CN102308163A

CN102308163A - A self cooling container and a cooling device

Info

Publication number: CN102308163A
Application number: CN2009801562126A
Authority: CN
Inventors: J·N·拉斯穆森; 斯提恩·维斯博格; 马丁·葛斯·安德森
Original assignee: Carlsberg Breweries AS
Current assignee: Carlsberg Breweries AS
Priority date: 2008-12-09
Filing date: 2009-12-09
Publication date: 2012-01-04
Anticipated expiration: 2029-12-09
Also published as: AU2009324381A1; US20110271692A1; US20110259020A1; IL213332A; IL213332A0; EA022570B1; ZA201104225B; JP5551180B2; CN102308164B; ZA201104226B; EP2376850A1; EA020975B1; EP2376851A1; WO2010066772A1; EA201190065A1; CN102308163B; JP2012511690A; WO2010066775A1; IL213331A0; AU2009324384A1

Abstract

The present invention relates to a container for storing a beverage, the container having a container body and a closure and defining an inner chamber, the inner chamber defining an inner volume and including a specific volume of the beverage. The container further includes a cooling device having a housing defining a housing volume. The cooling device includes at least two separate, substantially non-toxic reactants causing an entropy-increasing reaction producing substantially non-toxic products in a stoichiometric number. The at least two separate substantially non- toxic reactants initially being included in the cooling device are separated from one another and causing an entropy-increasing reaction and a heat reduction of the beverage of at least 50 Joules/ml beverage. The cooling device further includes an actuator for initiating the reaction between the at least two separate, substantially non-toxic reactants.

Description

From cold containers and cooling device

Technical field

Beverage can and beverage bottle are used to store the drinks in decades, soda for example, and this comprises beer, cider, light sparkling wine, carbonic acid mineral water or various soft drink; Perhaps noncarbonated beverage products; For example non-carbonated water, milk product is milk and sour milk for example, fruit wine or various fruit juice.Container for drink, for example bottle, particularly jar are typically designed to the beverage that is used for the volume of splendid attire, and use minimum material, still guarantee the mechanical stability of container for drink simultaneously.

Most of beverages have the best consumption temperature that significantly is lower than typical storage temperature.Container for drink at room temperature is stored in supermarket, restaurant, homestead and the storage facilities usually.Consumption temperature best for most of beverages is approximately 5 ℃, therefore need before beverage, cool off.Typically, before beverage, just container for drink is placed in refrigerator or refrigerating chamber or the similar site well, so that beverage can be about 5 ℃ temperature before drinking.Therefore, hope to have can be used for drinking beverage rapidly people must with they the beverage long term storage at low temperatures.Many commercial undertakings for example bar, restaurant, supermarket and gas station need make refrigerator constantly turn round can satisfy the needs of consumer to cold drink.This can regard the waste to energy as, because beverage can possibly must be stored for a long time before drinking.In current context, should be mentioned that applicant company has been equipped with annual about 17000 refrigerators alone and has been used to provide cold drink, and each refrigerator typically has the power of about 200W.

Just as described above, to come the cooled beverage container be very slowly and cause the waste of energy through refrigeration.Some people may the time of weak point reduces the needed time of cooling through in remarkable subfreezing refrigerator of temperature or similar storage facilities, storing container for drink.Yet this has caused potential safety hazard, if because container for drink does not take out from refrigerator before it is freezing well, may cause beverage can to break owing to the expansion of beverage.Perhaps, can use keg ice and water to come more effectively cooled beverage, because the thermal conductivity of water is significantly higher than the thermal conductivity of air.

It will be favourable that container for drink itself comprises cooling element, can not long ago start said cooling element beverage is cooled to suitable low temperature at beverage.In the beverage packaging field; About the particular technology of beverage can cooling and self-cooling beverage jar is described US4403567, US7117684, EP0498428, US2882691, GB2384846, WO2008000271, GB2261501, US4209413, U S4273667, US4303121, US4470917, US4689164, U S20080178865, JP2003207243, JP2000265165, US3309890, WO8502009, US3229478, US4599872, US4669273, WO2000077463, EP87859 (US4470917 of the same clan), US4277357, DE3024856, US5261241 (EP0498428 of the same clan), GB 1596076, US6558434, WO02085748, US4993239, US4759191, US4752310, WO0110738, EP1746365, US7117684, EP0498428, US4784678, US2746265, US1897723, US2882691, GB2384846, US4802343, US4993237, WO2008000271, GB2261501, US20080178865, JP2003207243, US3309890, US3229478, WO2000077463, WO02085748 in not terminating in following document.

Above-mentioned document description through chemical reaction, perhaps produce the technology of cooling through vaporization.For using aforesaid these technology, can instant cooling is provided and avoid beverage to pre-cooled demand with to the consumption of electric energy.In above technology, cooling device is compared very big with container for drink.In other words, must big container for drink be provided, cause waste material and capacity in order to hold a spot of beverage.Therefore, need in container for drink, produce and much more more cool off and/or take the still less cooling device in space.

Target of the present invention provides a kind of can be used in the container for drink so that the temperature of beverage is reduced to about 5 ℃ cooling device from about 22 ℃, eliminates thus or at least significantly reduces the needs to electronic external refrigeration.

Further advantage according to the present invention is that container for drink and cooling device can store long period in for example several weeks, some months or several years, before will beverage soon till, start cooling device and beverage is cooled to suitable consumption temperature this moment.Therefore further object of the present invention provides the starter that starts cooling device before will beverage soon.

From facing DETAILED DESCRIPTION OF THE PREFERRED down according to cooling device of the present invention; Above-mentioned target and many other targets will become obvious; And obtain above-mentioned target and many other targets through a kind of container that is used to store the drinks according to a first aspect of the invention; Said container has container body and seals and confirmed that interior compartment, interior compartment confirmed internal capacity and comprised the beverage of specified quantitative

Said container further comprises the cooling device with shell, and this shell has been confirmed to be no more than the beverage of about 33% specified quantitative and further has been no more than the shell capacity of about 25% internal capacity,

Cooling device comprise at least two kinds of separation, nontoxic reactant basically;, reactant causes that irreversible entropy increases reaction when reacting each other; Thereby the stoichiometric number with than reactant is big at least 3 times; Preferably at least 4 times, more preferably at least 5 times stoichiometric number generates nontoxic basically product

Said at least two kinds of separation, nontoxic basically reactant is included in the cooling device with being separated from each other at first, and when increasing at irreversible entropy when reacting to each other in the reaction, is being no more than 5 minutes; Preferably be no more than 3 minutes, in 2 minutes time, cause that beverage heat energy reduces at least 50 joules/milliliters of beverages; Preferred at least 70 joules/milliliters of beverages; 70-85 joule/milliliter beverage for example, preferably approximately 80-85 joule/milliliter beverage and

Cooling device further comprise starter be used to cause said at least two kinds of separation, the reaction between the nontoxic reactant basically.

Said container typically is the small container that hope is used for once drinking, and its capacity is about 20-75 centilitre beverage.Yet in some cases, possibly for example can hold the big bottle or the vessel of one liter of beverage, or can hold the keg of five liters or more beverages at the bigger situation of the container use cooling device of making decision.In this case, cooling device is used for beverage being cooled to suitable consumption temperature in the first time immediately during beverage, and can beverage be kept in the refrigerator so that later drinking after this.Container is preferably made of aluminum, and aluminium is easy to make, promptly through drawing, and can be through the container fusion is reused it with eco-friendly mode.Perhaps, can with polymeric material for example the manufacturing of PET plastics can flatten the container that maybe can not flatten.Or container can be the conventional glass bottle.

The cooling device preferred immobilization for example is fixed on the lid of container bottom or container to container for drink.Cooling device should have shell and be used to separate beverage and reactant.Cooling device should not occupy the too most of of container for drink internal capacity, because too big cooling device will cause container for drink can only hold more a spot of beverage.This will seek survival and produce the beverage that the perhaps more container for drink of bigger container for drink is used to hold isodose; These two kinds are chosen on ecological and the economics all is worthless; Because use more materials to make container, and need more the storage and transport capacity.Acceptable compromise between the quantities of beverage that has expected the cooling device shell capacity that occupies about 33% quantities of beverage and the total internal capacity of 25% container for drink and will be cooling effectiveness and held.Too little cooling device can not make beverage be cooled to enough low temperature.

Two kinds of reactants that in cooling device, use should separately be deposited before starting cooling device, and when starting cooling device, two kinds of reactants are reacted to each other.Reactant can for example be deposited through separating in the cabin that is contained in two separation, perhaps provides coating to prevent that any reaction from beginning until startup to two kinds of reactants or one of them.Two kinds of reactants should be nontoxic basically, and nontoxic being to be understood that is expression: if fatal with the relevant consumption that in cooling device, the uses right and wrong that meet accident when drinking.Also expect and have two or more reactants, for example three kinds or more reactants.Reaction should be that entropy increases reaction, and promptly the quantity of product should be greater than the quantity of reactant.In body series, unexpected find to generate the product stoichiometric number than reactant stoichiometric number greatly at least 3, preferred 4 or more, preferred 5 entropy increases reaction smaller stoichiometric number is produced more effective cooling.Stoichiometric number is that product quantity is divided by the relation between the reactant quantity.Reaction should be irreversible, is interpreted as that promptly expression can have will to react reverse under the situation of significant difficulties, and this reverse possibly cause reheating beverage.Should the temperature of beverage be reduced at least 15 ℃ or preferred 20 ℃, for the beverage based on water, this is corresponding to the approximately beverage heat energy reduction of every liter of beverage of 50-85 joule.Any lower temperature or heat energy reduce can not produce enough coolings to beverage, thus when chemical reaction finish and beverage when being about to drunk beverage will still be inappropriate warm.Preferably, the reactant heat energy that chemical reaction produces 120-240J/ml reduces, and most preferably the reactant heat energy of 240-330J/ml reduces.This cooling effectiveness is similar to ice is dissolved into the cooling effectiveness that water reaches.Chemical reaction preferably should be fast as far as possible, yet still will hold surplus a period of time to avoid near cooling device, forming ice for thermal energy conduction.Expected preferably and be no more than in 5 minutes, or more preferably no more than the reduction of accomplishing heat energy or temperature in 2 minutes.This is an acceptable time section before beverage is drunk.Can notice that in this context soda typically allows cooling device that lower temperature can be arranged than noncarbonated beverage products, because the CO that in beverage, rises ₂The formation of bubble will increase the stirring amount to beverage, thereby make temperature in beverage, reach balance sooner.

In addition, term is irreversible is appreciated that and the non-reversible agreement of word.The term irreversible reaction is appreciated that for example pressure, temperature etc. form the reaction of reversible chemical balance for ratio that expression product and reactant can be through simple change reactant and/or product and/or external condition.The instance of irreversible reaction comprises the wherein reaction of product formation complex compound, sediment or gas.Form the chemical reaction of balance, for example relate to salt be dissolved in liquid for example in the water and salt dissociate into the reaction of ion, will when forward reaction carries out with equal speed with backward reaction, stop naturally.For example, in most solution or mixture, react the restriction that receives reactant solubility.More than the irreversible reaction of definition will continue to carry out till all reactants have all reacted.

