EA007424B1 - Sealed container with enclosed opening means - Google Patents

Abstract

An elongated sealed container with a self-contained opening means fully enclosed within the container to release the liquid sealed within the container is disclosed. The enclosed opening means may be operated by either squeezing or bending the elongated sealed container at or near the enclosed opening means to release the liquid sealed within the elongated sealed container for application. There are no loose parts that may be lost and all components are completely sealed within the container.

Description

FIELD OF THE INVENTION

The present invention relates generally to a sealed container with an opening device enclosed in a container for discharging a liquid contained in the container.

BACKGROUND OF THE INVENTION AND DESCRIPTION OF THE PRIOR ART

To open the container there is a wide variety of opening devices. Most of the opening devices are made in the form of screw caps or caps, worn on the neck with gearing for the whisk. Some opening devices are made in the form of brittle closure elements or an incision line on the container, allowing the contents of the container to be released when the fragile closure element or container is destroyed along the incision line. All of these opening means are either attached to the container from the outside, for example, screw caps or caps that are put on the neck with engagement with the whisk, or are made as part of the container, for example, fragile closure elements or cut lines on the container. None of the opening means has been designed to fit inside the container to seal the liquid in the container, and at the same time to ensure unhindered and reliable release of the liquid. In particular, there is no effective and easy to use opening tool for small elongated containers with a small cross-sectional area.

Summary of the invention

In accordance with the present invention, there is provided an elongated sealed container with an integrated opening device, completely enclosed within the container, for discharging liquid contained in the container. The opening device enclosed in the container can be actuated either by pressing or bending the elongated sealed container at or near the integrated opening device. After the opening device opens, the liquid inside the elongated sealed container can be discharged for its use. In the case where the liquid cannot be discharged from an elongated sealed container with a small cross-section due to the surface tension created by the liquid, a guiding element can be used to increase capillary action and overcome the surface tension of the liquid to discharge the liquid from the elongated sealed container. There are no loose parts in the container that could be lost, and all components are completely sealed inside the container.

Brief Description of the Drawings

FIG. 1 is a preferred embodiment of the invention of a sealed container with an integrated opening device, FIG. 2 is another embodiment of the invention of a sealed container with an integrated opening device, FIG. 3 is another embodiment of the invention of a sealed container with an integrated opening device, FIG. 4 is another embodiment of the invention of a sealed container with an integrated opening device; FIG. 5 is another embodiment of the invention of a sealed container with an integrated opening device; FIG. 6 is one embodiment of the invention of the opening device in the closed state; FIG. 7 - the opening device shown in FIG. 6 in the open state for discharging liquid contained in a sealed container; FIG. 8 is one embodiment of the invention of a closed opening device; FIG. 9 is the opening device shown in FIG. 8 in the open state for discharging liquid contained in a sealed container; FIG. 10 is one embodiment of the invention of the opening device in the closed state; FIG. 11 is the opening device shown in FIG. 10, in the open state for discharging liquid contained in a sealed container, FIG. 12 is one embodiment of the invention of the opening device in the closed state; FIG. 13 is the opening device shown in FIG. 12, in the open state for discharging liquid contained in a sealed container, FIG. 14 is one embodiment of the invention of the opening device in the closed state; FIG. 15 is an opening device shown in FIG. 14 in the open state for discharging liquid contained in a sealed container; FIG. 16 is one embodiment of the invention of the opening device in the closed state; FIG. 17 - the opening device shown in FIG. 16 in the open state for discharging liquid contained in a sealed container; FIG. 18 is one embodiment of the invention of the opening device in the closed state; FIG. 19 is the opening device shown in FIG. 18, in the open state for discharging liquid contained in a sealed container.

- 1 007424

Full Description of a Preferred Embodiment

In FIG. 1 shows a preferred embodiment of a sealed container with an integrated opening device. In a preferred embodiment, the sealed container with an integrated opening device includes an elongated tubular body 1 with a hermetically sealed end 2 and an open end 3. A liquid 4 is placed inside the elongated tubular body 1 near the hermetically sealed end 2. An integrated opening device 5 is located inside the elongated tubular body 1 sealing the liquid 4 inside the elongated tubular body 1. The opening device 5 can be actuated either by compression, or bending the elongated tubular housing 1 around or in the vicinity of the built-opener 5.

