JP2015501766A5 - - Google Patents

Description

While multiple embodiments are disclosed, still other embodiments of the disclosure will be apparent to those skilled in the art from the following detailed description, which illustrates and describes illustrative embodiments of the disclosure. As will be realized, various embodiments of the disclosure may be modified in various obvious aspects, all without departing from the spirit and scope of the disclosure. Accordingly, the drawings and detailed description are to be regarded as illustrative in nature and not as restrictive.
For example, the present invention provides the following.
(Item 1)
A method of removing headspace gas from a liner-based assembly, wherein the liner-based assembly is positioned within the overpack, a liner containing material and headspace gas, and seals the liner. A closure for, the method comprising:
Providing a one-way valve in fluid communication with the interior of the liner, allowing flow in a direction away from the interior of the liner;
Exhausting headspace gas from the interior of the liner by applying a vacuum to the one-way valve;
Including a method.
(Item 2)
The method of claim 1, wherein the liner-based assembly further includes a port in fluid communication with an annular space between the overpack and the liner, and the method further comprises capping the port. .
(Item 3)
A liner-based assembly configured for headspace gas removal, the liner-based assembly comprising:
With overpack,
A liner positioned within the overpack;
A closure configured to removably couple with the liner to seal the liner;
A one-way valve in fluid communication with the interior of the liner and allowing flow in a direction away from the interior of the liner;
A liner-based assembly comprising:
(Item 4)
The liner-based assembly of claim 3, wherein the one-way valve is coupled to the closure.
(Item 5)
The liner-based assembly of claim 4, further comprising a port in fluid communication with the annular space between the overpack and the liner.
(Item 6)
The liner-based assembly of claim 5, wherein the port is temporarily capped for headspace gas removal.
(Item 7)
A method of filling a container assembly, the method comprising:
Heating the material to a predetermined temperature, and filling the container with the material at the predetermined temperature;
Sealing the container;
Cooling the material in the container after sealing the container;
Including a method.
(Item 8)
Item 8. The method according to Item 7, wherein the predetermined temperature is about 40 to 60C.
(Item 9)
9. The method of item 8, wherein the material is generally cooled to the ambient temperature of the room in which the container is located.
(Item 10)
8. The method of item 7, further comprising filling the container with the material substantially up to the top so that substantially no excess space is provided for headspace gas.
(Item 11)
8. The method of item 7, further comprising removing headspace gas after sealing the container.
(Item 12)
A liner-based assembly for use with pressure distribution, the liner-based assembly comprising:
With overpack,
A liner disposed in the overpack;
A closure assembly securable to at least one of the overpack and the liner, the closure assembly including a headspace vent and a reservoir, wherein the reservoir is stored within the interior of the liner. A closure assembly configured to collect an overflow of material
And the closure assembly is configured to form a seal on the liner by curing an overflow of material in the reservoir.
(Item 13)
Item 13. The liner-based assembly of item 12, wherein the material is an adhesive.
(Item 14)
The liner-based assembly of claim 13, further comprising a cap configured to removably seal the reservoir.
(Item 15)
A method for filling and sealing a container, the method comprising:
Filling the container with an adhesive;
Operably coupling a closure assembly to the container, the closure assembly comprising a reservoir configured to collect the adhesive overflow;
Allowing at least one of allowing or allowing a portion of the adhesive within the container to flow into or into the reservoir of the closure assembly;
Forming a seal for the container by curing an adhesive overflow in the reservoir;
Including a method.
(Item 16)
16. The method of item 15, further comprising removably sealing the reservoir by capping the closure assembly.
(Item 17)
A liner-based assembly for use with pressure distribution, the liner-based assembly comprising:
With overpack,
A liner disposed in the overpack;
A cap assembly securable to at least one of the overpack and the liner, the cap assembly including a closure and a plug member, the closure being removably coupled to a dispensing connector. A cap assembly configured to removably couple to the plug member, wherein the plug is configured to substantially completely fill the mouth of the closure;
A liner-based assembly comprising:
(Item 18)
The liner-based assembly according to item 17, wherein the liner includes edible food material and the dispensing connector is configured to dispense food material.
(Item 19)
A method of dispensing the contents of a liner-based assembly, the method comprising:
Providing a liner having a desired material stored therein, wherein the liner is disposed in an overpack, includes a liner neck, and a seal is secured to the liner neck;
A probe on the dispensing connector is initially positioned adjacent to the seal at the liner neck but without puncturing the seal, but when the substance is dispensed by pressure dispensing, the seal Securing a dispensing connector to the liner neck such that the probe is bent upward against the probe and the probe is positioned to permit dispensing of the substance by puncturing the seal;
Including a method.
(Item 20)
20. A method according to item 19, wherein the substance is distributed by indirect pressure distribution and pressure is applied to the annular space between the liner and the overpack.

