in a state of being narrowed at a back side and sealed by a sealing member.

24. The multiple-threaded coupling device according to claim 1 or 10,

a storage part having a container neck inner wall sealing part -shaped storage space is formed in the lower side part and the inner side part of the upper side part, the storage space in the storage part is hollow, a folding part made of soft rubber is formed at the end part of the upper side part and the upper end part of the storage space,

the storage space is filled with a solid content such as a liquid, a powder, a granule, or a tablet, and the end of the container is sealed by a sealing member.

25. The multi-threaded coupling device of claim 24,

an assembled cut-out portion for breaking the seal member is combined in the accommodating portion.

26. The multi-threaded coupling device of claim 24,

an assembled intercepting part is combined in the accommodating part, and the upper end part of the assembled intercepting part is in the form of a folding part which is wrapped and assembled from the inner side and is contacted with the accommodating part.

27. The multiple-threaded coupling device according to claim 1 or 10,

a storage part having a container neck inner wall sealing part -shaped storage space is formed in the lower side part and the inner side part of the upper side part, the storage space in the storage part is hollow, a folding part made of soft rubber is formed at the end part of the upper side part and the upper end part of the storage space,

the storage space is filled with a solid state content such as liquid or powder or granules or tablets, the end of the containing part is sealed by an assembled sealing member,

the assembled sealing member is connected to the end portion of the housing portion through the sealing member connecting portion via the supporting frame, and when pressure is applied to the storage space of the housing portion, the sealing member connecting portion is opened downward at a portion opposite to the sealing member connecting portion by a seam line other than the sealing member connecting portion, thereby opening the storage space of the housing portion.

28. The multiple-threaded coupling device according to claim 1 or 10,

a storage part having a container neck inner wall sealing part -shaped storage space is formed in the lower side part and the inner side part of the upper side part, the storage space in the storage part is hollow, a folding part made of soft rubber is formed at the end part of the upper side part and the upper end part of the storage space,

the storage space is filled with a solid state content such as liquid or powder or granules or tablets, the end of the containing part is sealed by an assembled sealing member,

the end of the assembled sealing component is narrowed to the inner side and formed with a plurality of elastic protruding pieces, when the storage space applies pressure, the assembled sealing component is separated through the container, and the separated assembled sealing component is unfolded by the protruding pieces and is not separated by the container.

29. The multiple-threaded coupling device according to claim 1 or 10,

the upper portion of the upper side surface portion is provided with a folding portion made of soft rubber, and a folding portion reinforcing portion is arranged in a manner of wrapping the folding portion.

30. The multi-threaded coupling device of claim 29,

the folding part reinforcing part is in a shrink film form, or sheets such as films and the like are arranged into an arch shape.

Technical Field

The invention relates to kinds of coupling devices with multiple screw threads, which can be coupled to container necks with different specifications through coupling devices with multiple screw threads even if the specifications of the screw threads formed on the container necks are different.

Background

The prior art of the inventor has the technology of PCT/KR2008/4210, PCT/KR2011/08735 and PCT/KR 2013/8127.

Disclosure of the invention

Technical problem to be solved by the invention

In the case of PCT/KR2008/4210, which is the conventional technology, for example, a thread for coupling to a container neck having thread specifications of 26.78MM and 28MM is formed inside a bottle cap, and the bottle cap having the structure of the plurality of threads has threads having different thread shapes on a cylindrical inner wall surface of the bottle cap so as to rationally form an -th thread group and a second thread group, wherein the -th thread group has bottle caps for coupling to an approximate value of the thread specification of the container neck of 26.78MM and a specification slightly larger or smaller than 26.78MM, and the second thread group is for coupling to an approximate value of the thread specification of the container neck of 28MM and a specification slightly larger or smaller than 28 MM.

However, according to the above technology, only the thread group and the second thread group formed on the single wall surface of the bottle cap, that is, the inner wall portion of the side surface portion are connected and sealed with all container necks having threads of 25.4MM to 30MM standard, which are circulated like by bottle caps having the plurality of threads.

Therefore, in order to be coupled to the container necks of all the groups, it is necessary to form threads on the inner wall portions of the end other than the inner wall portion of the single bottle and the other end , which may result in a large size of the bottle cap, which may hinder the practical use thereof, or may cause a lot of difficulties in the automation of the factory.

Even in the case of the bottle cap having the disadvantage that, for example, in the case where the second thread is formed so as to be hung on the thread of the container neck having the thread gauge of 30MM at the lower end of the th thread group hung on the 28MM container neck thread, when the th thread group is combined with the container neck having the thread gauge of 28MM, the skirt of the bottle cap where the second thread group is stuck to the lower portion of the 28MM thread of the container neck is hindered and is difficult to be combined.

Of course, it is sufficient to remove a skirt or the like attached to a container neck, but this cannot be achieved in reality in consideration of convenience of consumers and the like, and the PCT/KR2008/4210 is applied to a container neck having a screw thread of a standard of 25.4MM to 30MM, which is becoming common, and is therefore applied to a container neck having a screw thread of 25.4MM to 28 MM.

The PCT/KR No. 2008/4210 starts to develop samples in 2007, finishes the development in 2008, and successfully achieves the practicability in 2013 in the United states.

The market still exists for a container neck with a 30MM thread and with PCT/KR2011/08735 developed to suit the requirements of the market.

The PCT/KR2011/08735 is a technique for coupling and sealing a container neck having 25.4MM to 30MM gauge threads through bottle caps.

However, in the case of sealing the inner diameter of the container neck by the inner diameter of the container neck, there are a number of technical problems due to a large difference in the inner diameter of the container neck, and the manufacturing cost is disadvantageously increased when the technical problems are easily solved.

Further, in the case of PCT/KR2013/8127, particularly referring to fig. 55, a lower coupling portion is provided on the lower side, and the lower coupling portion is hung on a container neck thread of 30MM, but coupling is hindered by hanging on a skirt or a neck support ring formed on the conventional container neck at the lower coupling portion, and as shown in fig. 72, the lower coupling portion of the assembly coupling portion is provided as a soft material having different material properties, but also collides with the skirt or the thread or the neck support ring to hinder coupling.