In the case when the liquid 4 cannot be freely released from the elongated tubular body 1 with a small cross section due to the surface tension created by the liquid by opening the opening device 5, a guiding element 6, 7 can be used to increase the capillary action and overcome the surface tension of the liquid 4 for discharging fluid from the elongated tubular body 1, as shown in FIG. 2, 4 and 5.

One embodiment of the invention, the integrated opening device 5 is shown in FIG. 3, in which the integrated opening device 5 includes a cylinder 8, the outer diameter of which is approximately equal to the inner diameter of the elongated tubular body 1 defining a small channel extending from the open end 3 of the elongated tubular body 1 to the liquid 4. The end face located near the liquid 4 has an elongated a protrusion 9, the diameter of which is smaller than the diameter of the cylindrical body of the integrated opening device 5 and which is able to separate from the cylindrical body of the integrated opening device 5. Elongated height unitary enterprise 9 seals a small channel in cylinder 8 and prevents the leakage of liquid 4 in the elongated tubular body 1 through the built-in opening device 5. When bending the elongated tubular body 1 at the junction between the elongated protrusion 9 and the cylindrical body of the built-in opening device 5, the elongated protrusion 9 is separated from the cylindrical housing, and opens a small channel for the passage of fluid and its release and elongated tubular housing 1 through the opening device 5.

In FIG. 4 shows another embodiment of a sealed container with an integrated opening device. In this embodiment, a sealed container with an integrated opening device includes an elongated, bendable tubular body 1 of small cross section with a hermetically sealed end 2 and an open end 3. A liquid 4 is placed inside the elongated tubular body 1 near a hermetically sealed end 2. An integrated opening device 5 is located inside elongated tubular body 1, sealing the liquid 4 located inside the elongated tubular body 1.

The integrated opening device 5 includes a hollow cylindrical body 10 with an open end 11 directed towards the liquid 4 and a closed end with an elongated element 12 extending from the hollow cylindrical body 10 towards the open end 3 of the elongated bendable tubular body 1 and ending at the open end 3 of an elongated bendable tubular body 1. A brittle section 13, which can be formed by a notch line on the outer surface of the hollow cylindrical body 10, is made on hollow cylin drich case 10 near the closed end of the hollow cylindrical body 10.

When bending the tubular body 1 near the brittle section 13 of the hollow cylindrical body 10 of the opening device 5, the closed end of the hollow cylindrical body 10 is separated from the open end 11 of the hollow cylindrical body 10, as a result of which a channel opens from the liquid 4 in the direction of the open end 3 of the elongated tubular body 1. Due to the small cross section of the elongated bendable tubular body 1, the surface tension of the liquid 4 will not allow the liquid 4 to freely flow out of the tubular body 1. The liquid 4 can be selectively released from the tubular body by compressing a portion of the tubular body 1 containing the liquid 4 to pump the liquid 4 in the direction of the elongated element 12. After the liquid 4 reaches the elongated element 12, the elongated element 12 enhances capillary interaction liquid 4 in order to overcome the surface tension of the liquid 4 inside the tubular body 1 and ensure its free flow from the tubular body 1.

If necessary, the immediate release of liquid 4 after opening the opening device 5 to the hermetically sealed end 2 of the tubular body 1, a second elongated element 14 can be attached, almost reaching the open end 11 of the cylindrical body 10, as shown in FIG. 5, in order to enhance the capillary action of the fluid 4, which overcomes the surface tension of the fluid 4 and the immediate leakage of fluid 4 from the tubular body 1 when opening the opening device 5, without compressing it.

In FIG. 6 shows another embodiment of the integrated opening device 5. In this embodiment, the integrated opening device 5 includes a deformable cap 15, the diameter of which practically corresponds to the inner diameter of the tubular body 1, and the length exceeds this diameter. Deformable cap 15 is installed inside the tubular body

- 2 007424 ca 1 for sealing liquid 4 inside the tubular body 1. As shown in FIG. 7, when bending or compressing the tubular body 1 near the opening device 5, the deformable cap 15 deforms and the channel for the fluid 4 to flow out of the tubular body 1 opens. Instead of the deformable cap 15, a deformable sphere can also be used, for example, a hollow plastic ball, the diameter of which practically corresponds to the inner diameter of the tubular body 1. When bending or compressing the tubular body 1 near the opening device 5, the deformable sphere deforms, and there is an opening of the channel, providing the flow of fluid 4 for its release from the tubular body 1.