Publication application DE 21 50 305 A1 of Germany have described a kind of method that is used for cooled beverage bottle or jar.A kind of coolant jacket that contains soluble-salt is comprised in bottle or the jar.Through in the water that salt is dissolved in specified quantitative and through utilizing negative dissolution enthalpy to reach cooling effect.Yet, through utilizing negative dissolution enthalpy set forth above, suppose that initial temperature is 21 ℃, the minimum temperature that is reached is about 12 ℃.The neither one instance reaches about 5 ℃ temperature required among the embodiment.Heat energy through calculating beverage reduces (Q=c*m* Δ T), and the heat energy that the instance among the embodiment has only reached about 15-38J/ml beverage reduces.All instances among the embodiment also require reaction-ure mixture to surpass 33% quantities of beverage.In addition, propose in the above-mentioned document respond and all be considered to reversible because reaction can reverse through from solution, removing to anhydrate simply.Anhydrate through removing, the salt ion of dissolving will combine and form original reactant again.

German utility model DE 299 11 156U1 disclose a kind of beverage can with external refrigeration element.This cooling element can start two kinds of chemicals that are placed in one with mixing through exerting pressure.The document has only been described single chemical reaction; It comprises that potassium chloride, potassium nitrate and chlorination ammonium salt are dissolved in and dissociate in water; Wherein point out cooling element reached 0 ℃ or even-16 ℃ temperature, although the initial temperature of cooling element is not described in the specification.The size that specification is not explained cooling element yet and adopted and the consumption of beverage and reactant.

It is known that many irreversible entropys increase reaction itself.In following internet URL, found an instance:

http://web.archive.org/web/20071129232734/http://chemed.chem.purdue.edu/dem o/demosheets/5.1.html。Above-mentioned list of references has been pointed out following reaction:

Ba(OH) ₂·8H ₂O(s)+2NH ₄SCN(s)→Ba(SCN) ₂+2NH ₃(g)+10H ₂O(l)

Above-mentioned list of references points out that above reaction is that the entropy that absorbs heat increases reaction, and produces the temperature of the freezing point that is lower than water.Yet, do not indicate above-mentioned reaction and can be used for and the relevant field of beverage cooling, there is not any information of the relevant reactant quantity that need use yet, do not use the starter initiation reaction yet.

Different with most of solution reactions, should be noted that above reaction can not need add any aqueous water and causes.Some other irreversible entropy increases reaction only to be needed a water and causes.

It is not preferred in body series, using ammonia, poisonous because ammonia can be considered to, and just in case it leaks in the beverage, can make beverage produce very uncomfortable taste.Preferably, all reactant and product also should have neutral taste under the situation of accidental release in the beverage except nontoxic.

Use the chemical reaction between the starter initiation reaction thing, reactant can comprise that pressure transmitter is used for pressure rising or pressure reduction are sent to cooling device with initiation reaction in container for drink.Pressure reduces typically acquisition when container for drink is opened, and therefore can cooling device is arranged to when container for drink is opened, start, and perhaps can use self-starter with initiating chamical reaction.Self-starter can constitute line or rod, and perhaps the outside UNICOM with container for drink is used to start chemical reaction.Perhaps, can self-starter be mounted to relevant with container closure when opening with convenient container, initiating chamical reaction.Can cause through two kinds of reactants are in contact with one another, promptly through in different cabins, reactant being provided, the cabin by can be damaged, soluble or rupturable film provides, can make breakage of thin film applied, dissolve or break through starter.For example can make film breaks through using piercing elements.Product and reactant should be nontoxic basically.

A kind of starter is disclosed in above-mentioned DE2150305A1, and this starter uses sharp object to penetrate the film that separates two kinds of chemicals.US2008/0016882 has shown the another embodiment of starter, and this starter is separated two kinds of chemicals through the film or the ductule that can peel off.

The amount of product should not surpass the amount of reactant basically, because if not, cooling device is blasted in chemical reaction process.3 to 5% safety margin can be provided, perhaps tap.The minimizing of amount also should be avoided.Preferably reactant is provided, because particle is easy to handle and mix as particle.Can be particle provides coating to prevent reaction.This coating can be dissolved in start-up course, and for example liquid gets in the reaction cabin and dissolves coating.This liquid can be called as activator, and can constitute for example water, propane diols or alcohol.Further expect and can use the reaction controlling agent, the retarding agent that for example optional absorption controlling agent or temperature are set perhaps can use catalyst to increase reaction speed to reduce reaction speed.Also expect container and can comprise that induction element is used for beverage flow is led cooling device to improve cooling effectiveness.Cooling device of the present invention can also be used in the so-called party keg, and this is a kind of beverage keg with internal pressurization and distribution capacity.Like this, relatively large party keg needn't carry out pre-cooled before use.Cooling device perhaps can be provided as a kind of gadget that in container, can move freely.This possibly be fit to vial, and vial is difficult to the cooling device that provides fixing.

According to the another embodiment of first aspect present invention, two kinds of independent reactants comprise one or more hydrated salts.Known hydrated salt produces entropy through the release hydrone and increases reaction.In body series, accomplished confirmation to notion through the experiment of the chamber that experimentizes.In above-mentioned breadboard experiment, set up significant energy variation through two kinds of salt being reacted and the crystallization water being released to free water, these two kinds of salt all have the crystallization water molecule of the big quantity that joins in the molecular structure separately.In laboratory experiment of the present invention, attempted following chemical reaction: Na ₂SO ₄.10H ₂O+CaCl ₂6H ₂O → 2NaCl+CaSO ₄.2H ₂O+14H ₂O, the reaction equation left side comprises two molecules altogether, and the reaction equation right side comprises 20 molecules.Therefore the entropy key element-T Δ S becomes quite big, because Δ S is corresponding to k * In20/2.

Above-mentioned chemical reaction produces simple salt in parget water solution.Therefore all the components in visible this reaction all is nontoxic with free of contamination.In experiment of the present invention, the Na of 64 grams ₂SO ₄CaCl with 34 grams ₂, reaction has produced 20 ℃ cooling, and this cooling is kept stable above 2 hours.With the sample Beer Production is the total capacity with 450ml, comprising beer and the 100ml bottle that contains two kinds of reactants of 330ml.After opening jar, reactant is reacted, cause the remarkable cooling of beer in the beverage can.

According to the present invention, cooling device is provided based on the chemical reaction between two kinds or the more reactants.Chemical reaction is the spontaneous irreversible endothermic reaction that increase drove by total entropy.Reaction is absorbed heat from surrounding environment, causes the thermodynamics potential energy of system to increase.Δ H be enthalpy change and for the endothermic reaction on the occasion of.The spontaneity of chemical reaction can be confirmed by the variation of Gibbs free energy Δ G.

Δ G=Δ H-T* Δ S under steady temperature.The Δ G of reaction is that negative value shows that reaction is spontaneous.In order to satisfy the requirement of the spontaneous endothermic reaction, the total entropy of reaction increases the increase Δ H that Δ S must overcome enthalpy.

Another embodiment according to first aspect present invention; At least two kinds of separation, nontoxic basically reactant comprises first reactant, second reactant and the 3rd reactant; Second exists as the particle that separates with the 3rd reactant, and first reactant applies as the coating of the particle that covers the second and the 3rd reactant.Through applying the second and the 3rd reactant, can guarantee that three kinds of reactants keep separating, even three kinds of reactants mix, because prevented that through the 3rd reactant the second and the 3rd reactant from reacting with first reactant.For example can avoid like this because coating can be protected the second and the 3rd reactant, instead would not being initiated because the accident of the chemical reaction that vibration perhaps causes under the situation in a spot of water entering reaction cabin causes.Therefore preferred first reactant that uses because non-reaction coating will constitute the waste of capacity, and needs bigger cooling device as coating.

According to the another embodiment of first aspect present invention, the second and the 3rd reactant produces the first irreversible entropy and increases reaction, generate intermediate reaction product, and the 3rd reactant and intermediate reaction product reacts, and produce the second irreversible entropy and increase reaction.Poisonous or make the people unhappy at intermediate reaction product; For example have under the situation of niff, the negative effect of intermediate reaction product can be avoided through the end product that itself and the 3rd reactant is reacted and produce safety and do not have any shortcoming of intermediate reaction product.

According to the another embodiment of first aspect present invention, intermediate product is a gas, and the second irreversible entropy increases reacting generating complex or sediment.For example, intermediate product can be a gas poisonous or odorous, and it possibly not be suitable in the body series.Then, this gas can be stabilized to form safe complex compound or deposition through reacting with the 3rd reactant.

According to the another embodiment of first aspect present invention, first reactant can pass through water or organic solvent dissolution, and organic solvent is preferably for example water of liquid, prevents that through coating first, second and the 3rd reactant from reacting.When causing, the water that can be partly dissolved the q.s of coating is at least introduced cooling device, makes three kinds of all reactants dissolved thus and reacts to each other.

According to the another embodiment of first aspect present invention, cooling device is contained in internal tank.For the cooling energy of guaranteeing high percentage be used for cooled beverage can loss to environment, cooling device can be positioned at container, preferably directly contacts with beverage, is more preferably surrounded by beverage fully.

Reactant

Cooling device according to the present invention comprise at least two kinds of separation, nontoxic reactant basically; Irreversible entropy takes place and increases reaction in reactant each other; With than at least 3 times greatly of the stoichiometric numbers of reactant, preferred 4 times, more preferably 5 times stoichiometric number generates nontoxic basically product.

Reactant is preferably solid, but expects solid-liquid, liquid-liquid and solid-solid-liquid reaction thing in body series, promptly under the situation of the cooling device of implementing to be used for container for drink, also is correlated with.Existence such as solid reactant can be used as powder, particle, chip.

Reactant and product are nontoxic basically.

Under situation of the present invention, nontoxicly should not be construed as the literal meaning, but should be interpreted as the time with quantity used according to the invention and form picked-up, be applicable to any nonfatal reactant or product.Suitable reactant forms such product: a) it is soluble in the crystallization water of release or b) it is insoluble in the crystallization water of release.Below enumerated and be prone to dissolve and the salt product that is difficult for dissolving:

Other suitable reactant is following:

NaAl(SO ₄)2，12H ₂O

NH ₄Al(SO ₄)2，12H ₂O

LiOH?H ₂O

Na ₂SiO ₃

Na ₂SiO ₃.xH ₂O，x＝5-9

Na ₂O.xSiO ₂?x＝3-5

Na ₄SiO ₄

Na ₆Si ₂O7

Li ₂SiO ₃

Li ₄SiO ₄

Other reactant and reactant group are set forth in the following table 1 and table 2:

The salt product is preferably and is prone to molten salt, although the product that for poisonous salt product, is difficult for dissolving is preferred so that they are nontoxic basically.

Increase in the course of reaction at irreversible entropy; The variation of volume is no more than ± and 5%, preferably be no more than ± 4%, more preferably no more than ± 3%; Cooling device is led in the atmosphere, can be discharged in the atmosphere so that increase any too much gas that produces in the reaction at irreversible entropy.

