KR100680038B1 - Sealed container with enclosed opening means - Google Patents

Abstract

An elongated sealed container is described having a self-containing opening means that is completely sealed inside the container for discharging the sealed fluid inside the container. The enclosing opening means is operated by pressing or bending the elongated sealing container at or near the enclosing opening means such that the fluid sealed in the elongated sealing container is released for its application. There are no loose parts to be lost and all component parts are completely sealed in the container.

Sealed container, enclosed opening means, elongated tubular housing, elongated member, columnar cross section, fluid, rupture face, rupture wire

Description

Sealed container with enclosed opening means

The present invention generally relates to a sealed container having an opening means enclosed within the container for discharging the sealed fluid inside the container.

Various opening means exist for opening the container. Most opening means are in the form of screw-on caps or snap-on caps. Some opening means are in the form of brittle seals or score lines in the container and allow the contents of the container to be released from the container upon rupture of the brittle seal or score line. All of these opening means are attached to the outside of the container, such as screwed caps and snap caps, or formed as part of the container, such as brittle seals or score lines on the container. None of the opening means is designed to enclose the inside of the container to seal the fluid in the container, so that it has not yet been able to easily and reliably release the fluid. Effective and easy utility in the use of opening means is insufficient, particularly in small elongated containers with small cross-sectional areas.

The present invention relates to an elongated sealed container having a self-containing opening means completely enclosed within the container for discharging the sealed fluid inside the container. The enclosing opening means can be operated by pressing or bending an elongated sealed container at or near the enclosing opening means. As soon as the enclosing opening means is opened, the fluid sealed inside the elongated sealed container is released for its application. In the case where an elongated sealed container has a small cross section, the fluid inside the container is not released due to its surface tension, so a guide member is used to improve the capillary action and overcome the surface tension of the fluid so that the fluid is removed from the elongated container. Can be released. There are no loose parts to be lost and all component parts are completely sealed in the container.

1 shows a suitable embodiment of a sealed container with an enclosing opening means.

2 shows another embodiment of a sealed container having an enclosing opening means.

3 shows another embodiment of a sealed container with an enclosing opening means.

4 shows another embodiment of a sealed container with an enclosing opening means.

5 shows another embodiment of a sealed container with an enclosing opening means.

6 shows an embodiment of the opening means in a closed state.

7 shows the opening means of FIG. 6 in an open position for discharging the fluid in the sealed container to be discharged.

8 shows an embodiment of the opening means in a closed state.

9 shows the opening means of FIG. 8 in an open position for discharging the fluid in the sealed container to be discharged.

10 shows an embodiment of the opening means in a closed state.

FIG. 11 shows the opening means of FIG. 10 in an open position for discharging fluid in a sealed container to be discharged.

12 shows an embodiment of the opening means in a closed state.

13 shows the opening means of FIG. 12 in an open position for discharging fluid in a sealed container to be discharged.

14 shows an embodiment of the opening means in a closed state.

15 shows the opening means of FIG. 14 in an open position for discharging fluid in a sealed container to be discharged.

16 shows an embodiment of the opening means in a closed state.

FIG. 17 shows the opening means of FIG. 16 in an open position for discharging fluid in a sealed container to be discharged.

18 shows an embodiment of the opening means in a closed state.

FIG. 19 illustrates the opening means of FIG. 18 in an open position for discharging fluid in a sealed container to be discharged.

1 shows a suitable embodiment of a sealed container with an enclosing opening means. In a suitable embodiment, the sealed container with enclosing opening means comprises an elongated tubular housing 1 having a sealing end 2 and an opening end 3. The fluid 4 is sealed inside the elongated tubular housing 1 near the sealing end 2. An opening means 5 enclosed inside the elongated tubular housing 1 is arranged to seal the fluid 4 inside the elongated tubular housing 1. The opening means 5 is operated by pressing or bending the elongated tubular housing 1 at or near the enclosing opening means 5.

In the case where the elongated tubular housing 1 has a small cross section, the fluid 4 inside the housing 1 is not discharged even by simply opening the opening means 5 due to its surface tension. Guide members 6, 7 are used to enhance the capillary action of the fluid 4 and to overcome the surface tension of the fluid 4, thereby allowing fluid from the elongated tubular housing 1 as shown in FIGS. 2, 4 and 5. Release (4).