In FIG. 8 shows another embodiment of the integrated opening device 5. In this embodiment, the integrated opening device 5 includes a plug 16 that breaks into two parts along the surface of the fracture 17 when it is bent. One or more holes 18 are made in the plug 16, extending from each end of the plug 16 and passing through the surface of the fracture 17, but not reaching the opposite ends of the plug 16. As shown in FIG. 9, when bending the tubular body 1 near the plug 16, the plug 16 is divided into two parts along the surface of the fracture 17, as a result of which one or more channels are formed, going from the liquid 4 to the open end 3 of the tubular body 1. The plug 16 can also be made destructible or detachable during torsion, due to which, during torsion of the tubular body near the opening device 5, an opening of the channel for fluid flow occurs. The tubular body can be made of two parts screwed at the plug 16, and when the tubular body is unscrewed, the plug 16 is divided into two parts.

In FIG. 10 shows another embodiment of the integrated opening device 5, in which the integrated opening device 5 includes a cylindrical section 19 with a narrow portion 20 having a reduced outer diameter, and two ends 21, the outer diameter of which is almost equal to the inner diameter of the tubular body 1. In the cylindrical section 19 there is a through hole 22, forming in its axial direction a channel extending from the liquid 4 to the open end 3 of the tubular body 1. The elongated element 23 is attached to a hermetically sealed end 2 and enters the hole 22 of the cylindrical section 19, sealing the hole 22 and the channel for the flow of liquid. When bending the tubular body 1 near the cylindrical section 19, the elongated element 23 is pulled out of the hole 22 in the cylindrical section 19, and a channel opens from the fluid 4 to the open end 3 of the tubular body 1, as shown in FIG. eleven.

In FIG. 12 shows another embodiment of the integrated opening device 5, in which the integrated opening device 5 includes two circular discs 24, 25, the cross section of which is almost equal to the inner diameter of the tubular body 1, having a sufficient thickness to prevent them from tipping over inside the tubular body 1. Each round disk 24, 25 has one or more through holes 26, 27 located so that when installing circular discs 24, 25, matching their surfaces in the tubular body 1, holes 26, 27 in each m round disk overlapped by another disk, resulting in all openings 26, 27 in both circular disks 24, 25 will be hermetically closed by another round disk. When the tubular body 1 is bent around two round disks 24, 25, deformation of the tubular body 1 leads to the separation of two round disks 24, 25, and a channel is formed going from the liquid 4 to the open end 3 of the tubular body 1, as shown in FIG. 13. Separation of two circular disks 24, 25 can be achieved by unscrewing the tubular body if the tubular body is twisted by the opening device 5 to open the channel. The tubular body can be made of two parts, screwed together at the interface between the two round discs 24, 25, and when unscrewing the tubular body, two round discs 24, 25 are separated.

In FIG. 14 shows another embodiment of the integrated opening device 5, in which the integrated opening device 5 includes a cylindrical section 28 having a sufficient length preventing rotation of the section inside the tubular body 1. The cylindrical section 28 is provided with a diagonal section 29 extending diagonally from one end to the other, this thin section of material 30 connects the two halves of the cylindrical section 28, so that the liquid 4 is hermetically sealed in the tubular body 1 behind the cylindrical part 28. When giving up When the cylindrical section 28 is squeezed by compressing the tubular body 1, the two halves of the cylindrical section 28 slide relative to each other and are connected, thereby reducing the cross-sectional area of the cylindrical section 28. As a result, a channel is formed between the outer surface of the cylindrical section 28 and the inner wall surface of the tubular body 1, providing the release of fluid 4 from the tubular body 1.

In FIG. 16 shows another embodiment of the integrated opening device 5, in which the integrated opening device 5 includes a section of material 31, the diameter of which in its middle part 32 is almost equal to the inner diameter of the tubular body 1. The first end 33 of the section of material 31 is made in the form of two fork teeth acting like handles to which oppositely directed forces can be applied by squeezing two forked teeth towards each other. The cross section of the second end 34 of the material 31 is smaller than the inner diameter of the pipes

- 3 007424 of the chat body 1, and the fracture surface 35 is formed from the second end 34 to the area where two fork teeth of the first end 33 are connected. When two fork teeth are compressed towards each other by compressing the tubular body 1, the material portion 31 breaks into two parts along the fault surface 35 in its longitudinal direction, and in this case a channel is formed through a section of material 31 for discharging liquid 4 from the tubular body 1, as shown in FIG. 17.