Suitable solid reactant according to the present invention is hydrated salt and hydration acid.Hydrated salt according to the present invention is organic hydrated salt or inorganic hydrated salt, preferred inorganic hydrated salt.Some salt below estimating only selective absorption occurs being used to control with trace.Suitable organic hydrated salt can comprise eight hydration picric acid magnesium Mg (C ₆H ₂(NO ₂) ₃O) ₂8H ₂O, six hydration picric acid strontium Sr (C ₆H ₂(NO ₂) ₃O) ₂6H ₂O, four hydration potassium sodium tartrate KNaC ₄H ₄O ₆4H ₂O, six hydration sodium succinate Na (CH ₂) ₂(COO) ₂6H ₂O, a hydration Schweinfurt green Cu (CH ₃COO) ₂H ₂O etc.Suitable inorganic hydrated salt is alkali-metal hydrated salt according to the present invention; Alkali metal is lithium, sodium and potassium for example; And the hydrated salt of alkaline-earth metal, alkaline-earth metal is beryllium, calcium, strontium and barium for example, and the hydrated salt of transition metal; Transition metal is chromium, manganese, iron, cobalt, nickel, copper and zinc for example, and hydrated aluminum salt and hydration lanthanum salt.Suitable alkali metal hydrated salt for example is LiNO ₃3H ₂O, Na ₂SO ₄10H ₂O (saltcake), Na ₂SO ₄7H ₂O, Na ₂CO ₃10H ₂O, Na ₂CO ₃7H ₂O, Na ₃PO ₄12H ₂O, Na ₂HPO ₄12H ₂O, Na ₄P ₂O ₇10H ₂O, Na ₂H ₂P ₂O ₇6H ₂O, NaBO ₃4H ₂O, Na ₂B ₄O ₇10H ₂O, NaClO ₄5H ₂O, Na ₂SO ₃7H ₂O, Na ₂S ₂O ₃5H ₂O, NaBr2H ₂O, Na ₂S ₂O ₆6H ₂O, K ₃PO ₄3H ₂O etc., preferred suitable alkaline-earth metal hydrated salt for example is MgCl ₂6H ₂O, MgBr ₂6H ₂O, MgSO ₄7H ₂O, Mg (NO ₃) ₂6H ₂O, CaCl ₂6H ₂O, CaBr ₂6H ₂O, Ca (NO ₃) ₂4H ₂O, Sr (NO ₃) ₂4H ₂O, Sr (OH) ₂8H ₂O, SrBr ₂6H ₂O, SrCl ₂6H ₂O, Srl ₂6H ₂O, BaBr ₂2H ₂O, BaCl ₂2H ₂O, Ba (OH) ₂8H ₂O, Ba (BrO ₃) ₂H ₂O, Ba (ClO ₃) ₂H ₂O etc., suitable transition metal hydrated salt for example is CrK (SO ₄) ₂12H ₂O, MnSO ₄7H ₂O, MnSO ₄5H ₂O, MnSO ₄H ₂O, FeBr ₂6H ₂O, FeBr ₃6H ₂O, FeCl ₂4H ₂O, FeCl ₃6H ₂O, Fe (NO ₃) ₃9H ₂O, FeSO ₄7H ₂O, Fe (NH ₂) ₂(SO ₄) ₂6H ₂O, FeNH ₄(SO ₄) ₂12H ₂O, CoBr ₂6H ₂O, CoCl ₂6H ₂O, NiSO ₄6H ₂O, NiSO ₄7H ₂O, Cu (NO ₃) ₂6H ₂O, Cu (NO ₃) ₂3H ₂O, CuSO ₄5H ₂O, Zn (NO ₃) ₂6H ₂O, Zn SO ₄6H ₂O, Zn SO ₄7H ₂O etc., suitable hydrated aluminum salt for example is Al ₂(SO ₄) ₃18H ₂O, AlNH ₄(SO ₄) ₂12H ₂O, AlBr ₃6H ₂O, AlBr ₃15H ₂O, AlK (SO ₄) ₂12H ₂O, Al (NO ₃) ₃9H ₂O, AlCl ₃6H ₂O etc.Suitable hydration lanthanum salt is LaCl ₃7H ₂O.Suitable hydration acid is hydration organic acid, for example monohydrate potassium according to the present invention.

Hydrated salt or hydration acid preferred and another kind of hydrated salt or hydration acid reaction, however also can react with the compound of any non-hydrated, thus drive the endothermic reaction of contributing as long as discharge the crystallization water about entropy with q.s.

Suitable non-hydrated compound can comprise acid, alcohol, organic compound and non-hydrated salt according to the present invention.Acid can be citric acid, fumaric acid, maleic acid, malonic acid, formic acid, acetate, glacial acetic acid etc.Alcohol can be mannitol, resorcinol etc.Organic compound can be a urea etc.According to non-hydrated salt of the present invention can for example be anhydrous alkali metal salt, anhydrous alkali earth metal salt, anhydrous transition metal salt, anhydrous aluminium salt and anhydrous pink salt and anhydrous lead salt and anhydrous ammonia salt and anhydrous organic salt.Suitable anhydrous alkali metal hydrated salt for example is NaClO ₃, NaCrO ₄, NaNO ₃, K ₂S ₂O ₅, K ₂SO ₄, K ₂S ₂O ₆, K ₂S ₂O ₃, KBrO ₃, KCl, KClO ₃, KlO ₃, K ₂Cr ₂O ₇, KNO ₃, KClO ₄, KMnO ₄, CsCl etc.Suitable anhydrous alkali earth metal salt for example is CaCl ₂, Ca (NO ₃) ₂, Ba (BrO ₃) ₂, SrCO ₃, (NH ₄) ₂Ce (NO ₃) ₆Deng.Suitable anhydrous transition metal salt for example is NiSO ₄, Cu (NO ₃) ₂Suitable anhydrous aluminium salt is Al ₂(SO ₄) ₃Deng.Suitable anhydrous pink salt is SnI ₂(s), SnI ₄(g) etc.Suitable anhydrous lead salt is PbBr ₂, Pb (NO ₃) ₂Deng.Suitable ammonia salt is NH ₄SCN, NH ₄NO ₃, NH ₄Cl, (NH ₄) ₂Cr ₂O ₇Deng.Suitable anhydrous organic salt for example is hydantoic acid, formic acid urea, urea nitrate and urea oxalate etc.

The anhydrous form that also expects the above any hydrated salt enumerated or hydration acid can be used as the compound of non-hydrated in reaction according to the present invention.

According to liquid reactants of the present invention can be liquid salt, for example PBr ₃, SCl ₂, SnCl ₄, TiCl ₄, VCl ₄, perhaps liquid organic compound CH for example ₂CL ₂Deng.

The reactant quantity of participating in reaction is at least 2.Some embodiment can use 3 kinds or more reactant.

A kind of possibly reaction the according to the present invention is:

·Na ₂SO ₄·10H ₂O(s)+CaCl ₂·6H ₂O(s)(s)→2Na ⁺(aq)+2Cl ^-(aq)+CaSO ₄·2H ₂O(s)+14H ₂O(I)

ΔH＝2*(-240kJ/mol)+2*(-167kJ/mol)+(2023kJ/mol)+14*(-286kJ/mol)-((-4327kJ/mol)+(-2608kJ/mol))＝94kJ/mol

ΔS＝2*(58J/K*mol)+2*(57J/K*mol)+(194J/K*mol)+14*(70J/K*mol)-((592J/K*mol)+(365J/K*mol))＝2.361kJ/K*mol

At room temperature (T=298K)

ΔG＝ΔH-T*ΔS＝94kJ/mol-298K*0.447kJ/K*mol＝-39kJ/mol

Negative value shows that reaction is spontaneous.

Product is 19/2=9.5 with the ratio of the stoichiometric number of reactant: 1.

Possibly react according to another kind of the present invention and to be:

·Na ₂SO ₄·10H ₂O(s)+Ba(OH) ₂·8H ₂O(s)→BaSO ₄(s)+2Na ⁺(aq)+2OH ⁺(aq)+18H ₂O(I)

ΔH＝-1473kJ/mol+2*(-240kJ/mol)+2*(-230kJ/mol)+18*(-286kJ/mol)-(-4327kJ/mol+(-3342kJ/mol))＝108kJ/mol

Reacting at room temperature hereto, the Δ G of (T=298K) can directly be calculated as:

ΔG＝-1362kJ/mol+2*(-262kJ/mol)+2*(-157kJ/mol)+18*(-237kJ/mol)-(-3647kJ/mol+(-2793kJ/mol))＝-26kJ/mol

Therefore this reaction is spontaneous.Product is 23/2=11.5 with the ratio of the stoichiometric number of reactant: 1.Another possible reaction is according to the present invention:

·Ba(OH) ₂·8H ₂O(s)+2NH ₄SCN(s)→Ba(SCN) ₂+2NH ₃(g)+10H ₂O(I)

ΔH＝102kJ/mol

ΔS?＝0.495kJ/K*mol

ΔG＝ΔH-T*ΔS＝102kJ/mol-298K*0.495kJ/K*mol＝-45.5kJ/mol

This reaction is spontaneous.Product is 13/3=4.33 with the ratio of the stoichiometric number of reactant: 1.

The instance of other reaction is:

a)Ba(OH ₂)·8H ₂O(s)+2NH ₄NO3(s)→Ba(NO3) ₂+2NH ₃(g)+10H ₂O(I)

b)Ba(OH) ₂·8H ₂O(s)+2NH ₄Cl(s)→BaCl ₂+2NH ₃(g)+10H ₂O(I)

Additive and activator

Reaction preferably through add polar solvent for example water, glycerine, ethanol, propane diols etc. start, but reaction also can start through the haptoreaction thing simply.

In some reactions, reactant is nonreactive in the time of can or mixing in contact.Can use appropriate catalyst that reaction can be taken place for these reactions.

In certain embodiments, solid reactant is applied or with the solid reactant microcapsules of packing into.Suitable external skin is heat-resisting, but when contacting with the activation fluid that can dissolve coating, can dissolve.Suitable coating compounds comprises carbohydrate, for example starch and cellulose, and polyethers is polyethylene glycol (PEG) for example, also has shellac or plastics.Suitable activation fluid comprises water, alcohol, organic solvent, acid.Select scheme as replacing of coating, solid reactant also can be embedded in solubility gel or the foam.

Through using coating, can reactant be carried out premixed so that increase reaction rate.In addition, the coating of reactant has prevented the too early startup of the cooling effect that condition of storage or heat treatment owing to beverage cause.In certain embodiments, a part of reaction group scribbles thicker coating so that slow down reaction and prolong the cooling that reaction is provided.In other embodiment, can perhaps can different coatings be applied on a plurality of parts of different reactants or reaction group being applied on the reactant more than a kind of coating.Replace coating, can also reactant be suspended in non-aqueous fluid for example in the organic solvent.

Can use the retarding agent of temperature setting with suitable melt temperature for the present invention.Suitable melt temperature can be such temperature: the retarding agent that temperature is set is in the temperature that is higher than freezing point or to treat under any desirable temperature that cooled beverage produces required cooling be liquid, thereby and solidifies retarded reaction when below freezing and freeze in container for drink so that prevent beverage along with temperature is reduced to.According to the present invention; The retarding agent that temperature is set can be the appropriate melt temperature with the freezing temperature that is higher than water, the temperature between 0 ℃ to+10 ℃ for example, for example 2 ℃ to 6 ℃; Any compound so that the solid form of the retarding agent that temperature is set reduces the reaction rate of reaction.The instance of the retarding agent that suitable temperature is set comprises polyethylene glycol, aliphatic acid or polymer.