Further, as shown in fig. 59, in the case where the hook-type elastic coupling space is provided, there is also a disadvantage that the elastic coupling space is not separated after surrounding the neck support ring, and the cap cannot be separated from the container neck.

The present invention is directed to a structure of the above-described conventional technology, in which an example of the use of the thread structure is more realistic and clarified by improving the thread structure, and more specifically, it is an object to provide auxiliary threads which are arranged at a distance from the lower end portions of the th thread and the second thread so that the engaging means can engage with a container neck thread which is close to 25MM, for example, a container neck having threads of 24.50MM and 24.70MM, a container neck thread which is close to 26MM, for example, a container neck thread which is 25.70MM, 25.93MM, and 26.30MM, a container neck thread which is close to 27MM, for example, a container neck thread which is 26.67MM, 26.78MM, 27.3MM, and 27.35MM, a container neck thread which is 28MM, for example, a container neck thread which has threads of single or multiple threads, and 27.35MM, 27.4MM, 27.56, and 28MM, and a container neck which has threads close to 30 MM.

Means for solving the problems

The coupling device of the present invention is used for coupling container necks having different specifications such as the inner diameters of the container neck screw threads, the hanging and fastening frame (skirt hanging and fastening frame), the neck support ring (ring frame), or the inner wall portion of the container neck, and particularly, the container necks having different specifications, respectively, from the upper end of the container neck to the hanging and fastening frame, or from the upper end of the container neck to the neck support ring, can be coupled by coupling devices.

In order to achieve the above object, an th screw thread and a second screw thread are provided on an inner wall portion of an upper side surface portion of a body of a coupling device, and an auxiliary screw thread is formed on an inner wall portion of a lower side surface portion, the th screw thread is configured to be screw-coupled to a container neck having an approximate specification of 25MM to 26MM or 27MM, and the second screw thread is configured to be screw-coupled to a container neck having an approximate specification of 27MM and 28 MM.

An auxiliary screw thread having a structure capable of being screwed with a container neck having a screw thread of 30MM is provided on the inner wall portion of the lower side surface portion.

As indicated above, in order to increase the possibility of the coupling means engaging with respectively different container necks, the thread size of the second thread is close to 28MM for the case of the second thread to engage with a thread having a 28MM container neck thread, said th thread being a thread designed to have a thread size of MM less than 25MM for the engagement of 27 to 25 MM.

In the case of the auxiliary screw, the lower portion of the seal wall formed at the upper side portion in contact with the lower side portion includes the seal wall, the height of the auxiliary screw is about 7MM, and the lower end inner wall is provided below the auxiliary screw.

The bonding apparatus as described above is explained in more detail as follows.

According to embodiments, the outer side of the main body is composed of an upper side part and a lower side part, and th screw threads and second screw threads with different specifications are formed on the inner wall part of the upper side part.

And, when said th thread is engaged with a container neck thread having a thread adapted to said th thread, said th thread is stably engaged with a container neck thread adapted to said th thread during , in a state in which said second thread is slightly spread or unimpeded during passage of said second thread through a container neck thread having a corresponding th thread, through a container neck thread corresponding to said th thread.

And, the second screw thread is stably coupled to the container neck screw thread corresponding to the second screw thread when being coupled to the container neck to which the second screw thread is fitted, and the th screw thread is prevented from being coupled in a state where the container neck screw thread corresponding to the second screw thread is expanded at the th screw thread during the same .

In the conventional multi-thread coupling device having the container neck inner wall sealing portion extended inside the upper side portion having the th thread and the second thread, a lower side portion is provided below the upper side portion, and an auxiliary thread formed at a lower end portion of a sealing wall where the second thread starts is formed at an inner wall portion of the lower side portion.

The auxiliary thread is adapted to a dimension of a container neck thread close to 30MM in size, and has a height of about 7MM from a portion where the second thread starts to a lower portion.

The auxiliary thread has a height of about 6MM to 7MM from a portion where the second thread starts to a lower portion, or about 7MM to 8MM from a portion where the second thread starts to a lower portion.

The height of the auxiliary thread is about 6MM to 8MM from the starting portion of the second thread to the lower portion, or about 4MM to 6MM from the starting portion of the second thread to the lower portion.

And a lower end inner wall having a diameter of 31MM or more is formed on an inner wall portion of the lower side surface portion as well as a lower end portion of the auxiliary screw, and a second guide having a form in which a lower end portion is widened is formed on a lower portion, that is, a lower end inner wall from the auxiliary screw.

The diameter of the lower end inner wall can be deformed to a size of 31MM or more depending on the use.

According to another embodiment , the outer side of the main body is composed of an upper side and a lower side, the inner wall of the upper side is formed with a th thread for screwing with a container neck of less than 28MM and a second thread for screwing with a container neck having a 28MM neck thread.

And, when the th thread is engaged with a thread having a container neck thread adapted to the th thread, the th thread is stably engaged with a container neck thread adapted to the th thread during the same process, in a slightly spread or unobstructed state as the second thread passes the container neck thread corresponding to the th thread, passing the container neck thread corresponding to the th thread.

And, the second screw thread is stably coupled to the container neck screw thread corresponding to the second screw thread when being coupled to the container neck which fits the second screw thread, and the th screw thread is blocked from being coupled to the container neck screw thread corresponding to the second screw thread in the same process, and is coupled in a state that the th screw thread is expanded.

In the conventional multi-thread coupling device having a container neck inner wall sealing portion extending inside the upper side portion having the th thread and the second thread, a lower side portion is provided below the upper side portion, and when an auxiliary thread is formed on the inner wall portion of the lower side portion, the auxiliary thread is formed at a lower end portion of the sealing wall where the second thread starts.

The auxiliary thread is adapted to a size of approximately 30MM in a container neck thread, and has a height of approximately 7MM from a portion where the second thread starts to a lower portion, or a height of approximately 6MM to 7MM from a portion where the second thread starts to a lower portion.

The auxiliary thread may have a height of about 7MM to 8MM from a portion where the second thread starts to a lower portion, a height of about 6MM to 8MM from a portion where the second thread starts to a lower portion, or a height of about 4MM to 6MM from a portion where the second thread starts to a lower portion.