An embodiment of the enclosing opening means 5 is shown in FIG. 3, the enclosing opening means 5 comprising a circumferential body 8 having an outer diameter approximately equal to the inner diameter of the elongated tubular housing 1. A small flow path is defined from the open end 3 of the elongated tubular housing 1 to the fluid 4. The end near the fluid 4 is smaller than the diameter of the circumference of the enclosing opening means 5 and has an elongated protrusion 9 which is separated from the circumference of the enclosing opening means 5. The elongated protrusion 9 seals a small flow path in the cylinder 8 to prevent the fluid 4 inside the elongated tubular housing 1 from being discharged through the enclosing opening means 5. When the elongated tubular housing 1 is bent near the junction between the elongated protrusion 9 and the circumference of the enclosing body of the enclosing opening means 5, the elongated protrusion 9 is separated from the cylindrical body, The flow path is exposed, releasing the fluid 4 from the elongated housing 1 through the opening means 5.

4 shows another embodiment of a sealed container with an enclosing opening means. In this embodiment, the sealed container with the enclosing opening means comprises an elongate bent tubular housing 1 having a small cross section and having a sealing end 2 and an opening end 3. The fluid 4 is sealed in the elongated tubular housing 1 near the sealing end 2. An opening means 5 enclosed inside the elongated tubular housing 1 is arranged to seal the fluid 4 inside the elongated tubular housing 1.

The enclosing opening means 5 comprises a hollow cylinder 10 having an opening end 11 facing the fluid 4 and a sealing end 12a having an elongated member 12, the elongated member ( 12 extends from the hollow cylinder 10 towards the open end 3 of the elongate bendable tubular housing 1 and terminates near the opening end 3 of the elongate bendable tubular housing 1. The frangible cross section 13 formed by a score line on the outer surface of the hollow cylinder 10 has the hollow cylinder 10 near the sealing end 12a of the hollow cylinder 10. Is formed on the phase.

When the tubular housing 1 is bent at or near the brittle end face 13 of the hollow cylinder 10 of the opening means 5, the sealed end of the hollow cylinder 10 is thin from the fluid 4. It is separated from the opening end 11 of the hollow cylinder 10 forming a through flow passage up to the opening end 3 of the elongated tubular housing 1. Due to the small cross section of the elongate bendable tubular housing 1, the fluid 4 is not freed from the tubular housing 1 by the surface tension of the fluid 4. The fluid 4 may be selectively released from the tubular housing 1 by pressing the fluid 4 towards the elongated member 12 to compress the portion of the tubular housing 1 containing the fluid 4. . When the fluid 4 reaches the elongated member 12, the elongated member 12 enhances the capillary action of the fluid 4 and overcomes the surface tension of the fluid 4 inside the tubular housing 1 so that they can The fluid can freely flow out of the tubular housing 1 to the outside.

If immediate release of the fluid 4 upon opening of the opening means 5 is required, the second elongated member 14 is fixed to the sealed end 2 of the tubular housing 1 and the open end of the cylinder 10. Extending to near (11), improving the capillary action of the fluid 4 and overcoming the surface tension of the fluid 4, as shown in FIG. 5, of the opening means 5 without compressing these fluids 4 Upon opening it can be immediately released from the tubular housing 1.

6 shows another embodiment of the enclosing opening means 5. In this embodiment, the enclosing opening means 5 comprises a deformable cup 15 having a diameter approximately equal to the inner diameter of the tubular housing 1 and a length longer than this diameter. The deformable cup 15 is inserted in the tubular housing 1 to seal the fluid 4 inside the tubular housing 1. As shown in FIG. 7, when bending or squeezing the tubular housing 1 at or near the opening means 5, the deformable cup 15 is deformed and the fluid passage is exposed to expose the fluid 4. It can discharge from the tubular housing 1. A deformable sphere, such as a plastic hollow ball approximately equal to the inner diameter of the tubular housing 1, may also be used in place of the deformable cup 15. Upon bending or pressing the tubular housing 1 in the opening means 5, the deformable sphere can be deformed and a fluid flow path formed to release the fluid 4 from the tubular housing 1.