Claims (20)

A method of removing headspace gas from a liner-based assembly, wherein the liner-based assembly is positioned within the overpack, a liner containing material and headspace gas, and seals the liner. A closure for, the method comprising:
Providing a one-way valve in fluid communication with the interior of the liner, allowing flow in a direction away from the interior of the liner;
Discharging a headspace gas from the interior of the liner by applying a vacuum to the one-way valve.   The liner-based assembly further comprises a port in fluid communication with an annular space between the overpack and the liner, and the method further comprises capping the port. Method. A liner-based assembly configured for headspace gas removal, the liner-based assembly comprising:
With overpack,
A liner positioned within the overpack;
A closure configured to removably couple with the liner to seal the liner;
A liner-based assembly comprising: a one-way valve in fluid communication with the interior of the liner and allowing flow in a direction away from the interior of the liner.   The liner-based assembly of claim 3, wherein the one-way valve is coupled to the closure.   The liner-based assembly of claim 4, further comprising a port in fluid communication with the annular space between the overpack and the liner.   The liner-based assembly of claim 5, wherein the port is temporarily capped for headspace gas removal. A method of filling a container assembly, the method comprising:
Heating the material to a predetermined temperature, and filling the container with the material at the predetermined temperature;
Sealing the container;
Cooling the material in the container after sealing the container.   The method of claim 7, wherein the predetermined temperature is about 40-60 ° C.   The method of claim 8, wherein the material is generally cooled to an ambient temperature of a room in which the container is located.   8. The method of claim 7, further comprising filling the container with the material substantially up to the top so that substantially no excess space is provided for headspace gas.   The method of claim 7, further comprising removing headspace gas after sealing the container. A liner-based assembly for use with pressure distribution, the liner-based assembly comprising:
With overpack,
A liner disposed in the overpack;
A closure assembly securable to at least one of the overpack and the liner, the closure assembly including a headspace vent and a reservoir, wherein the reservoir is stored within the interior of the liner. A closure assembly configured to collect overflow of the material, wherein the closure assembly forms a seal on the liner by curing the overflow of material in the reservoir. A configured liner-based assembly.   The liner-based assembly of claim 12, wherein the material is an adhesive.   The liner-based assembly of claim 13, further comprising a cap configured to removably seal the reservoir. A method for filling and sealing a container, the method comprising:
Filling the container with an adhesive;
Operably coupling a closure assembly to the container, the closure assembly comprising a reservoir configured to collect the adhesive overflow;
Allowing at least one of allowing or allowing a portion of the adhesive within the container to flow into or into the reservoir of the closure assembly;
Forming a seal for the container by curing an adhesive overflow in the reservoir.   16. The method of claim 15, further comprising removably sealing the reservoir by capping the closure assembly. A liner-based assembly for use with pressure distribution, the liner-based assembly comprising:
With overpack,
A liner disposed in the overpack;
A cap assembly securable to at least one of the overpack and the liner, the cap assembly including a closure and a plug member, the closure being removably coupled to a dispensing connector. A cap assembly configured to removably couple to the plug member, wherein the plug is configured to substantially completely fill the mouth of the closure; A liner-based assembly comprising: The liner-based assembly of claim 17, wherein the liner includes a biological solvent and the dispensing connector is configured to dispense a biological solvent . A method of dispensing the contents of a liner-based assembly, the method comprising:
Providing a liner having a desired material stored therein, wherein the liner is disposed in an overpack, includes a liner neck, and a seal is secured to the liner neck;
Probe on distributable connector, first, while the adjacent seal in the liner neck is positioned without puncturing the seal, when the material is dispensed by the pressure distribution, the seal, the probe curved upwardly collides with the probe, by puncturing the seal, so as to be positioned to allow dispensing of the material, and a fixing the said dispensing connector into the liner neck, Method.   20. The method of claim 19, wherein the material is dispensed by indirect pressure distribution and pressure is applied to the annular space between the liner and overpack.