A lower end inner wall having a diameter exceeding 31MM is formed on both a lower end portion of the auxiliary screw and an inner wall portion of the lower side surface portion, or may be changed depending on conditions.

And, a second guide whose lower end portion is widened is formed from the auxiliary thread of the form to a lower end inner wall of the lower portion, preferably, a diameter of the lower end inner wall exceeds 30 MM.

According to another embodiment , a container neck inner wall sealing portion is formed in the lower side portion and the inner side portion of the upper side portion as a body-shaped accommodating portion which is protruded and extended downward from the lower side portion, and a cut-out portion of a device for discharging the content of the storage space is connected to a folded portion at the upper end inside the accommodating portion having the storage space protruded and extended.

According to another embodiment , a folded portion made of soft rubber and extending outward is provided on an upper portion of the upper side portion, a cut-out portion extending downward from an inside of the folded portion is provided, and a storage portion of a storage space is connected to an inner wall of the folded portion in contact with the upper side portion.

In the housing portion, a lower end portion of the housing portion, that is, a housing portion end portion is narrowed inward, the narrowed housing portion end portion is sealed with a sealing member, and the narrowed housing portion end portion is sealed with the sealing member, whereby the lower end portion of the housing portion end portion is narrowed by applying heat.

According to another embodiment , a container having a container neck inner wall sealing portion -shaped storage space is formed in the lower side portion of the body of the coupling device and the inner side portion of the upper side portion, a cut-out portion of the device for discharging the contents of the storage space is connected to a folded portion at the upper end in the container, and a container end portion is provided at the lower end of the container, and the container end portion is in a state of being narrowed at the inner side, so that the end portion is sealed by a sealing member.

In another embodiment , a container having a container neck inner wall sealing portion -shaped storage space is formed in a lower side portion and an inner side portion of an upper side portion of a main body of a bonding apparatus, the storage space in the container is hollow, a folded portion made of soft rubber is formed in an end portion of the upper side portion as well as an upper end portion of the storage space, a solid content such as liquid, powder, granules, or tablets is filled in the storage space, and an end portion of the container is sealed by a sealing member.

If necessary, an assembly type cut-out portion for breaking the sealing member is connected to the inside of the housing portion, and the folded portion which is in contact with the upper end portion of the assembly type cut-out portion is wrapped and assembled from the inside.

In another embodiment , a container having a container neck inner wall sealing portion -shaped storage space is formed in the lower side portion of the main body and the inner side portion of the upper side portion of the coupling device, and the storage space in the container is hollow, and both the upper end portion and the end portion of the upper side portion of the storage space are formed as folded portions made of soft rubber.

The storage space is filled with a solid content such as a liquid, a powder, a granule, or a tablet, and the end of the container is sealed with an assembly-type sealing member.

The assembled sealing member is connected to the end of the housing portion through the sealing member connecting portion via the support frame, and when pressure is applied to the storage space of the housing portion, the portion of the sealing member connecting portion opposite to the sealing member connecting portion is opened downward by a seam line other than the sealing member connecting portion, thereby opening the storage space of the housing portion.

The end of the assembled sealing component is narrowed inward, the assembled sealing component is formed into a plurality of elastic lugs, when the storage space is applied with pressure, the assembled sealing component is separated from the container, and the separated assembled sealing component is unfolded by the lugs and is deformed so as not to be separated from the container.

In another mode, the upper part of the upper side of the main body of the bonding device has a folded part made of soft rubber, and a folded part reinforcing part is formed to wrap the folded part, and the folded part reinforcing part is in the form of a shrink film or a sheet such as a film is formed in a dome shape.

ADVANTAGEOUS EFFECTS OF INVENTION

There is an advantage that even if the specification of the container neck is not met, the coupling portion and the sealing portion which control different specifications are configured, and even if there are no caps having various specifications separately, caps can be coupled and sealed to container necks having threads of various specifications.

Drawings

FIGS. 1-3 are drawings showing an th embodiment of the invention;

FIG. 1 is a longitudinal sectional view showing a bonding apparatus;

fig. 2 is a drawing showing a state where a sealing member is formed at a lower end of a receiving part of a bonding apparatus;

FIG. 3 is a drawing showing a folded state of the folded part;

FIG. 4 is a view showing a modification of the inner wall sealing portion of the container neck;

fig. 5 to 13 are half longitudinal sectional views showing a state where the coupling means is coupled to the necks of containers having respectively different specifications;

fig. 14 and 15 are views showing modifications of the auxiliary thread;

FIG. 16 is a view showing a modification of the seal wall;

FIG. 17 is a view showing a state in which the length of the accommodating portion is increased according to a modification of the coupling device of the present invention;

fig. 18 is a drawing showing a state where the accommodating portions are combined in an assembled manner;

FIGS. 19-22 are drawings showing a further embodiment of the binding;

FIG. 19 is a longitudinal sectional view of the bonding apparatus;

FIG. 20 is a drawing showing a process of deforming the lower end of the receiving portion of the coupling device;

FIG. 21 is a drawing showing the result of deforming the lower end of the receiving portion of the bonding apparatus;

fig. 22 is a view showing a state where the contents are placed in the accommodating portion and the end portion of the accommodating portion is sealed by the sealing member in the state of fig. 21 and the like;

fig. 23 is a view showing another modification of the coupling device, in which the end portions of the accommodating portions are gathered to the rear side;

fig. 24 to 26 are drawings showing a modification of the accommodating portion constituting the portion of the coupling device;

fig. 24 is a drawing showing that the inside of the accommodating portion constituting the portion of the coupling device is constituted as a hollow space;

FIG. 25 is a view showing a state where an assembled type cut-out is assembled in the inside of the receiving portion of FIG. 24 and the like;

fig. 26 is a view showing a state where a lower end portion of the accommodating portion in a hollow space state is sealed by a sealing member;

fig. 27 to 29 are drawings showing a modification of the accommodating portion constituting the portion of the coupling device;

fig. 27 is a view showing a state where an assembled seal member is coupled to a lower end portion of a housing portion;

fig. 28 and 29 are views showing a modification of the assembled seal member in the state of fig. 27 and the like;

FIGS. 30 and 31 are views showing the addition of a fold reinforcement to the fold of the binding;

FIG. 30 is a drawing showing the aspect of the fold in combination with the fold reinforcement;

fig. 31 is a view showing a state in which the folded portion reinforcing portion is formed into bodies in the folded portion by heat or the like;

fig. 32 and 33 are drawings showing a modification example of the bonding apparatus;

fig. 34 is a drawing showing a state where a combining portion is formed to combine the combining means with a container in the form of another ;

fig. 35 to 37 are drawings showing various modifications of the bonding apparatus;

fig. 38 and 39 are reference views for explaining the principle of formation of the receiving portion formed in the main body of the bonding apparatus;

fig. 40 to 42 are drawings showing various modifications of the bonding apparatus.

