REUSABLE ICE SUBSTITUTE IN A CAN

Abstract

A container filled with a freezable mixture for use in refrigeration or temporary cooling purposes. The container of the invention is generally one of the common metal cylindrical containers or cans but may also include both plastic and glass bottles. Normally such containers are unsuitable for holding a freezable mixture due to the expansion of the freezing mixture causing the deformation or rupture of said container. By using a fully soluble eutectic mixture, such as propylene glycol and water mixed at a ratio of 20% propylene glycol, an ice slurry is formed at the temperatures normally present in home freezers. A small gas space is also needed for expansion and contraction of the container contents. When a can or other inwardly flexible container is utilized, a positive pressure within the container, relative to the external pressure, can be maintained with a gas charge.

Description

BACKROUND OF THE INVENTION

[0001] 1. Description of Prior Art

[0002] Containers filled with freezable liquid for use as refrigeration or temporary cooling, are available at most retail outlets today. Described as “reusable ice substitutes”, they are either soft flexible plastic envelopes or semi-rigid plastic blocks. The soft plastic envelopes are weak and insecure and can carry biological contaminants. The plastic block has a thick plastic container which insulates the frozen liquid from the space to be cooled, bulges and deforms when frozen, and can carry biological contaminants on the plastic exterior.

[0003] 2. Objects and Advantages

[0004] Containers that are commonly used for liquid storage, are not normally suited to the storage of a freezable liquid. The containers burst or deform from the expansion and contraction of the contents. The object of this invention is to adapt the commonly used containers for the storage of freezable liquids for use in temporary cooling or refrigeration. The primary advantage is that normal manufacturing, filling, and sealing methods and machinery can be utilized. Secondary advantages include: convenient shapes, increased durability of the exterior, increased heat transfer rates, and resistance to biological contaminants.

DRAWINGS

[0005] FIG. 1-Main Embodiment

[0006] FIG. 2-Alternate Embodiment

[0007] FIG. 3-Compressible Member

REFERENCE NUMERALS IN DRAWINGS

[0008] 1 Container

[0009] 2 Lid

[0010] 3 Freezable liquid

[0011] 4 Gas space

[0012] 5 Compressible Member

SUMMARY OF THE INVENTION

[0013] DESCRIPTION AND OPERATION

[0014] Main Embodiment

[0015] A container (1) filled with a freezable liquid (3) and sealed with a lid (2). The container (1) of the invention is a common two piece aluminum can. Normally such containers are unsuitable for holding a freezable mixture due to the expansion of the freezing mixture causing the deformation or rupture of said container. By using a 20% propylene glycol and water mixture(3) and a gas space(4), the container is protected from deformation and rupture at normal home freezer and deep freezer temperatures. A fully soluble two component solution such as a 20% mixture of propylene glycol and water forms a solid-liquid mixture or ice slurry when the temperature of the can is lowered in a freezer unit. The ice slurry forms as solid (frozen) water separates from the liquid mixture. The remaining liquid water becomes more concentrated with propylene glycol. If the temperature is lowered further, more solid water separates out from the mixture until the remaining liquid mixture reaches its eutectic mixture. When the eutectic mixture is reached and the temperature is lowered further, the remaining propylene glycol and water will solidify and rupture the can. Since the depression of the freezing point of the mixture is below the cooling capabilities and normal settings of home freezer units, the eutectic mixture and associated temperature are not reached. The can contains a solid-liquid mixture at the minimum temperature of intended use. A gas charge, normally nitrogen or carbon dioxide should be inserted into the container prior to the installation of the lid (2) to maintain a positive internal pressure relative to the exterior pressure through out the intended operating temperature range and environment. This gas charge procedure is typical in most canning/packing operations of carbonated beverages and canned fruit juices.

[0016] Alternative Embodiments

[0017] Alternative to the use of a fully soluble two component solution and gas space as referenced above, a compressible member(5), may be inserted into the container (1) with the liquid (3) to protect the container (1) from the expansion of the freezing liquid. Said compressible member (5) would be located within the container(1) in such a manner to prevent the freezing liquid (3) from pressing upon opposing interior walls of the container and deforming or rupturing the container (1). In the cylindrical cross section of the container (1), a centrally located core with at least three radial protrusions installed lengthwise in the container would effectively protect the container (1). A gas charge, normally nitrogen or carbon dioxide should be inserted into the container (1) prior to the installation of the lid (2) to maintain a positive internal pressure relative to the exterior pressure through out the intended operating temperature range and environment. This gas charge procedure is typical in most canning/packing operations of carbonated beverages and canned fruit juices.

[0018] Alternative to the use of a two piece aluminum can; a glass bottle, plastic bottle, or three piece steel can may be used as a container (1) with a suitable lid (2).

[0019] Container Uses

[0020] The container is suitable for use as an ice substitute for temporary cooling or refrigeration. In addition to the advantages achieved through the use of containers filled with freezable liquid over using water/ice coolant which have been found in the prior art, use of containers as prescribed by the present invention, provide for reduced production costs through the use of normal manufacturing, filling and sealing methods and machinery, easier storage in existing coolers which are designed to hold similar packaging, increased cooling effectiveness through higher heat transfer rates, increased durability, and a sealed bio-resistant exterior.

Claims

1. A container for holding a freezable liquid, said container comprising:

a shell adapted to receive and contain the liquid,

said liquid comprising a solution formulated such that a solid-liquid mixture is formed at the minimum intended operating temperature,

said container having a gas space sufficient to allow for the expansion and contraction of said liquid,

A lid suitably adapted to close and seal said shell,

Said container for use in refrigeration or temporary cooling.

A container above; said container having a means to maintain a positive internal pressure relative to the exterior pressure through out the intended operating temperature range and environment.

A container above; said shell comprising a metal can.

A container above; said shell comprising a bottle.

2. A container for holding a freezable liquid, said container comprising:

a shell adapted to receive and contain the liquid and a compressible means,

said compressible means placed within said shell to absorb the expansion and contraction of the liquid through out the intended temperature range,

A lid suitably adapted to close and seal said shell,

Said container for use in refrigeration or temporary cooling.

A container above; said compressible means comprising a gas filled bladder.

A container above; said compressible means comprising a multi-celled foam bladder.

A container above; said container having a means to maintain a positive internal pressure relative to the exterior pressure through out the intended operating temperature range and environment.

A container above; said shell comprising a metal can.

A container above; said shell comprising a bottle.