8 shows another embodiment of an enclosing opening means 5. In this embodiment, the enclosing opening means 5 comprise a plug 16 which is rupturable in two parts at the rupture face 17 during bending. Plug 16 has one or more holes 18 that extend from each end of plug 16 through rupture face 17 but do not pass through the other end of plug 16. As shown in FIG. 9, upon bending of the tubular housing 1 at or near the plug 16, the plug 16 is split into two sections at the rupture face 17 and one or more fluid flow paths are separated from the fluid 4. ) To the open end 3 of the tubular housing 1. The plug 16 can also rupture or separate when the tubular housing is twisted to open the fluid flow path when the tubular housing is twisted in the opening means 5. The tubular housing is formed in two cross sections which are screwed together to the plug 16 so that the plug 16 can be separated into two parts when the tubular housing is twisted.

10 shows another embodiment of the enclosing opening means 5, wherein the enclosing opening means 5 has an outer diameter approximately equal to the inner diameter of the tubular housing 1 and the reduced outer diameter waste cross-section 20. A cylindrical cross section 19 having two ends 21 having. The cylindrical cross section 19 has a through hole 22 in its axial direction and forms a fluid flow path from the fluid 4 to the open end 3 of the tubular housing 1. The elongate member 23 is fixed to the sealing end 22 and extends into the hole 2 in the cylindrical section 19, thereby sealing the hole 22 and the fluid flow path. When the tubular housing 1 is bent at or near the cylindrical cross section 19, the elongated member 23 is pulled from the hole 22 in the cylindrical cross section 19, and the tubular housing from the fluid 4. The fluid flow path up to the open end 3 of (1) is exposed as shown in FIG. The fluid 4 can then be discharged from the tubular housing 1.

12 shows another embodiment of the enclosing opening means 5, wherein the enclosing opening means 5 flips into the tubular housing 1 with a small cross section approximately equal to the inner diameter of the tubular housing 1. It includes two circular disks 24, 25 having a thickness sufficient to prevent (sliding). Each circular disk 24, 25 has two circular disks 24, 25 arranged with respect to each other in the tubular housing 1, so that the holes 26, 27 in each circular disk are covered by the other disk. All the holes 26, 27 in both circular disks 24, 26 have one or more holes 26, 27 positioned to be sealed by another circular disk. When the tubular housing 1 is bent at or near the two circular disks 24, 25, the deformation of the tubular housing 1 causes the two circular disks 24, 25 to be separated from each other and the fluid The flow path is formed from the fluid 4 to the open end 3 of the tubular housing 1 as shown in FIG. 13. The separation between the two circular disks 24, 25 can also be formed by twisting the tubular housing if the tubular housing is twisted in the opening means 5 to open the fluid flow path. The tubular housing is formed of two cross sections screwed together at the interface between the two circular disks 24, 25, so that the two circular disks 24, 25 can be separated when the tubular housing is twisted.

14 shows another embodiment of the enclosing opening means 5, wherein the enclosing opening means 5 has a circumferential cross section 28 having a length sufficient to prevent rotation from the inside of the tubular housing 1. Include. The cylindrical section 28 connects the two halves of the cylindrical section 28 diagonally with a diagonal slit 29 formed diagonally from one end to the other end and is located in the tubular housing 1 behind the cylindrical section 28. It has a flake material 30 that seals the fluid 4. As shown in FIG. 15, when the cylindrical cross section 28 is compressed by squeezing the tubular housing 1, the two halves of the cylindrical cross section 28 slide against each other and are pressed together thereby. The cross section of the cylindrical section 28 is reduced. Thus, a fluid flow path is formed between the outer side of the cylindrical cross section 28 and the inner wall of the tubular housing 1 to discharge the fluid 4 from the tubular housing 1.

FIG. 16 shows another embodiment of the enclosing opening means 5, wherein the enclosing opening means 5 has a cross-section material having a diameter approximately equal to the inner diameter of the tubular housing 1 near its intermediate cross section 32. 31). The first end 33 of the cross-sectional material 31 is formed in the form of two prongs acting as handles, and opposing forces are applied towards each other by pressing the two pitches. The second end 34 of the cross-sectional material 31 has a cross section smaller than the inner diameter of the tubular housing 1 and the rupture surface from the second end 34 to the vicinity of the position where the two pitchers are joined at the first end 33. 35 is formed. When the two pitchers are pressed toward each other by pressing the tubular housing 1, the cross-sectional material ruptures into two halves along the rupture face 35 along its longitudinal direction, and the fluid flow path breaks through the cross-sectional material 31. Opening through it, the fluid 4 can be discharged from the tubular housing 1 as shown in FIG. 17.