Detailed Description

An embodiment of the present invention is explained below with reference to fig. 1 to 3.

In the coupling device 1 to be coupled to a curved portion of a container, an outer side portion of a main body 100 is composed of an upper side surface portion 101 and a lower side surface portion 102, and an -th screw 103 and a second screw 104 having different specifications are formed on an upper side surface inner wall portion 107 of the upper side surface portion 101.

And, when the second screw 104 passes through the container neck screw corresponding to the th screw 103 while being coupled to the th screw 103 and the container neck screw having the corresponding th screw 103, the th screw 103 and the second screw 104 are formed in such a manner that the th screw 103 is stably coupled to the container neck screw corresponding to the th screw 103 while the second screw 104 passes through the container neck screw corresponding to the th screw 103 in a state where the second screw 104 is slightly spread or is not obstructed, and the th screw 103 and the second screw 104 are stably coupled to each other while being coupled to the .

When the second screw 104 is engaged with the container neck to which the second screw 104 is fitted, the second screw 104 is stably engaged with the container neck screw corresponding to the second screw 104, and during the process of , the th screw 103 is not hindered to be engaged with the container neck screw corresponding to the second screw 104 in a state where the th screw 103 is expanded.

Further, a container neck inner wall sealing portion 112 is provided inside the upper side surface portion 101 having the th thread 103 and the second thread 104, the lower side surface portion 102 is provided below the upper side surface portion 101, an auxiliary thread 106 is formed on both an inner wall portion of the lower side surface portion 102 and a lower end inner wall upper end portion 108, and the auxiliary thread 106 is formed on a lower end portion of the sealing wall 105 where the second thread 104 starts.

The auxiliary thread 106 is adapted to a size close to 30MM in the container neck thread, and the height of the auxiliary thread 106 from the portion where the second thread 104 starts to the lower portion is about 7MM, or about 6MM to 7MM, or about 7MM to 8MM, or about 6MM to 8MM, or about 4MM to 6MM, and the like, and the height can be adjusted according to the use method.

A lower end inner wall lower end 109 is formed on the lower end portion of the auxiliary screw 106 and the lower side inner wall portion of the lower side surface portion 102, and the diameter of the lower end inner wall lower end 109 is not limited to 30MM, and may be less than 31MM or more than 31 MM.

And, a guide member in the form of a wedge whose lower end portion is widened is formed at a lower portion, i.e., a lower end portion 109 of the lower end inner wall from the auxiliary screw 106.

As shown in fig. 1 at , the integrated coupling device 1 is preferably configured such that the container neck inner wall sealing portion 112 is formed at the container neck inner wall sealing portion 114 by disposing the container 114 with the storage space 115 at the center of the container neck inner wall sealing portion 112, and thus forming the container neck inner wall sealing portion 112 on the container 114.

The upper side of the receiving portion 114 is sealed by a soft folded portion F, a discharge member 200 for discharging the contents of the storage space 115 is provided above the folded portion F, and the discharge member 200 is protected by a cover 300.

Further, as shown in fig. 2, the lower end of the receiving portion 114 is sealed by a sealing member 119 to form a storage space 115, and a cut-out portion 116 extended downward is formed at the bottom of the folded surface of the folded portion F to easily drop the contents of the storage space 115.

For reference, a preferred method is to injection mold the folded portion F by soft rubber molding by means of a multi-row injection ejector.

By way of sequential explanation, the explanation is made with reference to fig. 3, in which reference numeral "a" is a distance (i.e., height) at which the -th screw thread 103 is formed, reference numeral "B" is a distance (i.e., height) at which the second screw thread 104 is formed, and reference numeral "J" combining the above-mentioned "a" and "B" is an inner wall distance (i.e., height) of the upper side surface portion 101.

Further, the reference symbol "C" indicates the distance at which the auxiliary thread 106 is formed, the reference symbol "D" indicates the distance at the lower end 109 of the lower end inner wall, and the reference symbols "C" and "D" are combined to indicate the distance at the inner wall of the lower side surface 102.

Also, the drawing symbol "S" is used to show the diameter of the auxiliary thread 106, and the drawing symbol "M" is used to show the diameter of the lower end inner wall lower end portion 109.

The coupling device 1 described above is explained based on a general container in market distribution, in which the container neck thread 401A of the container 400A has an outer diameter close to 24.50MM, the hanging frame 402A such as a hanging skirt has an outer diameter close to 25.30MM, the neck support ring 403A has an outer diameter of 25.90MM, the container neck inner wall portion 406A has an inner diameter close to 22.0MM, and the ring jaw 404 protruding to the lower end portion of the container neck inner wall portion 406A has an inner diameter coupled to the container 400A by the coupling device 1 and 20.4 to 20.70 MM.

The container 400A corresponds to a container 400A having a minimum size for accommodating the coupling device 1 of the present invention (for the present description), in the case of coupling the coupling device 1 to the container 400A, the auxiliary thread 106 is inserted without being obstructed, the second thread 104 is also inserted without being stopped by being caught by the container neck thread 401A or the catching frame 402A, and in the state where the th thread 103 in the form of a narrower inner diameter than the second thread 104 is caught by the container neck thread 401A in the case of rotating the coupling device 1.