Reactant can be for the particle form of various sizes so that reaction rate adapts to concrete the application.This particle also can apply as stated.

For some reactions, preferably with solvent for example the impurity of glycerine or trace add, cover remaining reactants with the formation that prevents the product crystal, and then suppressed further reaction.Can use adsorbent with adsorbed product optionally, so that control reaction rate and/or guarantee complete reaction.For some reactions, the liquid activating agent that is used for initiation reaction also can be served as selection absorption controlling agent with the control reaction.

In the reaction that produces acidity or alkaline product, can contain pH and regulate buffer.This buffer can also be used to promote product to dissolve with gas form.

Expecting one or more reactants can be formed by precursor in position.After cooling device was placed container, this possibly be favourable for too early startup that prevents cooling device or pretrigger.

Further expect under the situation of control reaction, following additive possibly be favourable for some reactions: 3, and 7-diaminourea-5-phenylol thiazine acetic acid esters, 18 hat 6 ethers, 1,3-dimethyl-2-imidazolidinone.Preferred at present reaction

Preferred at present reaction is the reaction between eight hydronium(ion) oxidation strontiums and the ammonium nitrate.In order to guarantee the safety of end product, add magnesium nitrate hexahydrate as the third reactant.Most preferably, magnesium nitrate hexahydrate is used for eight hydronium(ion) oxidation strontiums and ammonium nitrate are separated with making coatings.Above-mentioned reactant is stabilized reaction (pacification reaction) with a kind of main reaction and a kind of NH3 and is reacted.Main reaction with high cooling efficiency is following:

3Sr(OH) ₂·8H ₂O(s)+6NH ₄NO3(s)→3Sr ²⁺+6NO ₃ ⁺+6NH ₃+30H ₂O

Because NH ₃Possibly be considered to poisonous, or smell makes us unhappy at least, therefore will stabilize through further reaction.NH ₃The cooling effectiveness of stable reaction is lower than the cooling effectiveness of main reaction:

3Sr ²⁺+6NO ₃ ^-+6NH ₃+30H ₂O+Mg(NO ₃) ₂·6H ₂O(s)→3Sr ²⁺+8NO ₃ ^-+Mg(NH ₃)6 ²⁺+36H ₂O

End product is the gel of white, smells the slightly smell of ammonia, but is safe fully.

The above-mentioned reactant that needs 88ml is with 20 degrees centigrade of the beverage coolings of 330ml.Therefore, common 440ml beverage can be used for holding the beverage of 330ml and the reactant of 88ml.

The cooling of beverage

Depend on the thermal capacitance of the reaction, reactant mixture and the beverage that are adopted, the initial temperature of beverage and the quantity of beverage and reactant respectively, can obtain large-scale cooling effect.Can contain any amount of reactant according to cooling device of the present invention, as long as the capacity of cooling device is no more than 30% container capacity.

The cooling effect of the cooling device in the container for drink should be enough to be no more than 5 minutes, and the time that preferably is no more than 2 minutes is interior with at least 10 ℃ of a certain amount of beverage coolings.

For the beverage that mainly is made up of water, its specific heat capacity can be similar to the specific heat capacity of aqueous water: 4.18kJ/kgK.The needed cooling effect q of cooled beverage is provided by following equality: q=m Δ TCp.Therefore, for the beverage with 1kg cools off 20 ℃, cooling device must absorb the heat energy of 83.6kJ from beverage to be cooled.Therefore in the present invention; Be no more than 5 minutes, preferably be no more than 3 minutes, in 2 minutes time period; The heat energy reduction of beverage should be at least 50 joules/milliliters of beverages; Preferably at least 70 joules/milliliters of beverages, for example 70-85 joule/milliliter beverage, preferably approximately 80-85 joule/milliliter beverage.

According to additional embodiments, container body can comprise that capacity is the polymer that rises of 3-50 or the beverage keg of metal material, and this keg is crushable or rigidity, and to seal be the coupling device of keg.Perhaps, container body can comprise the bottle of glass or polymeric material, and bottle has the capacity that 0.2-3 rises, and this to seal be screw lid, crown lid or stopper.Or this container body can comprise the beverage can and the beverage lid of metal material, preferred aluminum or aluminum alloy, and jar has the capacity that 0.2-1 rises, and the embossed area of sealing by beverage closure constitutes.Or container can comprise sack, preferably as in the box bag, the bag in the bag or keg in the bag form.

According to additional embodiments, container comprises induction element and is used to guide the beverage flow from container body.Induction element can be used for guiding beverage to seal via the cooling device flow direction.Cooling device can be positioned at container, and perhaps cooling device is positioned at outside the container.Container body can be configured to comprise the double sheet container of inwall or outer wall, and cooling device can be between inner and outer wall.

According to additional embodiments, container can comprise Pressure generator, and it is contained in the container or is connected to container via pressure hose.Pressure generator preferably includes the carbon dioxide generating device and is used for the beverage pressurization to container for drink.

According to additional embodiments, container can comprise tapping pipeline and bleeder valve and be used for from the container for drink beverage of selectively providing and delivering.Container for drink can be filled with soda for example beer, cider, soft drink, mineral water, fizz; Perhaps noncarbonated beverage products fruit syrup for example; Dairy product is milk and sour milk for example, drinking water, grape wine, Spirit, iced tea, or be the beverage that contains drinking mixed article.

According to additional embodiments, cooling device has formed the part of container for drink or the part at container for drink top, or the part of the wall of container for drink or bottom.Cooling device is fixed on the pedestal of container for drink or on the wall of a container, again or on the top of container, perhaps cooling device constitutes a kind of gadget, it can move freely in container.

According to additional embodiments; Cooling device can be configured to the metal can of beverage can size; Perhaps be configured to cooling box and be used to admit many containers that comprise beverage; Perhaps be configured to place the cooling stick of beverage bottle etc., perhaps be configured to cover to be placed, perhaps be configured to the part of bottle closure or bottle cap around the part of the body of the part of container such as bottleneck or metal can or bottle.

Describe the present invention and many advantages thereof in more detail below with reference to appended sketch map, for purposes of illustration, accompanying drawing has shown some non-restrictive example, wherein:

Fig. 1 has shown the self-cooling beverage container with cooling device, and cooling device has the film of gas permeable.

Fig. 2 be have cooling device from cold containers, cooling device has assisted reaction thing cabin.

Fig. 3 be have cooling device from cold containers, cooling device has soluble stopper.

Fig. 4 be have cooling device from cold containers, cooling device has transparent film.

Fig. 5 is the self-cooling beverage container with cooling device, and cooling device has lid.

Fig. 6 is the self-cooling beverage container with cooling device, and cooling device has rupturable barrier film.

Fig. 7 is the self-cooling beverage container with cooling device, and cooling device has telescoping valve.

Fig. 8 is the self-cooling beverage container with cooling device, and cooling device has water miscible barrier film.

Fig. 9 is the self-cooling beverage container with cooling device, and cooling device has flexible cylinder.

Figure 10 is the self-cooling beverage container with cooling device, and cooling device has a pair of lid.

Figure 11 is the self-cooling beverage container with cooling device, and cooling device has lid and rupturable barrier film.

Figure 12 is the self-cooling beverage container with cooling device, and cooling device has transparent film and rupturable film.

Figure 13 is the self-cooling beverage container with cooling device, and cooling device constitutes gadget.

Figure 14 is the self-cooling beverage container with cooling device, and cooling device constitutes gadget and action control fluid.

Figure 15 is the self-cooling beverage container with cooling device, and cooling device constitutes the gadget with other reactant cabin.

Figure 16 is the cooling box with rectangular shape, and it comprises the cooling device with jar shape.

Figure 17 is the cooling box with crown shape, and it comprises the cooling device that is positioned at the centre position.

Figure 18 has shown the filling process of self-cooling beverage container, and the self-cooling beverage container has the cooling device that is installed on the container.

Figure 19 has shown the filling process that cooling device is installed in the self-cooling beverage container on the container, and the self-cooling beverage container has the cooling device that constitutes gadget.

Figure 20 has shown the filling process that cooling device is installed in the self-cooling beverage container on the container, and the self-cooling beverage container has the lid that is installed on the cooling device.Figure 21 has shown self cooling party keg system.

Figure 22 has shown the beverage dispensing system with keg, and keg has and is used to obtain the cold cooling device of speed.

Figure 23 has shown the beverage dispensing system with beverage keg, and the beverage keg has cooling device, and cooling device has transparent film.

Figure 24 has shown the beverage bottle of the cooling device with pushbutton enable.

Figure 25 has shown the beverage bottle with pressure-activated cooling device.

Figure 26 has shown the beverage bottle that cooling device is installed on the lid, and this cooling device is started by the user.

Figure 27 has shown the cooling device that constitutes the beverage rod with inner cooling device.

Figure 28 has shown the bottle cover that is installed on the beverage bottle neck.

Figure 29 has shown the bottle cover of installing around the bottle of beverage bottle.

Figure 30 has shown the reaction crystal that has the selective absorbent that suppresses growth in the bight.

Figure 31 is dispensing and the refrigerator system that is used to hold a plurality of beverage cans.

Figure 32 is the refrigerator system that is used to hold a plurality of beverage cans.

Description of drawings according to the various exemplary embodiment of cooling device of the present invention.