FIG. 18 shows another embodiment of the enclosing opening means 5, wherein the enclosing opening means 5 has a diameter approximately equal to the inner diameter of the tubular housing 1 and an elongated cup having a length longer than this diameter. (36). The closed end 37 of the elongated cup 36 terminates at the elongated protrusion and at the point where an opening is formed in the closed end 37 of the elongated cup 36 when the elongated protrusion is ruptured. A tear line 38 is formed around the elongate protrusions positioned along 36. The elongated cup 36 is inserted into the tubular housing 1 to seal the fluid inside the tubular housing 1. As shown in FIG. 19, upon bending the tubular housing 1 near the closed end 37 of the elongated cup 36, the elongated protrusion is along the elongated cup 36 at the rupture line 38. Ruptured, the fluid flow path can be exposed to release the fluid 4 from the tubular housing 1.

While the foregoing description has described many specific embodiments, these should not be construed as limiting the scope of the invention, they merely provide some suitable embodiments of the invention. Accordingly, the scope of the present invention and its legal equivalents should be interpreted by the appended claims of the present invention.

Claims (39)

An elongated tubular housing having a sealed end and an open end, A fluid sealed inside the elongated tubular housing near the sealing end, An enclosing opening means disposed inside said elongated tubular housing and enclosing fluid within said elongated tubular housing, The opening means having an enclosing opening means operable to release the fluid from the elongated tubular housing. 2. A cylinder according to claim 1, wherein the enclosing opening means has an outer diameter that is approximately equal to the inner diameter of the elongated tubular housing and defines a fluid flow path from the fluid to the open end of the elongated tubular housing; A hermetically sealed container having enclosed opening means that is detachable and includes an elongated protrusion extending from an end of the cylinder in the vicinity of the fluid to seal the fluid flow path. The elongated member according to claim 1, wherein the enclosing opening means comprises a hollow cylinder having an opening end disposed toward the fluid and a sealing end having an elongated member, wherein the elongated member is elongated from the hollow cylinder. A sealed container having enclosing opening means extending to the opening end of the tubular housing and having a brittle cross section formed on the hollow cylinder near the sealed end of the hollow cylinder. The sealed container of claim 1, wherein the enclosing opening means comprises a deformable cup. The sealed container of claim 1, wherein the enclosing opening means comprises a deformable sphere. The method of claim 1 wherein the enclosing opening means comprises a plug that is rupturable in terms of rupture, The plug having one or more holes extending from each end of the plug through the rupture face but not passing through the other end of the plug, Upon bending of the tubular housing at or near the plug, the plug ruptures at the rupture face and has one or more enclosing opening means formed such that one or more fluid passageways extend from the fluid to the open end of the tubular housing. 7. The sealed container of claim 6, wherein the plug has an enclosed opening means that is rupturable or detachable when the tubular housing is twisted to open the fluid flow path when the tubular housing is twisted in the opening means. 2. The cylindrical opening as claimed in claim 1, wherein the enclosing opening means has a cylindrical cross section having two ends having a reduced outer diameter waste cross section and an outer diameter approximately equal to the inner diameter of the tubular housing, and fixed to the sealed end of the tubular housing and the cylindrical shape. An elongated member extending into the hole in a cross section, thereby sealing the hole and the fluid flow path, The circumferential cross section forms a through hole in its axial direction and forms a fluid flow path from the fluid to an open end of the tubular housing, When the tubular housing is bent or pulled in or near the cylindrical cross section, the elongated member is pulled out of the hole in the cylindrical cross section and the fluid flow path is exposed from the fluid to the open end of the tubular housing. And a sealed container having an opening means enclosed. 2. The method of claim 1 wherein the enclosing opening means comprises two circular disks having a cross section approximately equal to an inner diameter of the tubular housing and a thickness sufficient to prevent flipping into the tubular housing, Each of the circular disks is provided such that if the two circular disks are disposed relative to each other in the tubular housing, the holes in the respective circular disks are covered by another disk, whereby all the holes in both circular disks are covered by the other circular disk. Having one or more holes positioned to be sealed, When the tubular housing is bent at or near the two circular disks, the deformation of the tubular housing causes the two circular disks to be separated from each other, so that the fluid flow path is formed, a sealed container with an enclosing opening means. . 10. The sealed container of claim 9, wherein the separation between the two circular disks is formed by twisting the tubular housing. 