As shown in fig. 5, the lower end 113 of the sealing portion with a narrow specification is coupled to the receiving portion 114 without interference with the ring jaw 404, and the auxiliary lower end 106 is centered on the shoulder 405.

The container neck inner wall portion 406A is sealed by contacting the container neck inner wall sealing portion 112, and in the above state, when the lid 300 is opened and the discharging member 200 is pressed, the folded portion F is folded, and the foreign matter contained in the storage space 115 falls into the container 400A and is mixed in the process of breaking the sealing member 119 by the sharp cutting portion 116.

And, the mixed contents are discharged through a discharge hole 118 (refer to fig. 3) formed by lifting a discharge member 200 on the curved portion 117.

For reference, when the coupling device 1 is assembled to the container 400A, the upper end portion of the lower end inner wall upper end portion 108 and the lower side portion thereof are assembled in a form of wrapping the skirt 500A and the neck support ring 403A.

It is clarified that as shown in fig. 4, a plurality of protrusion wings of a ring frame shape of the container neck inner wall sealing part 112A are provided in layers, the th screw thread 103 is more toward the upper part, the inner diameter size of the th screw thread 103 is smaller, and in the case of combining the combining device 1, the combination of the th screw thread 103 is excellent in the case of the container neck screw thread having a small size.

Also, a second guide 111 is provided between the lower end inner wall upper end portion 108 and the sealing wall 105, so that the outer ring upper end portion of the container having a large container neck is easily mounted to the sealing wall 105.

As another application example (see fig. 6), a state is shown in which the coupling device 1 is coupled to a container 400B having a container neck thread 401B with an outer diameter of 25.70MM, a hook frame 402B with an outer diameter of 26.30MM, and a neck support ring 403B with an outer diameter of 28.30MM, and when this state is shown, the th thread 103 is hooked to and coupled to the container neck thread 401B, and the hook frame 402B and the neck support ring 403B are provided between the second thread 104 and the auxiliary thread 106.

Therefore, the coupling device 1 is coupled to the container 400B without being hindered by the auxiliary screw 106, and the container neck inner wall portion 406B comes into contact with the container neck inner wall sealing portion 112 to exert a sealing force in the process.

By way of another example of application (see fig. 7), a state is shown in which the coupling device 1 is coupled to a container 400C having an outer diameter of 26.0MM in the container neck thread 401C, an outer diameter of the hook frame 402C close to 26.0 to 27.0MM, and an outer diameter of the neck support ring 403C less than 29.0MM, and in the case of examining the state, the th thread 103 is coupled by being hooked to the container neck thread 401C, and the hook frame 402C and the neck support ring 403C and the skirt 500 are disposed between the second thread 104 and the auxiliary thread 106.

Therefore, the coupling device 1 is coupled to the container 400C without being hindered by the auxiliary screw 106, and the container neck inner wall portion 406C comes into contact with the container neck inner wall sealing portion 112 to exert a sealing force in the above-described process.

In another application example (see fig. 8), assuming that the outer diameter of the container neck thread 401D is the size corresponding to the th thread 103 and the outer diameter of the neck support ring 403D is larger than the inner diameter of the auxiliary thread 106, in this case, the neck support ring 403D of the container 400D comes into contact with the portion where the auxiliary thread 106 starts and stops, and the container neck thread 401D hangs from the th thread 103 and maintains the coupling force.

At this time, the hook frame 402D and the skirt 500 are disposed in a space between the lower portion of the second screw 104 and the auxiliary screw 106.

The container neck inner wall portion 406D is in close contact with the container neck inner wall sealing portion 112 to maintain a sealing force.

By another application example (refer to fig. 9), assuming that the outer diameter of the container neck thread 401E is a size corresponding to the th thread 103, the outer diameter of the neck support ring 403E is larger than the inner diameter of the auxiliary thread 106, and the space between the hooking frame 402E and the neck support ring 403E is wide, for this case, the neck support ring 403E of the container 400E is stopped before the point where the auxiliary thread 106 starts, and the container neck thread 401E is hooked on the th thread 103 to maintain the coupling force.

At this time, the hanging frame 402E and the skirt 500 are located in a space between the lower portion of the second screw 104 and the auxiliary screw 106.

The container neck inner wall portion 406E is in close contact with the container neck inner wall sealing portion 112 to maintain a sealing force.

For reference, the outer diameter of the container neck threads 401E is 26.67MM, or a dimension close to 27.0 MM.

In another application example (see fig. 10), if the outer diameter of the container neck thread 401F is set to a size corresponding to the second thread 104, the outer diameter of the neck support ring 403F is larger than the inner diameter of the auxiliary thread 106, and the space between the hook frame 402F and the neck support ring 403F is wide, in this case, the neck support ring 403F of the container 400F is stopped before the start of the auxiliary thread 106, or is joined to the start point of the lower end inner wall lower end 109 or to a degree of close contact with the lower end inner wall lower end 109.

The container neck thread 401F is hung on the second thread 104 to maintain the coupling force.

At this time, the hook frame 402F and the skirt 500 are disposed in a space between the lower portion of the second screw 104 and the auxiliary screw 106.

The container neck inner wall portion 406F is in close contact with the container neck inner wall sealing portion 112 to maintain a sealing force.

For reference, the outer diameter of the container neck threads 401F is 27.35MM or a dimension close to 27.56MM or 27.3MM or 28.0 MM.

Further, since the outer diameter of the neck support ring 403F is mainly 32.0MM or 33.0MM, the inner diameter of the lower end inner wall lower end portion 109 is preferably at least 33.0 MM.

By way of continuous explanation, in the state of fig. 10 and the like, in the process of continuously rotating the coupling device 1 by the strong force and rotating the second screw 104 by the container neck screw 401F, the th screw 103 is provided on the container neck screw 401F, and at this time, the th screw 103 is hindered by the large-sized container neck screw 401F to be expanded, but the second screw 104 is tightly hung on the container neck screw 401F and fixed, and there is no hindrance in the coupling force.

In the process as shown above, the neck support ring 403F is received in the lower end inner wall lower end 109.