Fig. 1 a has shown according to of the present invention from cold containers 10 ¹Partial sectional view.From cold containers 10 ¹Comprise by the foil beverage can 12 processed of aluminum or aluminum alloy for example.Beverage can 12 has columniform tank body, and this tank body is by beverage can pedestal 14 and lid 16 sealings.Lid 16 comprises draw ring and constitutes the embossed area of sealing.(draw ring and embossed area are invisible in this view.) beverage can 12 comprises cooling device, this cooling dress is positioned at the position that beverage can 12 is inner and beverage can pedestal 14 is arranged side by side.Cooling device 20 ¹Comprise the cylinder of the foil that is similar to beverage can 12, yet have obviously littler size.Perhaps, cooling device 20 ¹Can constitute the laminated product of processing by plastics that scribble thin aluminium foil or similar polymeric material.The size of cooling device is preferably about 25% beverage can 12 capacity corresponding to the total capacity of the beverage can 12 of about 20-30%, and this is in order to obtain enough cooling effectiveness, can not reduce the quantities of beverage that can be contained in the beverage can 12 simultaneously again basically.With beverage, preferred soda is beer, light sparkling wine or various soft drink for example, is filled in the beverage can 12 and typically occupies 70% beverage can 12 capacity, between the upper surface of lid 16 and beverage, allows about 5% space.Cooling device 20 ¹Between bottom 22 and top 24, extend.The bottom 22 preferred immobilization to beverage can pedestal 14 so that cooling device 20 is stable position in beverage can 12.Perhaps, cooling device 20 ¹Constitute the intrinsic part of beverage can 12.For example, the beverage can 12 that comprises cooling device 20 can be stamped to form by a sheet metal.The top 24 of cooling device 20 and the lid of beverage can 12 16 constitute independent parts, and these parts are at corresponding cooling device 20 ¹Fill afterwards application again with beverage can 12.Cooling device 20 ¹Top 24 sealing cooling devices 20 ¹Inside so that there is not beverage to get into.Top 24 comprises the film 26 of gas permeable, and this film is allowed gas for example air or carbon dioxide, but prevents for example beverage of liquid, gets into cooling device 20 ¹Inside.Cooling device 20 ¹Inside be divided into the pressure space 32 adjacent with gas permeable film 26 positions, near main reaction thing cabin 28 the bottom 22 and the water tank chamber 44 between pressure space 32 and main reaction thing cabin 28.Main reaction thing cabin 28 constitutes cooling device 20 ¹Major part and be filled with graininess reactant 29.Graininess reactant 29 comprises at least two kinds of independent reactants, and this reactant will absorb energy and therefore cause the cooling of beverage from beverage on every side when reacting to each other., two kinds of reactants are initiated when being in contact with one another to reflect typical.The definite composition of reactant will be described in detail at the chemical part of following specification.At least a formation in the compound has the particle of water-soluble coating, and this coating prevents that reactant is in contact with one another and prevented the beginning of any reaction thus.Water-soluble coating can for example be a starch.In embodiment, can prevent in solubility gel or the foam that it from reacting through one or more particles are embedded in for choosing.Or, can reactant be provided as thin and pan or the tablet highly consolidation that is separated from each other through above-mentioned coating, gel or foam.

Pressure space 32 was opened by flexible partition with water tank chamber 44 in 30 minutes.Flexible partition 30 has funnel shaped and strengthens crimping 34 from the circumference of the circle that constitutes flexible partition 30 peripheries and extends to the central circular wall 40 that constitutes flexible partition 30.Circular wall 40 was opened pressure space 32 and main reaction thing cabin in 28 minutes.Circular circumference enhancing crimping 34 positions and pad 36 are arranged side by side, and pad 36 strengthens sealed to top 24 with the circumference of circle.Cup-shaped wall 38 through rigidity was opened water tank chamber 44 and main reaction thing cabin in 28 minutes, this cup-shaped wall from the top 24 inwardly with to extending below.Flexible partition comprises circumference clamping flange 42, its at circular wall 40 places to extending below.Circumference clamping flange 42 is clamped in around the end of cup-shaped wall 38, thereby with

water tank chamber

44 and 28 sealings of main reaction thing cabin.

Through fill main reaction thing cabin 28 and water filling water tank chamber 44 with reactant particle 29, then cooling device 20 is installed and is sealed at the top ¹On prepare cooling device.Subsequently, beverage can 12 is filled beverages, pressurization and seal with lid 16.Pressure in the beverage can 12 is guaranteed cooling device 20 ¹Can not start, because at beverage can 12 inner and cooling devices 20 ¹Inner sustain identical pressure.

Fig. 1 b has shown that working as beverage can 12 has opened and cooling device 20 ¹In chemical reaction when having started from cold containers 10 ¹Partial sectional view.Through draw ring 18 normal is operated with respect to lid 16 outwardly directed upright positions and with beverage can 12 unlatchings with lid 16 horizontal levels arranged side by side by it.Through draw ring 18 is operated the upright position, draw ring 18 will be projected in the embossing part in the lid 16, cause embossing partly to rupture and definite beverage outlet (not shown) in beverage can 12.When beverage can 12 has been opened, the high pressure CO in the beverage can 12 ₂Gas will escape into outside atmosphere.Atmospheric pressure in the beverage can 12 will cause gas to escape into beverage can 12 through the film 26 of gas permeable lentamente from pressure space 32.Simultaneously, main reaction thing cabin 28 inner high pressure can be applied to pressure on the flexible partition 30, cause flexible partition 30 to move to top 24 thus.Circular circumference strengthens crimping 34 can not see through fluid with main reaction thing cabin 28 in sealing load space 32 with pad 36.When flexible partition 30 is enable position, promptly when move at top 24, circumference clamping flange 42 will separate and allow that the current that contain the water tank chamber 44 become owner of reactant cabin 28 from the cup-shaped wall 38 of rigidity.The water that gets into main reaction thing cabin will make the water-soluble coating dissolving of reactant particle and cause chemical reaction to begin thus.This reaction is the endothermic reaction, and it will absorb energy from beverage, promptly when heat energy from beverage flow to cooling device 20 ¹The time beverage will become cooler.The more details of relevant chemical reaction will be immediately following in following specification.Cooling device 20 ¹The heat energy that absorbs will make the beverage in the beverage can 12 turn cold.After several seconds, the relative temperature of beverage can reduce about 10 ℃, typically is 20 ℃, and the consumer of beverage can enjoy the beverage that turns cold soon after opening beverage can 12.The beverage can 12 that under the situation of no refrigerator, leaves in the shop typically has about 22 ℃ temperature.After opening, consider heat loss etc., beverage can be cooled to about 6 ℃ rapidly.Turn cold the needed time typically less than 5 minutes, more typically less than 3 minutes.After the beverage consumption person finished off beverage, beverage can 12 can be discarded and metal in the beverage can 12 can reclaim through eco-friendly mode.

Fig. 1 c has shown at beverage can 12 unlatching and cooling devices 20 ¹In chemical reaction started after soon from cold containers 10 ¹For selecting the partial sectional view of scheme, it is similar to Fig. 1 b.Fig. 1 c has shown first partial enlarged drawing in addition, has wherein shown the top in reactant cabin 28, and second partial enlarged drawing, has wherein shown the bottom in reactant cabin 28.Can find out that from partial enlarged drawing this moment, the water that in Fig. 1 c, dots came in contact with the reactant particle 29 on 28 tops, reactant cabin, and the bottom in reactant cabin 28 keeps dry still.

Reactant particle 29 has core and covers the coating of core fully.Reactant particle 29 can be divided into two types: one type reactant particle 29 has first reactant coating that is expressed as 29A and the second reactant core that is expressed as 29B, and the reactant particle 29 of another kind of type has first reactant coating that is expressed as 29A and the 3rd reactant core that is expressed as 29C.

In second partial enlarged drawing that has shown 28 bottoms, reactant cabin, chemical reaction can not start, because core 29B and 29C can not react to each other.In first partial enlarged drawing that has shown 28 tops, reactant cabin, reactant particle 29 runs into water, and coating 29c begins to disintegrate and causes three kinds of all reactant 29ABC to mix each other and react.

Reactant B and C can at first react and generate through react and steady product with reactant A.

Fig. 2 a shown comprise Fig. 1 from cold containers 10 ¹All characteristics from cold containers 10 ¹¹The partial sectional view of another embodiment.Yet, present embodiment from cold containers 10 ¹¹Further comprise auxiliary cup-shaped wall 46, it is installed in the outside and the below of main cup-shaped wall 38.The auxiliary clamping flange 48 and the auxiliary cup-shaped wall 46 that constitute the prolongation of main clamping flange 42 have been confirmed assisted reaction thing cabin 50 together with main cup-shaped wall 38.Assisted reaction thing cabin 50 is filled with the assisted reaction composition granule, and it constitutes one of reactant of reaction.Other reactant is arranged in main reaction thing cabin 28, has eliminated the needs to the reactant grain coating thus.

Fig. 2 b shown when beverage can opened and chemical reaction when having started Fig. 2 a from cold containers 10 ¹¹Under the state that starts, the circumference clamping flange separates from the cup-shaped wall shown in Fig. 1 a 38, allows that thus the current in the water tank chamber 44 are become owner of reactant cabin 28.Simultaneously, auxiliary clamping flange 48, it is connected to flexible partition 30 through circumference clamping flange 42, will separate with auxiliary cup-shaped wall 46 and allow that the assisted reaction thing gets into main reaction thing cabin 28, starts chemical reaction thus.Present embodiment needs other cabin, but has without any need for the advantage of reactant grain coating, because reactant is stored in the cabin of separation.

Fig. 3 a shown be similar to shown in Fig. 2 from cold containers 10 ¹¹From cold containers 10 ¹¹¹From cold containers 10 ¹¹¹Have pressure space 32, yet what in the top 24 of cooling device 20, hold is water-soluble stopper 27, rather than the film of gas permeable.Water-soluble stopper 27 can be any water miscible material, this material non-toxic and can form withstand voltage stopper with enough rigidity, and for example it can dissolve in a few minutes during beverage when stopper suffers the aqueous solution.Think that nontoxic implication is that this material for example is used for the consumer goods by approvals such as national health management organizations.This material can comprise sugar, starch or gelatin.Solubility stopper 27 allows that cooling device 20 is being used for for example several days or be produced in a few week and pressurize time long before the beverage can.Solubility stopper 27 prevents in the cooling device 20 that promptly the pressure in main reaction thing cabin 28, water tank chamber 44 and the pressure space 32 escapes into the outside through preparatory portion 24.In the present embodiment, flexible partition is processed by rubber and comprised also is the support barrier film of being processed by rubber 31, and it is positioned at the position arranged side by side with cup-shaped wall 38, and strengthens between the crimping 34 at circular wall 40 and circular circumference and to extend.For the pressure that makes flexible partition 30 and support between the barrier film 31 equates that pressure entrance 52 is positioned on the flexible partition, so that pressure is at pressure space 32 with support between the space of barrier film 31 and 30 of flexible partitions and equate.

Fig. 3 b shown before chemical reaction starts, comprise beverage can 12 and the cooling device 20 that is positioned at beverage can 12 from cold containers 10 ¹¹¹When beverage can 12 is filled beverage and filling CO 2 gas/pressurization, solubility stopper 26 ' will prevent that pressure space 32 pressure inside from escaping into the outside of cooling device 20.After a period of time or in pasteurizing process, solubility stopper 26 ' dissolves and allows the fluid communication between the pressure space 32 of the inside of beverage can 12 and cooling device 20.Beverage can 12 pressure inside are with cooling device 20 ¹¹¹Remain in the state of its pretrigger, i.e. the state that do not start of chemical reaction.

Fig. 3 c shown when beverage can 12 opened and chemical reaction when having started according to Fig. 3 b from cold containers 10 ¹¹¹When beverage can 12 had been opened, beverage can 12 and pressure space 32 pressure inside were reduced to the environmental pressure of beverage can 12 outsides.As above to the relevant description of Fig. 2, this causes the chemical reaction in the cooling device 20 to start.