In FIG. 18, another embodiment of the integrated opening device 5 is illustrated, wherein the integrated tearing device 5 includes an elongated cap 36, the diameter of which is almost equal to the inner diameter of the tubular body 1 and whose length exceeds the diameter. The closed end 37 of the elongated cap 36 forms an elongated protrusion with a fault line 38 formed around the elongated protrusion along the perimeter of the elongated cap 36 at the point at which an opening is formed when breaking the elongated protrusion in the closed end 37 of the elongated cap 36. An elongated cap 36 is inserted into the tubular body 1 to seal the fluid 4 tightly inside the tubular body 1. As shown in FIG. 19, when the tubular body 1 is bent near the closed end of the elongated cap 36, the elongated protrusion breaks off from the elongated cap 36 along the fault line 38, as a result of which a channel is formed for discharging liquid 4 from the tubular body 1.

Despite the fact that the above description contains numerous characteristic features, they should not be construed as limiting the scope of the invention, but simply as illustrating a number of preferred embodiments of the present invention. Thus, the scope of the invention should be determined by the attached claims, as well as its legal equivalents, and not the examples given.

Claims (39)

1. A sealed container with a built-in opening device, including an elongated tubular body with a hermetically sealed end and an open end, a liquid hermetically sealed inside an elongated tubular body near a hermetically sealed end, a built-in opening device located inside the elongated tubular body, a sealing liquid inside the elongated a tubular body in which the opening device may be actuated to discharge fluid from the elongated tubular body. 2. The sealed container with an integrated opening device according to claim 1, in which the integrated opening device includes a cylinder whose outer diameter is approximately equal to the inner diameter of the elongated tubular body defining a channel from the liquid to the open end of the elongated tubular body, and an elongated protrusion that can be detached from the cylinder and going from the end of the cylinder, located near the liquid and the sealing channel. 3. The sealed container with an integrated opening device according to claim 1, in which the built-in opening device includes a hollow cylindrical body with an open end directed towards the liquid and a closed end with an elongated element extending from the hollow cylindrical body towards the open end of the elongated tubular case, with a fragile section formed on the hollow cylindrical body near the closed end of the hollow cylindrical body. 4. A sealed container with an integrated opening device according to claim 1, in which the integrated opening device includes a deformable cap. 5. A sealed container with a built-in opening device according to claim 1, in which the built-in opening device includes a deformable sphere. 6. The sealed container with an integrated opening device according to claim 1, in which the integrated opening device includes a plug breaking on the fault surface, in which there is one or more holes in the plug, extending from each end of the plug and passing through the fault surface, but not reaching opposite ends of the tube, in which when the tubular body is bent near the tube, the tube breaks along the fault surface, as a result of which one or more channels are formed, going from the liquid to the open end of the tubular body. 7. The hermetic container with the built-in opening device according to claim 6, in which the plug can also be destructible or detachable during torsion, in which, when the tubular body is unscrewed near the opening device, the channel for the flow of liquid opens. 8. The sealed container with an integrated opening device according to claim 1, wherein the integrated opening device includes a cylindrical section with a narrow part having a reduced outer diameter and two ends, the outer diameter of which is almost equal to the inner diameter of the tubular body, in which the cylindrical section defines a through an opening extending in its axial direction, forming a channel extending from the fluid to the open end of the tubular body, and an elongated element attached to the hermetically sealed end of the tubular the body and entering the hole in the cylindrical section, sealing the hole and the channel for the flow of fluid, in which - 4 007424 swarm when bending or pulling the tubular body near the cylindrical section, the elongated element is pulled out of the hole in the cylindrical section, and a channel is opened that goes from the liquid to the open end of the tubular body. 9. The sealed container with an integrated opening device according to claim 1, in which the integrated opening device includes two circular disks, the cross section of which is almost equal to the inner diameter of the tubular body, having a sufficient thickness to prevent them from tipping over inside the tubular body, in which each round disk has one or more through holes located so that when installing round discs, mating their surfaces in a tubular body, the holes in each round disc overlap alis another disc, whereby all openings in both round discs will be hermetically closed by another circular disk, and when bending the tubular body about two circular discs deformation of the tubular body results in separation of the two circular discs and formation of the channel. 