2. The cylindrical opening according to claim 1, wherein the enclosing opening means comprises a cylindrical cross section having a length sufficient to prevent rotation from inside the tubular housing and a diagonal slit diagonally formed from one end to the other end. And a lamella material for connecting the two halves of and sealing the fluid in the tubular housing behind the cylindrical cross-section, When the cylindrical cross section is compressed by pressing the tubular housing, the two halves of the cylindrical cross section slide against each other and are pressed together, thereby reducing the cross section of the cylindrical cross section, A sealed container having enclosing opening means, forming a fluid flow path between an outer side and an inner wall of the tubular housing to release the fluid from the tubular housing. 2. The method of claim 1 wherein the enclosing opening means comprises a cross-sectional material having a diameter approximately equal to the inner diameter of the tubular housing near its intermediate cross section. The first end of the cross-sectional material is formed in the form of two purges acting as handles and opposite forces are applied toward each other by pressing the two purges, the second end of the cross-sectional material being the inner diameter of the tubular housing. It has a smaller cross section, and a rupture surface is formed from the second end to the vicinity of the joining of the two pitchers at the first end, Thereby, when the two pitchers are compressed toward each other by pressing the tubular housing, the cross-sectional material is ruptured into two halves along the rupture surface along its longitudinal direction, and the fluid flow path passes through the cross-sectional material. A sealed container having an opening that surrounds the opening to release the fluid from the tubular housing. The apparatus of claim 1 wherein the enclosing opening means comprises an elongated cup having a diameter approximately equal to an inner diameter of the tubular housing and a length longer than the diameter, The closed end of the cup terminates at an elongated protrusion and ruptures around the elongated protrusion positioned along the elongated cup at the point where an opening is formed at the closed end of the elongated cup when the elongated protrusion is ruptured. A line is formed, whereby the elongated cup is inserted into the tubular housing to seal the fluid in the tubular housing, Upon bending the tubular housing near the closed end of the elongated cup, the elongated protrusion ruptures from the elongated cup at the tear line and exposes a fluid flow path to release the fluid from the tubular housing. Sealed container with enclosing opening means. An elongated tubular housing having a sealed end and an open end, An elongated member fixed to the sealing end, A fluid sealed inside the elongated tubular housing near the sealing end, An enclosing opening means disposed inside said elongated tubular housing and enclosing said fluid within said elongated tubular housing, The opening means having an enclosing opening means operable to release the fluid from the elongated tubular housing. 15. The apparatus of claim 14, wherein the enclosing opening means has an outer diameter that is approximately equal to an inner diameter of the elongated tubular housing, and a cylinder defining a fluid flow path from the fluid to an open end of the elongated tubular housing. A hermetically sealed container having enclosed opening means that is detachable and includes an elongated protrusion extending from an end of the cylinder in the vicinity of the fluid to seal the fluid flow path. 15. The apparatus of claim 14, wherein the enclosing opening means comprises a hollow cylinder having an opening end disposed toward the fluid and a sealing end having an elongated member, the elongated member being elongated from the hollow cylinder. A sealed container having enclosing opening means extending to the opening end of the elongated tubular housing and having a brittle cross section formed on the hollow cylinder near the sealing end of the hollow cylinder. 15. The sealed container of claim 14, wherein the enclosing opening means comprises a deformable cup. 15. The sealed container of claim 14, wherein the enclosing opening means comprises a deformable sphere. 15. The method of claim 14 wherein the enclosing opening means comprises a plug that is rupturable in terms of rupture, The plug having one or more holes extending from each end of the plug through the rupture face but not passing through the other end of the plug, Upon bending of the tubular housing at or near the plug, the plug ruptures at the rupture face and has one or more enclosing opening means formed such that one or more fluid passageways extend from the fluid to the open end of the tubular housing. 20. The sealed container of claim 19, wherein the plug has an encapsulating opening means that is rupturable or detachable when the tubular housing is twisted to open the fluid flow path when the tubular housing is twisted in the opening means. 15. The cylindrical opening according to claim 14, wherein the enclosing opening means has a cylindrical cross section having two ends having a reduced outer diameter waste cross section and an outer diameter approximately equal to the inner diameter of the tubular housing, and fixed to the sealing end of the tubular housing and the cylindrical shape. An elongated member extending into the hole in a cross section, thereby sealing the hole and the fluid flow path, The circumferential cross section forms a through hole in its axial direction and forms a fluid flow path from the fluid to an open end of the tubular housing, When the tubular housing is bent or pulled in or near the cylindrical cross section, the elongated member is pulled out of the hole in the cylindrical cross section and the fluid flow path is exposed from the fluid to the open end of the tubular housing. And a sealed container having an opening means enclosed. 