In another application example (see fig. 11), if the outer diameter of the container neck thread 401G is set to a size corresponding to the second thread 104, the outer diameter of the neck support ring 403G is larger than the inner diameter of the auxiliary thread 106, and the space between the hook frame 402G and the neck support ring 403G is narrow, the neck support ring 403G of the container 400G is stopped before the start of the auxiliary thread 106, or is coupled to the lower end portion 109 of the lower end inner wall lower end portion 109.

The container neck thread 401G is hung on the second thread 104 to maintain the coupling force.

At this time, the hook frame 402G and the skirt 500 are disposed in a space between the lower portion of the second screw 104 and the auxiliary screw 106.

The container neck inner wall portion 406G is in close contact with the container neck inner wall sealing portion 112 to maintain a sealing force.

For reference, the outer diameter of the container neck threads 401G is 27.35MM, or a dimension close to 27.56MM, or 27.3MM, or 28.0 MM.

Further, the outer diameter of the neck support ring 403G is mainly 32.0MM or 33.0MM, and therefore, it is preferable that the inner diameter of the lower end inner wall lower end portion 109 exceeds 33.0MM at least.

In another application example (see fig. 12), if the outer diameter of the container neck thread 401H is set to a size corresponding to the second thread 104, the outer diameter of the neck support ring 403H is larger than the inner diameter of the auxiliary thread 106, and the space between the hook frame 402H and the neck support ring 403H is wider, in this case, if the outer ring portion of the skirt 500 between the neck support rings 403H of the container 400H is larger, the starting portion of the auxiliary thread 106 is stopped before the skirt 500 starts, or the neck support ring 403H is provided at the starting point of the lower end inner wall lower end 109 or in close contact with the lower end inner wall lower end 109.

The container neck thread 401H is hung on the second thread 104 to maintain the coupling force.

At this time, the hook frame 402H is located in a space portion provided between the auxiliary threads 106.

The container neck inner wall portion 406H is in close contact with the container neck inner wall sealing portion 112 to maintain a sealing force.

In another application example (see fig. 13), the outer diameter of the container neck thread 401I is set to a size corresponding to the auxiliary thread 106, and the hook frame 402I is located in a lower space of the auxiliary thread 106, and in this case, the container neck thread 401I is hooked and fixed to the auxiliary thread 106, and the sealing wall 105 is brought into close contact with the upper end outer ring portion of the container 400I to maintain the sealing force.

Therefore, the upper end outer ring portion of the container 400I does not rise beyond the sealing wall 105 and stop.

In another example (see fig. 14), the main body 100 is characterized in that the main body 100 is formed with the th screw thread 103 and the second screw thread 104 on the inner side portion of the upper side portion 101, and the auxiliary screw thread 106A is formed on the inner wall portion of the lower side portion 102 even on the lower side of the starting point of the second screw thread 104, and when the auxiliary screw thread 106A is obstructed by a container neck screw thread, a hook frame, a neck support ring, a skirt, or the like constituting a container, the auxiliary screw thread 106A is turned upside down, and the main body 100 is coupled to the container.

In order to realize the above-described technique, the connection portion 120 through which the auxiliary thread 106A passes is formed on the upper side of the lower end inner wall lower end portion 109, but the portion where the auxiliary thread 106 starts or ends does not need to be processed by the connection portion 120.

In another example (see fig. 15), the space 121 is formed outside the portion where the lower end portion 109 of the lower end inner wall contacts the auxiliary screw 106B so as to recede when the auxiliary screw 106B is severely obstructed.

When the auxiliary screw 106B is seriously hindered at a specific position, the auxiliary screw is retreated, and when the auxiliary screw is combined with a container neck with different specifications, the condition that the combination is not facilitated due to the auxiliary screw 106B is prevented.

In another example (see fig. 16), the seal wall 105A at the upper end of the auxiliary screw 106 is formed in the seal wall elastic force space 122 in the main body 100 including the upper surface 101 and the lower surface 102, and the sealing performance is further improved.

Further, when the stopper projection N is provided at a gate vertically moving in the direction of the lower folded portion F from the double injection start point O at which the double injection starts from the upper end of the curved portion 117, and the stopper fixing frame 201 is caught by the stopper projection N when the stopper 200 is pulled and lifted up, there is an advantage that the stopper fixing frame 201 does not fall down to the lower side where no force is manually applied.

In order to summarize the configuration example of the coupling device 1, the outer side of the body 100 of the coupling device 1 coupled to the curved portion of the container is composed of the upper side 101 and the lower side 102, and the th screw 103 and the second screw 104 are formed in the inner wall of the upper side 101, wherein the th screw 103 is coupled to the container neck screw less than 28MM, i.e., slightly larger or smaller than 26MM or 27MM, and the second screw 104 is coupled to the container neck screw having the container neck screw close to 28 MM.

And, the th screw 103 passes through the container neck thread corresponding to the th screw 103 in a state where the second screw 104 is slightly spread or not hindered while passing through the container neck thread corresponding to the th screw 103 when engaged with a screw having a container neck thread suitable for the th screw 103, and the th screw 103 is stably engaged with the container neck thread suitable for the th screw 103 during the same .

And, when the second screw 104 is engaged with the container neck fitted with the second screw 104, it is stably engaged with the container neck screw corresponding to the second screw 104, and during the process of , the th screw 103 is engaged in a form of expanding the th screw 103 in such a manner that the container neck screw corresponding to the second screw 104 is obstructed.

The container neck inner wall sealing portion 112 is extended inside the upper side surface portion 101 where the th thread 103 and the second thread 104 exist.

When the lower surface 102 is provided below the upper surface 101 and the auxiliary screw 106 is formed in the inner wall of the lower surface 102, the auxiliary screw 106 is formed at the lower end of the sealing wall 105 where the second screw 104 starts, and the auxiliary screw 106 is adapted to the size of the neck screw close to 30 MM.

Further, it is preferable that the auxiliary thread 106 has a height of about 7MM from a portion where the second thread 104 starts toward a lower portion, because the auxiliary thread 106 is blocked by a hitching frame or a neck support ring of the container neck or a skirt remaining between the hitching frame and the neck support ring when the body 100 is assembled to the container neck matching the second thread 104 in a process of assembling the body 100 to the container neck having a different specification, for example, when the body 100 is assembled to the container neck matching the second thread 104, and thus the body 100 cannot be coupled to the container neck.