Fig. 4 a has shown from cold containers 10 ^IVAnother embodiment.From cold containers 10 ^IVComprise beverage can 12 ', it is similar among Fig. 1-3 the relevant description to beverage can.Beverage can 12 ' has beverage can pedestal 14 ', lid 16 ' and cooling device 20 ', and cooling device 20 ' is fixed on the lid 16 ' and extends in the beverage can 12 ' cooling device 20 ^IVComprise the cylindrical aluminum pipe that extends to beverage can pedestal 14.Confirmed that in lid 16 ' pressure entrance 52 to allow the fluid communication between external pressure and the pressure space 32, confirmed pressure space 32 in cooling device inside between lid 16 ' and barrier film 30 '.Barrier film 30 ' by flexible material for example rubber process and between pressure space 32 ' and water tank chamber 44 ', formed barrier for fluid sealing.Through rupturable barrier film 54 water tank chamber 44 and main reaction thing cabin 28 ' are separated, rupturable barrier film 54 is processed by the flexible material that is similar to barrier film 30 '.Rupturable barrier film 54 can break, and promptly irreversibly opens through the piercing elements 56 that constitutes pin, and piercing elements 56 is positioned at main reaction thing cabin 28 ' and points to rupturable barrier film 54.Main reaction thing cabin 28 ' is filled with the reactant particle of band coating, is similar among Fig. 1-3 the relevant description to embodiment.Through bottom 22 ' main reaction thing cabin 28 ' and beverage can 12 ' are separated, the position of bottom 22 ' near but do not contact beverage can pedestal 14 '.The bottom is 22 ' by processing with the outer wall identical materials of cooling device 20, promptly preferred aluminium.Bottom 22 ' is connected to cooling device 20 through fold 58 ^IVOuter wall, fold 58 makes bottom 22 ' is flexible and bistable, promptly respectively inwardly and the state of outwards heaving can both confirm as mechanically stable.When beverage can 12 ' being filled and pressurize, beverage can 12 ' pressure inside will cause bottom 22 ', the barrier film 54 ' that can break is heaved with inside direction with barrier film 30 '.

Fig. 4 b shown comprise beverage can 12 ' from cold containers 10 ^IV, beverage can 12 ' is opened through operation draw ring 18.Through operation draw ring 18, fracture takes place and in lid 16, forms opening to make beverage can be poured out and make pressure to overflow in the embossing in the lid 16.When pressure is overflowed, cooling device 20 ^IVBottom 22 ' because cooling device 20 ^IVInternal pressure will heave towards beverage can pedestal 14.Bottom 22 ' is fabricated to bistable, so that when when beverage can pedestal 14 is heaved, generation pressure below atmospheric pressure cause breaking barrier film 54 and barrier film 30 heaved towards beverage can pedestal 14 in main reaction thing cabin 28 '.Therefore the barrier film 54 that can break will be heaved and cause barrier film 54 explosions of can breaking in the piercing elements 56.But the barrier film 54 that can break can be the barrier film of explosion or have predetermined breaking or have in the tension force established; So that when piercing elements 56 entering can be broken barrier film 54; Between water tank chamber 44 ' and main reaction thing cabin 28 ', produce opening; Cause the water in the water tank chamber 44 ' to get in the main reaction thing cabin 28 ', start the cooling that chemical reaction produces beverage thus.Chemical reaction will absorb energy and cause at least 10 ℃ thus from border on every side, preferred 20 ℃ or more relative the cooling.

Fig. 5 a has shown from cold containers 10 ^V, its be similar to Fig. 4 from cold containers 10 ^IVReplace rupturable barrier film, from cold containers 10 ^VHave the main lid of being processed by plastic material 60, it separates water tank chamber 44 and main reaction thing cabin 28 '.Main lid 60 remains on the correct position through main lid bearing 62, the flange that main lid bearing 62 constitutes to inner process, and this flange is fixed to cooling device 20 ^VInwall and slight pressure is applied on the main lid 60.Main lid 60 constitutes thin round plastic element, between water tank chamber 44 ' and main reaction thing cabin 28 ', forms the connection for the fluid sealing.

Fig. 5 b shown according to Fig. 5 a from cold containers 10 ^V, being similar to beverage can described in Fig. 4 b, it is opened and starts.When beverage can 12 ' has been opened, cooling device 20 ^VBottom 22 ' will heave towards beverage can pedestal 14; This will cause 28 ' the inner generation pressure drop of main reaction thing cabin; Cause that main lid 60 ejects and falls into main reaction thing cabin 28 ' from main lid bearing 62, allows fluid communication between water tank chamber 44 ' and the main reaction thing cabin 28 ' thus.Therefore water will be from the water tank chamber 44 flows into main reaction thing cabins 28 ', starts chemical reaction thus, causes the beverage cooling.Along with the reactant particle dissolves, main lid 60 will be to cooling device 20 ^VBottom 22 ' fall.

Fig. 6 a shown be similar to shown in Fig. 5 from cold containers 10 ^VFrom cold containers 10 ^VIYet, replacing main lid bearing and main lid, present embodiment comprises support mesh 66 and rupturable barrier film 54, it separates water tank chamber 44 ' and main reaction thing cabin 28 '.Support mesh constitutes the grid of being processed by metal or plastics, and it is positioned over the position arranged side by side with the barrier film 54 of can breaking, its septation towards main reaction thing cabin 28 and the barrier film 54 that can break towards water tank chamber 44.But the barrier film 54 that can break constitutes the film of explosion, and it prevents the fluid communication between water tank chamber 44 ' and the main reaction thing cabin 28 '.Pressure in main reaction thing cabin surpasses under the situation of the pressure in the water tank chamber 44, and support mesh 58 barrier film 54 ' that prevents to break is upwards heaved and broken towards the direction of pressure entrance 52.

Fig. 6 b shown when beverage can 12 ' has been opened from cold containers 10 ^VIThrough beverage can is opened, beverage can 12 ' pressure inside reduces, and causes bottom 22 ' to be heaved towards beverage can pedestal 14, reduces main reaction thing cabin 28 ' pressure inside thus.The inner pressure that reduce in main reaction thing cabin 28 barrier film 54 ' that causes breaking is heaved towards beverage can pedestal 14 '.But the barrier film 54 ' that can break is the film of explosion, and it breaks under the situation of not using piercing elements.Rupturable barrier film 54 ' can constitute inelastic, and explosion is set up fluid communication thus between water tank chamber 54 ' and main reaction thing cabin 28 ' through the pressure differential between main reaction thing cabin 28 and the water tank chamber 44 ' for it.The water in 44 ' entering main reaction thing cabin 28 ' will start chemical reaction from the water tank chamber, as above described in Fig. 4-5 beverage on every side produced cooling effect.

Fig. 7 a shown be similar to Fig. 6 from cold containers 10 ^VIFrom cold containers 10 ^VIIYet, replacing rupturable barrier film and piercing elements, telescoping valve 68 separates water tank chamber 44 ' and main reaction thing cabin 28 '.Telescoping valve 68 constitutes a plurality of

valve elements

69,70,71, and the valve element constitutes circular cylinder flange component.The first valve element 69 with maximum gauge is fixed to cooling device 20 ^VIIInwall, the first valve element 69 is slightly towards cooling device 20 ^VIIBottom 22 ' projection, and constitute crimping (bead) to inner process.The second valve element 70 constitutes flange components, and this flange component has the crimping of top to outer process, and it is to the sealing of the first valve element with to the crimping of inner process, and it is to the sealed to outer process of the first valve element 69.The 3rd valve element 71 constitutes cup-shaped members, and cup-shaped member has the crimping of top to outer process, its to the second valve element 70 to the sealed of outer process and the horizontal surface of bottom, it is to the bottom of the second valve element 70 sealed to inner process.

Fig. 7 b shown when beverage can 12 ' has been opened Fig. 7 a from cold containers 10 ^VIIDescribed in above Fig. 6 b, the unlatching of beverage can 12 ' causes the bottom 22 of cooling device 20 ' outwards to be heaved, and causes the pressure in the main reaction thing cabin 28 ' to reduce thus, causes the second and the

3rd valve element

70,71 towards cooling device 20 thus ^VIIThe direction of bottom 22 on move, thereby make the second valve element 70 to the crimping of outer process sealed to inner process to the first valve element 71, and the 3rd valve element 71 to the crimping of outer process sealed to inner process to the second valve element 70.The second and the

3rd valve element

70,71 is provided with the valve opening 72 of circle distribution, and it allows the fluid communication between water tank chamber 44 ' and the main reaction thing cabin 28 '.Therefore, water can flow to main reaction thing cabin 28 from water tank chamber 44.

Fig. 8 a shown comprise be similar to as among Fig. 4 relevant describe from cold containers 10 ^IVFrom cold containers 10 ^VIIIYet, between water tank chamber 44 ' and main reaction thing cabin 28 ', provide assisted reaction thing cabin 50 '.Through the support 74 and the barrier film 54 that can break " water tank chamber 44 ' and assisted reaction thing cabin were left in 50 minutes.Support 74 is in the inwall of cooling device 20 ' and the sealing between the barrier film 54 of can breaking, and the barrier film 54 that can break is positioned at the centre position and covers down-comer 76, and down-comer 76 stretches out to main reaction thing cabin 28 '.Through water-soluble barrier film 78 assisted reaction thing cabin 50 ' and main reaction thing cabin 28 ' are separated.

Fig. 8 b shown when beverage can is opened such as described in Fig. 8 a from cold containers 10 ^VIIIThe unlatching of beverage can causes the bottom 22 of cooling device 20 ' outwards to be heaved, like the relevant description of above Fig. 4-7.The pressure that reduces in the main reaction thing cabin 28 ' causes water-soluble barrier film 78 to be heaved to bottom 22 ', and the low pressure that in assisted reaction thing cabin 50 ', causes thus causes the barrier film 54 that can break " explosion and allow that the water in the water tank chamber 44 ' gets into down-comer 76 and flows to water-soluble barrier film 78.When water-soluble barrier film by from water-soluble the separating of down-comer the time; The assisted reaction thing; It constitutes first kind of the needed two kinds of reactants of startup chemical reaction and is stored in the assisted reaction thing cabin 50; Can react with the main reaction thing, the main reaction thing constitutes second kind in the needed two kinds of reactants of startup chemical reaction and is stored in the main reaction thing cabin 28 '.Caused the startup of consequent chemical reaction through being in contact with one another of reactant.Reaction produces cooling effect.

Fig. 9 a shown be similar to Fig. 4 from cold containers 10 ^IVFrom cold containers 10 ^IXYet it comprises the cooling device of being processed by polymeric material fully 20 ^IX Cooling device 20 " constitute polymer cylinder with three parts, first is the rigid cylinder part 80 that is fixed on the lid 16 of beverage can 12 '.Lid is airtight, therefore externally and between the rigid cylinder part 80 on top any fluid communication is not provided.The rigid cylinder part 80 on top stretches into beverage can 12 ' and is connected to second cylindrical portions may of the flexible cylinder 82 in the middle of constituting; Second cylindrical portions may is connected to the 3rd cylindrical portions may of the rigid cylinder part 81 that constitutes the bottom successively, and the rigid cylinder part 81 of bottom is sealed near beverage can pedestal 14.The rigid cylinder part 80 on top constitutes the water tank chamber and the partially filled composition granule that responds of the rigid cylinder of bottom.When beverage can 12 ' being filled and pressurize, the flexible cylinder in the middle of pressure will cause is squeezed and closure, forms squeezing valve (squeeze off valve), and this is owing to compare cooling device 20 with the pressure in the beverage can 12 ^IXPressure inside is lower.