10. A sealed container with a built-in opening device according to claim 9, in which the separation of two circular disks can be achieved by torsion of the tubular body. 11. The sealed container with an integrated opening device according to claim 1, in which the built-in opening device includes a cylindrical section having a sufficient length, preventing the section from turning inside the tubular body, and provided with a diagonal cut extending diagonally from one end to the other, with a thin section connects two halves of the cylindrical section and hermetically seals the liquid in the tubular body behind the cylindrical part, in which, when squeezing the cylindrical section by compressing the pipes atogo casing halves of the cylindrical section slide relative to each other and are connected, reducing the cross sectional area of the cylindrical section and forming a channel between the outer surface of the cylindrical section and the inner wall surface of the tubular body, thereby providing a liquid outlet of the tubular body. 12. The sealed container with an integrated opening device according to claim 1, in which the integrated opening device includes a section of material, the diameter of which in its middle part is almost equal to the inner diameter of the tubular body, while the first end of the section of material is made in the form of two fork teeth, acting as handles in which oppositely directed forces can be applied by compressing two forked teeth towards each other, the second end of the material section, the cross section of which is smaller inside the diameter of the tubular body, and the fracture surface formed from the second end to the area where two fork teeth are connected at the first end, while compressing two fork teeth towards each other by compressing the tubular body, the material breaks into two parts along the fault surface in its longitudinal direction, and a channel is formed through a section of material to release fluid from the tubular body. 13. The sealed container with an integrated opening device according to claim 1, in which the built-in tear-off device includes an elongated cap, the diameter of which is almost equal to the inner diameter of the tubular body and whose length exceeds the diameter, while the closed end ends with an elongated protrusion with a fault line formed around the elongated protrusion and located along the elongated cap at the point at which, when breaking off the elongated protrusion, an opening is formed in the closed end of the elongated cap, while Linen cap is inserted into the tubular housing for sealingly closing the liquid inside the tubular body, wherein upon bending of the tubular housing adjacent the closed end of the elongate cap elongate protrusion breaks off from the elongate cap by a fault line, thereby forming a passage for discharging the fluid from the tubular body. 14. A sealed container with a built-in opening device, including an elongated tubular body with a hermetically sealed end and an open end, an elongated element attached to a closed end, a liquid hermetically sealed inside an elongated tubular body near a hermetically sealed end, a built-in opening device located inside an elongated tubular housing, a sealing fluid located inside an elongated tubular housing in which the opening device can be actuated to fluid discharge from the elongated tubular body. 15. The sealed container with an integrated opening device according to 14, in which the integrated opening device includes a cylinder whose outer diameter is approximately equal to the inner diameter of the elongated tubular body defining a channel extending from the liquid to the open end of the elongated tubular body, and an elongated protrusion, which able to separate from the cylinder and going from the end of the cylinder, located near the liquid and the sealing channel. 16. The sealed container with a built-in opening device according to claim 11 includes a hollow cylindrical body with an open end directed towards the liquid and a closed end with an elongated element extending from the hollow cylindrical body in the direction of the open end of the elongated tubular body and ending at the open end of the elongated bendable pipe of the fifth body, with a fragile section formed on the hollow cylindrical body near the closed end of the hollow cylindrical body. 17. A sealed container with an integrated opening device, the opening device includes a deformable cap. 18. A sealed container with a built-in opening device, the opening device includes a deformable sphere. 19. Sealed container with integrated opening device 14, which is embedded in p. 14, which 14, in which the built-in opening device includes a plug breaking on the fault surface, in which there is one or more holes in the plug extending from each end of the plug and passing through the fault surface, but not reaching opposite ends of the plug, in which, when bent, the casing near the cork breaks the cork along the fault surface, as a result of which one or more channels are formed, going from the liquid to the open end of the tubular body. 20. A sealed container with a built-in opening device according to claim 19, in which the plug can also be destructible or detachable during torsion, in which, when the tubular body is unscrewed near the opening device, the channel for the flow of liquid opens. 21. The sealed container with an integrated opening device according to 14, in which the integrated opening device includes a cylindrical section with a narrow part having a reduced outer diameter, and two ends, the outer diameter of which is almost equal to the inner diameter of the tubular body, in which the cylindrical section defines a through an opening extending in its axial direction, forming a channel extending from the liquid to the open end of the tubular body, and an elongated element attached to the hermetically sealed end of the pipes of the open housing and entering the hole in the cylindrical section, sealing the hole and the channel for the flow of fluid, in which, when bending or pulling the tubular body near the cylindrical section, the elongated element is pulled out of the hole in the cylindrical section, and the channel going from the liquid to the open end of the tubular corps. 