In the situation as described above, it is preferable that the auxiliary thread 106 has a length, i.e., a height, of 7MM downward from the point where the second thread 104 starts, through trial and error.

But not limited to 7MM, which allows a slight compensation of the dimensions according to the force of the user using the coupling device 1, or according to the angle of the auxiliary thread 106 at which the thread of the auxiliary thread 106 starts, when coupled in an unhindered condition, which can be adjusted by experiment, the auxiliary thread 106 can be about 6MM to 7MM or 7MM to 8MM or about 6MM to 8MM in height from the point where the second thread 104 starts, downwards.

The auxiliary thread 106 may have a height of about 4MM to 6MM from the portion where the second thread 104 starts to the lower portion, and this is applied to the auxiliary thread 106 in which the starting position of the vessel neck thread is closer to the upper end portion of the outer ring portion of the upper end portion of the vessel neck, and the auxiliary thread 106 may have a height of about 4MM at the portion where the second thread 104 starts, which is a very exceptional example and is generally very suitable for about 7 MM.

Further, it is preferable that a lower end inner wall lower end 109 is formed in the inner wall portion of the lower side surface portion 102 as well as the lower end portion of the auxiliary screw 106, and the diameter of the lower end inner wall lower end 109 is 30MM or 31MM or more because the size of the container neck support ring is 33MM in outer diameter.

As described above, in the case where the diameter of the lower end inner wall lower end portion 109 is 31MM and the size of the vessel neck support ring is 33MM, the lower end inner wall lower end portion 109 having the diameter of 31MM of the vessel neck support ring is unfolded and coupled, and in this case, coupling performance is low and there is a margin, and 33MM is suitable.

A -th guide member 110 having a widened lower end portion is formed on the lower end inner wall lower end portion 109 of the lower portion from the auxiliary screw 106.

With the embodiment (see fig. 17), the -type accommodating portion 114 of the container neck inner wall sealing portion 112 is formed by joining the lower side portion 102 and the inner side portion of the upper side portion 101 of the main body 100 of the device 1, the accommodating portion 114 is separated from the lower side portion 102 and is in a state of protruding and extending downward, and the cut-out portion 116 of the device for discharging the content of the storage space 115 and the inside of the accommodating portion 114 in which the storage space 115 protruding and extending is present is connected to the folded portion F at the upper end.

The accommodating part 114 having the storage space 115 as shown above stores contents in a large amount in the storage space 115.

In the embodiment (see fig. 18), the main body 100 of the coupling device 1 is provided with a folded portion F made of soft rubber and extending outward at the upper portion of the upper side portion 101, a cut-out portion 116 extending downward from the inside of the folded portion F is provided, and the accommodating portion 114A having the storage space 115 is coupled centering on the inner wall of the folded portion F in contact with the upper side portion 101.

The coupling device 1 as described above is characterized in that the upper folded portion F is expanded outward, and has an advantage that the storage space 115 is widened.

In another embodiment (see fig. 19 to 22), an accommodating portion 114B having a storage space 115 formed in the body 100 of the coupling device 1 in the inside direction of the upper surface 101 and the lower surface 102 extends longer than the lower surface 102, an accommodating portion end E, which is a lower end portion of the accommodating portion 114B, is narrowed inward, and the narrowed accommodating portion end E is sealed by a sealing member 119.

Specifically, as shown in fig. 20, the accommodating portion 114B is configured such that a lower end portion, i.e., an accommodating portion end E, is narrowed inward while applying heat by means of an -series device, i.e., a heat supply device, i.e., an inner guide H, and the contents are placed in the storage space 115 narrowed at the lower end portion (see fig. 21), and the accommodating portion end E is sealed by a sealing member 119 (see fig. 22)

In addition, the lower end of the end portion E of the housing portion is narrowed by applying heat, and various methods such as gas, electricity, high frequency, and the like are used.

In the embodiment (see fig. 23), the lower side 102 and the inner side of the upper side 101 of the main body 100 of the coupling device 1 form a receptacle 114C having a container neck inner wall sealing portion 112 -shaped storage space 115, a cut-out portion 116 of the device for discharging the contents of the storage space 115 is connected to a folded portion F at the upper end inside the receptacle 114C, and a receptacle end E is provided at the lower end of the receptacle 114C, and the receptacle end E is narrowed inward and sealed by a sealing member 119.

The receiving portion 114C as described above cuts the seal member 119 by the downward cutting portion 116, and has a feature of stably cutting the seal member 119 vertically downward without moving the cutting portion 116 to both sides because the receiving portion end portion E is in a state of being narrowed inward.

In the embodiment (see fig. 24), the lower surface 102 and the inner surface of the upper surface 101 of the main body 100 of the bonding apparatus 1 are formed with the container 114 having the container neck inner wall sealing part 112 type storage space 115, the storage space 115 inside the storage part 114 is hollow, the end part of both the upper end part of the storage space 115 and the upper surface 101 is formed with the folded part F made of soft rubber, the storage space 115 is filled with the solid state content such as liquid, powder, granules or tablets, and the end part of the storage part 114 is sealed by the sealing member 119 (see fig. 26)

The assembled section 124 for breaking the seal member 119 is joined to the inside of the housing section 114, and the folded section F which is brought into contact with the upper end of the assembled section 124 is wrapped around the inside, and this state is shown in fig. 25.

In the case of using the coupling device 1 as described above, in the state shown in fig. 25, in the case of removing the cover 300 and pressing the discharging member 200, the assembled discharging member 124 is directed downward while the folded portion F is folded, and the cut portion end 125 breaks the sealing member 119 and the foreign matter charged into the storage space 115 falls down.

In the case of fig. 26, when the discharging member 200 at the upper portion of the main body 100 of the coupling device 1 is pressed, the folded portion F is folded and pressure is generated in the storage space 115, and in the process, the sealing member 119 of the thin plate is broken to open the storage space 115.