Fig. 9 b shown when beverage can 12 ' has been opened Fig. 9 a from cold containers 10 ^IXThe flexible cylinder 82 of lower pressure in the middle of will causing is not squeezed state in the beverage can 12 ', allows fluid communication between the rigid cylinder part 81 of rigid cylinder part 80 and bottom on top.Like this, make the water that contains in the rigid cylinder part on top flow into the rigid cylinder part of bottom thereby the cylinder at middle part 82 forms passages, activation is stored in the reactant particle of the band coating in the rigid cylinder part 81 of bottom thus.

Fig. 9 c shown comprise beverage can 12 ' from cold containers 10 ^IX, this beverage can 12 ' has the cooling device 20 that is similar to Fig. 9 a and Fig. 9 b ^IX, yet optional circumference clamping part 83 is provided in addition, on the inwall of the flexible cylinder 82 in the middle of it is positioned at.Clamping part 83 holds resolution element 84; It constitutes the mini disk linear element of plastic material, and sealing more reliably is provided between the reactant particle that stores in the water that the mini disk linear element stores in the rigid cylinder part 80 on top and the rigid cylinder part 81 of bottom.Clamping part 83 and resolution element 84 are preferably processed by the plastics of rigidity basically.Clamping part 83 comprises the clamping element that interlocking can take place with the corresponding crimping on the resolution element 83.

Fig. 9 d shown when beverage can 12 ' be not open and the clamping part 83 of Fig. 9 c and the partial enlarged drawing of resolution element 84 during the state that pressurizes.

Fig. 9 e has shown the partial enlarged drawing of Fig. 9 d; This moment, beverage can 12 ' was opened; The wall of the flexible cylinder 82 in the middle of causing from the flexible cylinder of the centre 82 outside pressure that reduce separates and causes resolution element and clamping part 83 to break away from, so allows fluid communication between the rigid cylinder part 81 of the rigid cylinder part 80 on top and bottom.Through using clamping part 83 and resolution element 84, when cooling device 20 " start and the wall of middle flexible cylinder 82 when separating, between the rigid cylinder part 81 of the rigid cylinder part 80 on top and bottom, accomplished clear and definite separation.

Figure 10 a has shown the cooling device 10 that is similar to Fig. 5 ^V Cooling device 10 ^X Cooling device 20 ^XHave assisted reaction thing cabin 50 ', it is positioned between water tank chamber 44 ' and the main reaction thing cabin 28 '.Separate with main reaction thing cabin 28 ' with main lid bearing 62 ' through main lid 60 ' in assisted reaction thing cabin 50 '.Separate with water tank chamber 44 ' with auxiliary lid bearing 88 through auxiliary lid 86 in assisted reaction thing cabin.Main lid bearing 62 and main lid 60 and auxiliary lid bearing 88 and auxiliary lid 86 are to work with the main lid bearing mode identical with main lid that combines Fig. 5 to describe.

Figure 10 b has shown that working as beverage can 12 has opened and cooling device 20 ^XBottom 22 ' since Figure 10 a of the inner pressure that reduces of beverage can 12 ' and outward bulge time-out from cold containers 10 ^XThis causes auxiliary lid 62 and main lid 60 ' dropping on the direction of bottom 22 ' owing to pressure downwards, and this causes water, assisted reaction thing and main reaction thing to mix, and starts chemical reaction thus.

Figure 11 a shown with combine that Figure 10 describes from cold containers 10 ^XSimilarly from cold containers 10 ^XIYet, replace auxiliary lid bearing and auxiliary lid, support mesh 66 is provided and can have broken barrier film 54 '.Support mesh 66 with can break barrier film 54 ' with above-mentioned Fig. 6 in from cold containers 10 ^VIIdentical mode is worked.

Figure 11 b has shown that working as beverage can 12 ' has opened and cooling device 20 ^XIFigure 11 a's from cold containers 10 when starting ^XI

Figure 12 a and Figure 12 b have shown and have been similar to from cold containers 10 ^XFrom cold containers 10 ^XII, wherein the broken barrier film of Fig. 4 54 makes up with the support mesh 66 of Fig. 6 and the barrier film 54 ' that can break with piercing elements 56.

Figure 13 a shown comprise beverage can 12 " from cold containers 10 ^XIII, this beverage can 12 " and have an immersion cooling device 20 that constitutes the cooling gadget ^XIICooling device 20 ^XIIConfirmed to be preferably the cylinder of polymeric material, it can be at beverage can 12 " move freely in the inner beverage.Cooling device 20 " comprise pressure space 32 ", water tank chamber 44 " and main reaction thing cabin 28 ".Pressure space 32 " comprise and allow that dollop gets into cooling device 20 " pressure entrance 52 '.Pressure space 32 ' and water tank chamber 44 " through flexible partition 40 " separately, water tank chamber 44 " with main reaction thing cabin 28 ' through stopper bearing 90 be positioned at stopper bearing 90 middle main stoppers and opened in 89 minutes.Stopper bearing 90 is at main stopper 89 and cooling device 20 " inwall between seal, main stopper 89 is connected to barrier film 30 ".Overvoltage in the beverage can 12 ' makes barrier film 30 " maintain in lax and the state that does not start, main stopper 89 is with water tank chamber 44 " in water and main reaction thing cabin 28 " in the reactant particle separate.

Figure 13 b has shown when beverage can 12 " when opening such as described in Figure 13 a from cold containers 10 ^XIIIWhen beverage can 12 " when opening, beverage can 12 " and pressure space 32 " pressure inside reduces and water tank chamber 44 " in pressure cause barrier film 30 " towards pressure entrance 52 " heave.When barrier film 30 " when pressure entrance 52 ' is heaved; be connected to barrier film 30 " on main stopper 89 will with stopper bearing 90 break off be connected and in water tank chamber 44 " with main reaction thing cabin 28 " between realize fluid communication, allow that water gets into the chemical reaction that main reaction thing cabin 44 and startup cause beverage to cool off.

Figure 14 a shown be similar to shown in Figure 13 from cold containers 10 ^XIIIFrom cold containers 10 ^XIVYet, cooling device 20 wherein ^XIVComprise assisted reaction thing cabin 50 in addition ", assisted reaction thing cabin 50 " in comprise the reaction control fluid that is used to reduce the reaction time.Assisted reaction thing cabin 50 " be positioned at water tank chamber 44 " and main reaction thing cabin 28 " between.Water tank chamber 44 " and assisted reaction thing cabin 50 " support through main stopper bearing 90 and main stopper 89, and assisted reaction thing cabin 50 " and main reaction thing cabin 28 " support through auxiliary stopper bearing 94 and auxiliary stopper 92.Auxiliary stopper 92 is connected on the main stopper 89.

Figure 14 b has shown when beverage can 12 " Figure 14 a's from cold containers 10 when opening ^XIVOpen beverage can 12 " time the pressure loss will cause barrier film 30 to be heaved towards pressure entrance 22 '.Because main stopper 89 is connected to barrier film 30 with auxiliary stopper 92 boths " on, water tank chamber 44 " with assisted reaction thing cabin 50 " both will set up and main reaction thing cabin 28 " and fluid communication.This causes water and assisted reaction thing cabin 50 in the water tank chamber 44 ' " in reaction control fluid flow into main reaction thing cabin 28 ", main reaction thing cabin 28 " be filled with the reactant particle of band coating.When two kinds of reactants mixed in water, chemical reaction started and causes cooling.Reaction control fluid has prolonged cooling effect and can be used for for example preventing the beverage can 12 inner ice that form.

Figure 15 a and 15b shown be similar to shown in Figure 14 from cold containers 10 ^XIVFrom cold containers 10 ^XVYet, replace and use the FLOW CONTROL fluid, second reactant is stored in assisted reaction thing cabin 50 " in, therefore got rid of use reactant coating.When through opening beverage can 12 " set up startup, and the first reactant particle in the main reaction thing cabin 28 is when mixing with the second reactant particle in the aqueous solution, the chemical reaction startup.

Figure 16 a shown constitute cooling box from cold containers 10 ^XVI, it comprises by the rigid insulation material, for example the insulation supporting body 96 processed such as foamed polystyrene.Insulation supporting body 96 has cavity 97; It has confirmed to be fit to hold six standard beverage cans 12 " ' space; standard beverage can 12 " ' be the beverage can of typical sizes, its shape is corresponding to above description and beverage can that be expressed as Reference numeral 12, yet do not comprise cooling device.Inner cavity 97 has been confirmed smooth basal surface and inner continuous side walls; Sidewall has the lug boss 98 of having confirmed a plurality of interconnected circular arcs; Circular arc is corresponding to the outer surface of six beverage cans and when placing with known 3 * 2 " six bags " structure, confirmed independent placement beverage can 12 " ' the position so that realize stable and reliable localization.Therefore inner cavity 97 is configured to hold six beverage cans 12 with two rows' mode " ', three beverage cans 12 of every row " '.Provide separator 99 to be used to fill up six beverage cans 12 " ' between the stability of inner space to increase, separator 99 preferably by non-heat insulation or a little less than heat-insulating materials such as plastics, metal or hardboard process.From cold containers 10 ^XVIIn, beverage can 12 " ' one of by cooling device 20 ^XVIReplace cooling device 20 ^XVIHave corresponding to beverage can 12 " ' outer shape.Cooling device 20 ^XVIHave start button 100, started by press button 100 is to start cooling device 20 ^XVIInterior chemical reaction.Except starting through carrying out from the mechanical action of outside, promptly through pushing button 100, outside, cooling device 20 ^XVIInside can be corresponding to the above-mentioned any cooling device shown in Fig. 1-15.Button can be directly coupled on the broken barrier film that for example separates two kinds of reactants etc., therefore breaks through pushing the button barrier film, allows that two kinds of reactants are in contact with one another.Perhaps button 100 can work to pressure space, and the variation of pressure causes flexible partition to move and starts chemical reaction.

Figure 16 b has shown from cold containers 10 ^XVIVertical view, it comprises and holds five beverage cans 12 and cooling device 20 ^XVIInsulation supporting body 96.From cold containers 10 ^XVICan store at room temperature.When the beverage in the beverage can is about to drink, push cooling device 20 ^XVIOn start button 100 and start cooling.Can provide on the supporting body 96 optional enclosing cover as other insulation in insulation.

Figure 17 a has shown from cold containers 10 ^XVII, it constitutes from cold containers 10 ^XVIFor selecting structure.Cooling device 20 corresponding to Figure 16 ^XVI Cooling device 20 ^XVIIBe contained in the separator 99 that is arranged in the centre position, and six container for drink are contained in the insulation supporting body 96 ' around separator 99.Insulation supporting body 96 ' has round outer shape and inner cavity 97 ', and inner cavity 97 ' has lug boss 98 ' and is used for holding six beverage cans 12 around the separator 99 that is positioned at the centre position with circumferential configuration " '.

Figure 17 b and c have shown respectively from cold containers 10 ^XVIPerspective view and vertical view.

Figure 18 a-f has shown the step that the beverage can 12 of type shown in Fig. 1-3 is filled and pressurizeed, and beverage can 12 comprises the cooling device 20 of Fig. 1-3 shown type.