22. The sealed container with an integrated opening device according to claim 14, wherein the integrated opening device includes two circular disks, the cross-section of which is almost equal to the inner diameter of the tubular body, having a sufficient thickness to prevent them from tipping over inside the tubular body, in which each round disk has one or more through holes, located so that when installing round discs, matching their surfaces in a tubular body, the holes in each round disc overlap valis another disc, whereby all openings in both round discs will be hermetically closed by another circular disk, and when bending the tubular body about two circular discs deformation of the tubular body results in separation of the two circular discs and formation of the channel. 23. A sealed container with an integrated opening device according to claim 22, in which the separation of two circular disks can be achieved by torsion of the tubular body. 24. The sealed container with an integrated opening device according to 14, in which the built-in opening device includes a cylindrical section having a sufficient length, preventing the section from turning inside the tubular body, and provided with a diagonal cut extending diagonally from one end to the other, with a thin section The material connects two halves of the cylindrical section and hermetically seals the liquid in the tubular body behind the cylindrical section, in which, when squeezing the cylindrical section by compressing two half of the cylindrical section slide relative to each other and are connected, reducing the cross-sectional area of the cylindrical section and forming a channel between the outer surface of the cylindrical section and the inner wall surface of the tubular body, thereby ensuring the release of fluid from the tubular body. 25. The sealed container with an integrated opening device according to 14, in which the integrated opening device includes a section of material, the diameter of which in its middle part is almost equal to the inner diameter of the tubular body, while the first end of the section of material is made in the form of two fork teeth, acting as handles in which oppositely directed forces can be applied by compressing two fork teeth in the direction of each other, the second end of the material section, the cross section of which is smaller than the inside the diameter of the tubular body, and the fracture surface formed from the second end to the area where two fork teeth are connected at the first end, while compressing two fork teeth towards each other by compressing the tubular body, the material breaks into two parts along the fault surface in its longitudinal direction, and at the same time a channel is formed through a section of material to release fluid from the tubular body. 26. A sealed container with an integrated opening device according to 14, in which the built-in tear-off device includes an elongated cap, the diameter of which is almost equal to the inner diameter of the tubular body and whose length exceeds the diameter, while the closed end ends with an elongated protrusion with a fault line formed around the elongated the protrusion and placed along the elongated cap at the point at which, when breaking off the elongated protrusion, an opening is formed in the closed end of the elongated cap, In this case, the elongated cap is inserted into the tubular body for hermetically sealing the liquid inside the tubular body, in which, when the tubular body is bent near the closed end of the elongated cap, the elongated protrusion breaks off from the elongated cap along the fault line, as a result of which a channel is formed for discharging fluid from the tubular body. 27. A sealed container with a built-in opening device, including an elongated tubular body with a hermetically sealed end and an open end, an elongated element attached to a closed end, a liquid that is hermetically sealed inside an elongated tubular body near a hermetically sealed end, a built-in opening device with an elongated element located inside the elongated tubular body, sealing liquid located inside the elongated tubular body, while the elongated element is located in the direction of the open end of the elongated tubular body, in which the opening device can be actuated to release fluid from the elongated tubular body. 28. The sealed container with an integrated opening device according to claim 27, wherein the integrated opening device includes a cylinder whose outer diameter is approximately equal to the inner diameter of the elongated tubular body defining a channel from the liquid to the open end of the elongated tubular body, and an elongated protrusion that can be detached from the cylinder and going from the end of the cylinder, located near the liquid and the sealing channel. 29. A sealed container with an integrated opening device according to claim 27, wherein the integrated opening device includes a hollow cylindrical body with an open end facing the liquid side and a closed end with an elongated element extending from the hollow cylindrical body in the direction of the open end of the elongated tubular body with a fragile section formed on the hollow cylindrical body near the closed end of the hollow cylindrical body. 30. A sealed container with a built-in opening device according to claim 27, in which the built-in opening device includes a deformable cap. 31. A sealed container with a built-in opening device according to claim 27, in which the built-in opening device includes a deformable sphere. 