In the embodiment (see fig. 27), the lower side 102 and the inner side of the upper side 101 of the main body 100 of the bonding apparatus 1 are formed with the container neck inner wall sealing portion 112 -shaped storage space 115 of the storage portion 114, the storage space 115 in the storage portion 114 is hollow, and the folded portion F made of soft rubber is formed at both the upper end of the storage space 115 and the end of the upper side 101.

The storage space 115 is filled with a solid content such as a liquid, a powder, a granule, or a tablet, the end of the container 114 is sealed by the assembly type sealing member 127, and the assembly type sealing member 127 is connected to the end of the container 114 through the support frame 130 by the sealing member connecting portion 129.

With the assembled sealing member 127 as shown above, in the case where pressure is applied to the storage space 115 of the accommodating portion 114, the opposite portion of the sealing member connecting portion 129 except for the portion of the sealing member connecting portion 129, i.e., by the seam line 131, is opened to the lower side, and the storage space 115 of the accommodating portion 114 is opened.

At this time, the tab 128 is caught at the end of the accommodating portion 114, and the storage space 115, which is the end of the accommodating portion 114, is not closed.

In the case of fig. 28, the assembled sealing member 127 coupled to the lower end portion of the housing portion 114 having the storage space 115 designed inside the upper surface portion 101 and the lower surface portion 102 is supported by the supporting frame 130 'via the sealing member connecting portion 129' at the lower end inner wall portion of the storage space 115.

In the case of using the coupling device 1 as described above, the storage space 115 is opened downward from the direction having the tab 128 under the application of pressure, and then, is connected to the receiving portion 114 through the sealing member connecting portion 129'.

Referring to fig. 29, the assembled sealing member 127 coupled to the lower end of the receiving portion 114 of the body 100 of the coupling device 1 is in a state where the protruding piece 128 ' is in contact with the wall of the storage space 115, and the storage space 115 is narrowed inward, and a plurality of elastic protruding pieces 128 ' are assembled, and the assembled sealing member 127 passes through the inside of the container when pressure is applied to the storage space 115, and the separated assembled sealing member 127 is not separated from the container because the protruding piece 128 ' is unfolded.

In the case of fig. 30, a folded portion F made of soft rubber is provided on the upper side portion 101 of the coupling device 1, and a folded portion reinforcement portion SF in the form of a shrink film or a sheet such as a film is formed in a dome shape is formed by wrapping the folded portion F.

The fold portion reinforcement portion SF is preferably in the form of a shrink film for displaying characters, numerals, pictures, and the like, and in the case of fig. 30, the fold portion reinforcement portion SF in the form of a shrink film is inserted into the fold portion F, and in the case of fig. 31, the fold portion reinforcement portion SF is shrunk at the fold portion F by heat to form an body.

Fig. 32 illustrates various modifications of the accommodating portion 114B formed in the main body 100 of the bonding apparatus 1 and various modifications of the ejector 200A formed in the upper curved portion 117 of the main body 100.

Fig. 33 shows a folded portion F formed above the main body 100 of the coupling device 1 and a main body upper surface portion 132 pressing the folded portion F, and the coupling device 1 is variously modified.

In the case of fig. 34, the body 100 is provided with a coupling portion 133 at the inner lower end portion of the lower side surface portion 102, and the coupling portion 133 can be applied to a different container such as a metal can.

In the case of fig. 35, the receptacle 114B, which is formed by extending the receptacle 114B of the deformed body 100A toward the lower portion or narrowing the receptacle end E toward the inner side, is deformed and used in conjunction with the apparatus 1 in the form of a conventional bottle cap, and as shown, has a thread 134 on the inner side of the body side portion 135 and a body skirt 136 on the lower end.

In the case of fig. 36, the coupling device 1 main body 100B showing a modified form is formed with a glue portion 137 so as to be applied to a bag form, and the accommodating portion 114B having the storage space 115 is extended downward to form an accommodating portion end portion E in a form of being gathered to the inner side.

In the case of fig. 37, the body 100C of the device 1 is deformed and used, for example, the upper end portion of the body 100C having the th screw 103, the second screw 104, and the auxiliary screw 106 is sealed, or the body curved portion cap 140 of the device for discharging is laid.

In the case where the body curve cover 140 is formed, a body curve thread 139 or the like is formed in the body curve 138.

In the case of fig. 38, the lower end of the accommodating portion 114 of the body 100 is bent to the back side, and for this reason, the lower end of the accommodating portion 114 is formed to penetrate into the magnetic core (reference numeral: C2) in the step of manufacturing the mold.

Reference numerals C1, C3, C4, C5, CA, CB, and CC illustrated in the drawings are examples of display cores (run cores).

In the case of fig. 39, the lower end portion of accommodating portion 114 of main body 100 is bent to the back side, and therefore, in the step of manufacturing the mold, the lower end portion of accommodating portion 114 is molded so that partially penetrates core C2 and core C3.

The construction technique for the receiving portion and the receiving portion end portion and the assembled cut-out portion and the assembled seal member used in fig. 17 to 31 is applicable to other modified ordinary bottle caps (bottle stoppers and the like) and the like.

In the case of fig. 40, as a supplementary explanation to fig. 25, the lower portion of the folded portion F is formed by extending the receiving portion 114 having the storage space 115 downward, and in the case of fig. 41, the assembly type cut portion 124 having the cut portion end 125 is assembled to the receiving portion 114 of fig. 40, and in using the structure, the cover 300 is removed and the discharge member 200 is pressed to fold the folded portion F, and in the process, the assembly type cut portion 124 is moved downward.

Thus, the sealing member 119 blocking the storage space 115 is opened through the cut-out portion end 125 during the downward movement of the assembled cut-out portion 124.

Also, even if the assembled cut out 124 is a process of being lifted after the folded portion F is moved down by a coupling method, the assembled cut out 124 is stopped on the receiving portion 114 to be fixed.

In the case of fig. 42, the cut-out portion 116 is formed in the form of a perforated portion RH that is perforated in the center so that foreign matter can be easily accommodated in the storage space 115 of the accommodating portion 114.

Industrial applicability

The lid of the present invention is used by combining a lid with a container in storage or removing the lid combined with the container from a separately purchased container without combining the lid with the container, and the lid is distributed separately, and the consumer purchases the lid.