15. The method of claim 14, wherein the enclosing opening means comprises two circular disks having a cross section approximately equal to an inner diameter of the tubular housing and a thickness sufficient to prevent flipping into the tubular housing, Each of the circular disks is provided such that if the two circular disks are disposed relative to each other in the tubular housing, the holes in the respective circular disks are covered by another disk, whereby all the holes in both circular disks are covered by the other circular disk. Having one or more holes positioned to be sealed, When the tubular housing is bent at or near the two circular disks, the deformation of the tubular housing causes the two circular disks to be separated from each other, so that the fluid flow path is formed, a sealed container with an enclosing opening means. . 23. The sealed container of claim 22, wherein said separation between said two circular disks is formed by twisting said tubular housing. 15. The cylindrical opening according to claim 14, wherein the enclosing opening means comprises a cylindrical cross section having a length sufficient to prevent rotation from inside the tubular housing and a diagonal slit diagonally formed from one end to the other end, the cylindrical cross section And a lamella material for connecting the two halves of and sealing the fluid in the tubular housing behind the cylindrical cross-section, When the cylindrical cross section is compressed by pressing the tubular housing, the two halves of the cylindrical cross section slide against each other and are pressed together, thereby reducing the cross section of the cylindrical cross section, A sealed container having enclosing opening means, forming a fluid flow path between an outer side and an inner wall of the tubular housing to release the fluid from the tubular housing. 15. The method of claim 14, wherein the enclosing opening means comprises a cross-sectional material having a diameter approximately equal to the inner diameter of the tubular housing near its intermediate cross section. The first end of the cross-sectional material is formed in the form of two purges acting as handles and opposite forces are applied toward each other by pressing the two purges, the second end of the cross-sectional material being the inner diameter of the tubular housing. It has a smaller cross section, and a rupture surface is formed from the second end to the vicinity of the joining of the two pitchers at the first end, Thereby, when the two pitchers are compressed toward each other by pressing the tubular housing, the cross-sectional material is ruptured into two halves along the rupture surface along its longitudinal direction, and the fluid flow path passes through the cross-sectional material. A sealed container having an opening that surrounds the opening to release the fluid from the tubular housing. 15. The method of claim 14, wherein the enclosing opening means comprises an elongated cup having a diameter approximately equal to an inner diameter of the tubular housing and a length longer than the diameter, The closed end of the cup terminates at an elongated protrusion and ruptures around the elongated protrusion positioned along the elongated cup at the point where an opening is formed at the closed end of the elongated cup when the elongated protrusion is ruptured. A line is formed, whereby the elongated cup is inserted into the tubular housing to seal the fluid in the tubular housing, Upon bending the tubular housing near the closed end of the elongated cup, the elongated protrusion ruptures from the elongated cup at the rupture line and exposes a fluid flow path to release the fluid from the tubular housing. Sealed container with opening means. An elongated tubular housing having a sealed end and an open end, An elongated member fixed to the sealing end, A fluid sealed inside the elongated tubular housing near the sealing end, An enclosing opening means disposed inside said elongated tubular housing and having an elongated member for sealing said fluid inside said elongated tubular housing, said elongated member extending toward an open end of said elongated tubular housing. , The opening means having an enclosing opening means operable to release the fluid from the elongated tubular housing. 28. A cylinder according to claim 27, wherein the enclosing opening means has an outer diameter approximately equal to the inner diameter of the elongated tubular housing and defines a fluid flow path from the fluid to the open end of the elongated tubular housing. A hermetically sealed container having enclosed opening means that is detachable and includes an elongated protrusion extending from an end of the cylinder in the vicinity of the fluid to seal the fluid flow path. 28. The elongated member according to claim 27, wherein the enclosing opening means comprises a hollow cylinder having an opening end disposed toward the fluid and a sealing end having an elongated member, wherein the elongated member is elongated from the hollow cylinder. A sealed container having enclosing opening means extending to the open end of the tubular housing and having a brittle cross section formed on the hollow cylinder near the sealed end of the hollow cylinder. 