32. A sealed container with an integrated opening device according to claim 14, wherein the integrated opening device includes a plug breaking on the fault surface, in which there is one or more holes in the plug extending from each end of the plug and passing through the fault surface but not reaching opposite ends of the tube, in which, when the tubular body is bent near the tube, the tube breaks along the fracture surface, as a result of which one or more channels are formed, going from the liquid to the open ytogo end of the tubular body. 33. A sealed container with a built-in opening device according to claim 32, wherein the plug can also be destructible or detachable during torsion, in which when the tubular body is twisted near the opening device, a channel for the flow of liquid opens. 34. The pressurized container with an integrated opening device according to claim 27, wherein the integrated opening device includes a cylindrical section with a narrow part having a reduced outer diameter and two ends, the outer diameter of which is almost equal to the inner diameter of the tubular body, in which the cylindrical section defines a through an opening extending in its axial direction, forming a channel extending from the liquid to the open end of the tubular body, and an elongated element attached to the hermetically sealed end of the pipes of the open housing and entering the hole in the cylindrical section, sealing the hole and the channel for the flow of fluid, in which, when bending or pulling the tubular body near the cylindrical section, the elongated element is pulled out of the hole in the cylindrical section, and the channel going from the liquid to the open end of the tubular corps. 35. The sealed container with an integrated opening device according to 14, in which the built-in opening device includes two circular disks, the cross section of which is almost equal to the inner diameter of the tubular body, having a sufficient thickness to prevent them from tipping over inside the tubular body, in which each round disk has one or more through holes, located so that when installing round discs, matching their surfaces in a tubular body, the holes in each round disc overlap valis another disc, whereby all openings in both round discs will be hermetically closed by another circular disk, and when bending the tubular body about two circular discs deformation of the tubular body results in separation of the two circular discs and formation of the channel. 36. A sealed container with a built-in opening device according to clause 35, in which the separation of two round discs can be achieved by torsion of the tubular body. 37. The pressurized container with an integrated opening device according to claim 27, wherein the integrated opening device includes a cylindrical section having a sufficient length, preventing the section from being rotated inside the tubular body, and provided with a diagonal cut extending diagonally from one end to the other, while a thin section of material connects the two halves of the cylindrical section and hermetically seals the liquid in the tubular body behind the cylindrical section, in which, when squeezing the cylindrical section by squeezing In the tubular casing, two halves of the cylindrical section slide relative to each other and are connected, reducing the cross-sectional area of the cylindrical section and forming a channel between the outer surface of the cylindrical section and the inner wall surface of the tubular casing, thereby allowing liquid to escape from the tubular casing. 38. The sealed container with an integrated opening device according to claim 27, wherein the integrated opening device includes a section of material, the diameter of which in its middle part is almost equal to the inner diameter of the tubular body, while the first end of the section of material is made in the form of two fork teeth acting as handles in which oppositely directed forces can be applied by compressing two forked teeth towards each other, and the second end of the material section, the cross section of which is smaller than the inside the diameter of the tubular body, and the fracture surface formed from the second end to the area where two fork teeth are connected at the first end, while compressing two fork teeth towards each other by compressing the tubular body, the material breaks into two parts along the fault surface in its longitudinal direction, and at the same time a channel is formed through a section of material to release fluid from the tubular body. 39. A sealed container with an integrated opening device according to claim 27, wherein the built-in tear-off device includes an elongated cap, the diameter of which is almost equal to the inner diameter of the tubular body and whose length exceeds the diameter, while the closed end ends with an elongated protrusion with a fault line formed around the elongated protrusion and located along the elongated cap at the point at which, when breaking off the elongated protrusion, an opening is formed in the closed end of the elongated cap, while a long cap is inserted into the tubular body for hermetically sealing the liquid inside the tubular body, in which, when the tubular body is bent near the closed end of the elongated cap, the elongated protrusion breaks off from the elongated cap along the fault line, as a result of which a channel is formed for discharging fluid from the tubular body.