28. The sealed container of claim 27, wherein the enclosing opening means comprises a deformable cup. 28. The hermetically sealed container of claim 27, wherein the enclosing opening means comprises a deformable sphere. 28. The device of claim 27 wherein the enclosing opening means comprises a plug that is rupturable in terms of rupture, The plug having one or more holes extending from each end of the plug through the rupture face but not passing through the other end of the plug, Upon bending of the tubular housing at or near the plug, the plug ruptures at the rupture face and has one or more enclosing opening means formed such that one or more fluid passageways extend from the fluid to the open end of the tubular housing. 33. The sealed container of claim 32, wherein the plug has an enclosing opening means that is rupturable or detachable when the tubular housing is twisted to open the fluid flow path when the tubular housing is twisted in the opening means. 28. The cylindrical opening as claimed in claim 27, wherein the enclosing opening means has a cylindrical cross section having two ends having a reduced outer diameter waste cross section and an outer diameter approximately equal to the inner diameter of the tubular housing, and fixed to the sealing end of the tubular housing. An elongated member extending into the hole in a cross section, thereby sealing the hole and the fluid flow path, The circumferential cross section forms a through hole in its axial direction and forms a fluid flow path from the fluid to an open end of the tubular housing, When the tubular housing is bent or pulled in or near the cylindrical cross section, the elongated member is pulled out of the hole in the cylindrical cross section and the fluid flow path is exposed from the fluid to the open end of the tubular housing. The sealed container which has the opening means enclosed. 28. The device of claim 27, wherein the enclosing opening means comprises two circular disks having a cross section approximately equal to an inner diameter of the tubular housing and a thickness sufficient to prevent flipping into the tubular housing, Each of the circular disks is provided such that if the two circular disks are disposed relative to each other in the tubular housing, the holes in the respective circular disks are covered by another disk, whereby all the holes in both circular disks are covered by the other circular disk. Having one or more holes positioned to be sealed, When the tubular housing is bent at or near the two circular disks, the deformation of the tubular housing causes the two circular disks to be separated from each other, so that the fluid flow path is formed, a sealed container with an enclosing opening means. . 36. The sealed container of claim 35, wherein the separation between the two circular disks is formed by twisting the tubular housing. 28. The cylindrical cross-section of claim 27, wherein the enclosing opening means comprises a cylindrical cross-section having a length sufficient to prevent rotation from inside the tubular housing and a diagonal slit diagonally formed from one end to the other end. And a lamella material for connecting the two halves of and sealing the fluid in the tubular housing behind the cylindrical cross-section, When the cylindrical cross section is compressed by pressing the tubular housing, the two halves of the cylindrical cross section slide against each other and are pressed together, thereby reducing the cross section of the cylindrical cross section, A sealed container having enclosing opening means, forming a fluid flow path between an outer side and an inner wall of the tubular housing to release the fluid from the tubular housing. 28. The method of claim 27, wherein the enclosing opening means comprises a cross-sectional material having a diameter approximately equal to the inner diameter of the tubular housing near its intermediate cross section. The first end of the cross-sectional material is formed in the form of two purges acting as handles and opposite forces are applied toward each other by pressing the two purges, the second end of the cross-sectional material being the inner diameter of the tubular housing. It has a smaller cross section, and a rupture surface is formed from the second end to the vicinity of the joining of the two pitchers at the first end, Thereby, when the two pitchers are compressed toward each other by pressing the tubular housing, the cross-sectional material is ruptured into two halves along the rupture surface along its longitudinal direction, and the fluid flow path passes through the cross-sectional material. A sealed container having an opening that surrounds the opening to release the fluid from the tubular housing. 28. The apparatus of claim 27, wherein the enclosing opening means comprises an elongated cup having a diameter approximately equal to an inner diameter of the tubular housing and a length longer than the diameter, The closed end of the cup terminates at an elongated protrusion and ruptures around the elongated protrusion positioned along the elongated cup at the point where an opening is formed at the closed end of the elongated cup when the elongated protrusion is ruptured. A line is formed, whereby the elongated cup is inserted into the tubular housing to seal the fluid in the tubular housing, Upon bending the tubular housing near the closed end of the elongated cup, the elongated protrusion ruptures from the elongated cup at the rupture line and exposes a fluid flow path to release the fluid from the tubular housing. Sealed container with opening means.

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