Figure 18 a has shown the process of before filling, beverage can 12 being taken a breath.Beverage can 12 comprises cooling device 20 and lid flange 104.Beverage can is typically through insertion scavenge trunk 102 and with carbon dioxide (CO ₂) inject beverage can 12 and take a breath three times, carbon dioxide will replace the air in the beverage can 12, and the residual air of beverage can 12 inner any amount will cause beverage to go bad.After ventilation, shown in Figure 20 b, beverage can 12 is filled beverage.

Figure 18 b has shown the beverage filling process, wherein will fill pipe 103 insertions and beverage is injected beverage can 12.Beverage is filled with carbon dioxide in advance and only has the low temperature than high several degrees centigrade of freezing point, is used for holding the carbon dioxide of the maximum that is dissolved in beverage.

Figure 18 c has shown the beverage can 12 of filling when pipe 103 has removed when filling.Only have in the atmosphere of carbon dioxide can be saturated and do not need hyperbaric environment by carbon dioxide a little more than the temperature of freezing point thereby beverage is kept at.

Figure 18 d has shown beverage can 12, and wherein lid 16 has been sealed on the lid flange 104.Lid 16 folds on the lid flange 104 and forms pressure-resistant seal.

Figure 18 e has shown the beverage can 12 in pasteurising plant 106 inside.Pasteurising plant comprises about 70 degrees centigrade water-bath, the known any microbial growth that is used for stoping food product of pasteurizing process.In pasteurizing process, because to the heating of beverage and the release of carbon dioxide from beverage that causes thus, the beverage can pressure inside will be elevated to about 6 crust.Cooling device should be manufactured to enough rigidity can bear this high pressure.In addition, the inner reactant that uses of cooling device should remain the influence of the temperature and pressure that does not receive to raise, promptly they should not can burn, reaction, fusion, boiling or otherwise change its state, initiation reaction becomes impossible or invalid making after.Should also be noted that for the beverage of pasteurization not, mineral water for example, to should still remaining unaffected under 30-35 degree centigrade the temperature at least, this temperature is the temperature that possibly in the indoor or outdoors storage process, reach to reactant at height.

Figure 18 f has shown beverage can 12 at room temperature.Beverage can 12 pressure inside are about 3-5 crust, and this pressure is enough to prevent the startup of cooling device 20.When beverage can is opened, internal pressure will escape in the ambient atmosphere, and beverage can 12 will be the atmospheric pressure of 1 crust, and cooling device 20 will be said and start like Fig. 1-15.

Figure 19 a-e has shown the step that the beverage can 12 of type shown in Figure 13-15 is filled and pressurizeed, and beverage can comprises the cooling device of Figure 13-15 shown type.This process is similar to the relevant filling process that above Figure 18 describes, the placement of the cooling device 20 in Figure 21 c, after said placement occurs in and fills but before applying lid 16.

Figure 20 a to 20f has shown the step that the beverage can 12 of type shown in Fig. 4-12 is filled and pressurizeed, and beverage can comprises the cooling device of Fig. 4-12 shown type.Because cooling device 20 attaches to lid 16, so cooling device and lid attach to beverage can 12 with integral way in Figure 20 d.

Figure 21 a has shown party keg system 110, compression system of establishing in it has and self-cooling beverage container.The party keg constitutes simple beverage dispensing system, typically is used for disposable use and holds about 3-10 rising beverage, typically is 5 liters of beverages.The party keg is generally used for less doings, for example private party etc.The party keg generally includes pressurization and carbonation system, and a kind of this type party keg system has been described in the european patent application 08388041.9 in the trial and also undocumented.Yet the party keg of in 08388041.9, mentioning does not provide any inner cooling, therefore needs external refrigeration to be about to drink up to beverage.Party keg 110 comprises shell 112, and it is preferably by the insulating materials of lightweight, and for example polystyrene foam etc. is processed.Shell comprises upper space 114 and lower space 116, and separate through sealing 118 (closure) in these two spaces.The beverage keg 120 that contains the appropriate amount beverage is contained in the lower space 116 and is fixed to and seals 118.Beverage keg 120 has upwards directed opening 122, and it is fixed to through mounting flange 123 and seals 118.Tapping pipeline (tapping line) 124 extends in the beverage keg 120 through opening 122, and the tapping pipeline constitutes tedge and extends to the outside of shell 112 through sealing 118 via upper space 114.In shell 112 outsides, use bleeder valve 126 with control beverage flowing through bleeder valve 126.When bleeder valve 126 is in the position of unlatching, beverage will flow through tapping pipeline 124 and leave party keg system 110 via drink taps 127, and beverage can be collected in the glass etc.Pad 128 is sealed to tapping pipeline 124 and seals 118.Pressure generator 130 is arranged in upper space 114, and pressure generator can be carbon dioxide pressurized supply keg, or the chemical pressure generator.Pressure generator 130 is connected to beverage keg 120 through forcing pipe 132, and forcing pipe 132 is connected to the inside of beverage keg 120 via opening 122 and is sealed to through pad 128 and seals 118.That between pressure generator 130 and shell 112 outsides, extends adds the pressurization that press button is used to cause beverage keg 120.Beverage keg 120 is filled with beverage and accommodates cooling device 20 in addition ^XXI, cooling device comprises main reaction thing cabin 28 and assisted reaction thing cabin 50, both opened through water-soluble barrier film in 78 minutes.Fluid intake 136 is near the water-soluble barrier film, and fluid intake 136 will allow that pressure fluid gets into cooling device 20 ^XXIFluid intake 136 comprises check-valves 138, and it prevents any reactant because the pressure in the beverage keg 120 changes and flows out and the contact beverage from fluid intake 136.

Figure 21 b has shown the party keg system 110 among Figure 23 a when adding press button 134 through operation and system has been started.When operating when adding press button 134, the carbon dioxide of pressurization will get into beverage keg 120 and the beverage that wherein holds will be pressurizeed, thereby beverage will get into cooling device 20 ^XXI Fluid intake 136 and dissolve water-soluble barrier film 78, this main reaction thing that causes being arranged in main reaction thing cabin 28 mixes with the assisted reaction thing that is arranged in assisted reaction thing cabin 50 and starts cooling reaction thus.The principle of work and power of cooling device 20 is similar to the cooling device 20 of Fig. 8 ^VIIIThe principle of work and power, yet in the opposite direction, i.e. the cooling device 20 of Fig. 8 ^VIIIReduction through pressure starts, and the cooling device 20 of Figure 21 ^XXIIncrease through pressure starts.Like this, party keg system 110 needn't be cooled off in advance and can be stored at room temperature.When beverage was about to drunk, operator presses added press button, and it causes cooling reaction automatically and after a few minutes, can pass through the beverage of operation bleeder valve 126 dispensing coolings.The shell that also expects the party keg system can omit or replace with simpler shell, if for example do not need insulation.

Figure 22 a has shown the beverage dispensing system 140 that is used for individual or professional use.This beverage dispensing system is known in the art and before in international pct application 2007/019853, had described.Beverage dispensing system 140 comprises pivotable cover 142, and it attaches to base plate 144.Pressure cabin 146 has been confirmed in the inside of cover 142, and opened through pressure lid 148 and base plate in 144 minutes in pressure cabin 146.Pressure lid 148 is through seal 150 and about base plate 144 sealings; Pressure lid 148 inwardly constitutes coupling flange 152 towards a side in pressure cabin 146; Coupling flange 152 is used for fixing beverage keg 120 ', and it is contained in the pressure cabin 146 and fills its major part.Beverage keg 120 ' constitutes crushable keg, and it is allowed when providing and delivering beverage owing to pressure flattens.Cooling and pressurization generator 156 are connected to pressure cabin 146 to be used to and to be positioned at the inner beverages of beverage keg 146 cooling and pressurization are provided.Tapping pipeline 124 ' is connected to bleeder valve 126 with pressure cabin 146, and tapping pipeline 124 provides intubate 151 towards the end in pressure cabin 146 and is used to pass coupling flange 152 to allow the fluid communication between beverage keg 120 ' inside and the bleeder valve 126.Tapping handle 154 is used for operation bleeder valve 126 between closed position and beverage dispensing position.In the beverage dispensing position, handle 154 moves to level orientation from its normal vertical orientations, and allows that beverage flow crosses bleeder valve 126 and leave beverage dispensing system 140 through drink taps 127 '.The inside drinks of beverage keg 120 ' and cooling device 20 ^XXIIThrough the fixing cooling device 120 of fixed bar 158 ^XXIIComprise main reaction thing cabin 28 and assisted reaction thing cabin 50, main reaction thing cabin 28 and assisted reaction thing cabin 50 barrier film that can be broken was opened in 54 minutes.Cooling device 20 ^XXIThe top provide the flexible partition 30 that links to each other with piercing elements 56, piercing elements 56 is extended towards the barrier film 54 of can breaking.

Figure 22 b has shown the beverage dispensing system 140 of Figure 24 a and has been pressurizeed in pressure cabin 146.Pressure in the pressure cabin 146 works and makes 120 distortion of beverage keg and flexible partition 30 is inwardly heaved towards the barrier film 54 that can break, and the piercing elements 56 of therefore stretching out makes barrier film 54 explosions of can breaking, and starts the chemical reaction that cooling is provided.Like this, accomplish the quick cooling of beverage keg 120 ' internal beverage, and can after starting, pass through the beverage of operation tapping handle 154 dispensing coolings from beverage keg 126 ' in a few minutes.Like this, the beverage keg needn't be cooled and avoid to allow beverage cools off in a conventional manner and need than high latency.When the beverage keg has been installed, cooling device 20 ^XXIIWith quick cooled beverage.

Figure 23 a has shown beverage dispensing system 140 ', except cooling device 20 ^XXIIIOutside, it is similar to the beverage dispensing system 140 shown in Figure 24, cooling device 20 ^XXIIIThe cooling device that is similar among Figure 21 carries out work.Cooling device 20 comprises main reaction thing cabin 28 and assisted reaction thing cabin 50, and both separate through water-soluble barrier film 78.Water-soluble barrier film 78 is connected on the coupling flange 152 through starting passage 160.Coupling flange 152 comprises dual-seal film 162, and it makes the outside seal of the inside that starts passage 160 relative beverage kegs 120 ' and the flange 152 that is coupled.Figure 23 a has shown the installation procedure that has shaken beverage keg 120 ' when allowing visit pressure cabin 146 when cover 142.

Figure 25 b shown when pressure lid 148 and has been attached on the cover 142, and the beverage dispensing system 140 of cover 142 when having shaken the normal position of getting back to confining pressure cabin 146.When attached pressure lid 148, dual-seal film 162 is penetrated and allows that fluid gets into starts passage 60 and tapping pipeline 124 '.When pressurizeed in pressure cabin 146, beverage will get into and start passage 160 and be dissolved in the water-soluble film 78 that starts passage 160 ends.Therefore like what discussed among Figure 22, start completion and chemical reaction and will start so that beverage is produced cooling.

Figure 24 has shown to have and has integrated cooling device 20 ^XXVIThe bottle 164 of bottle cap 166.Bottle cap 166 has lid flange 170, and it is installed near the buckleing on the line 168 of bottle 164 oral areas.Cooling device 20 ^XXVIBe fixed on the bottle cap 166 and stretch in the bottle 164 cooling device 20 ^XXVIHaving start button 96 ' is used for before bottle cap 166 is removed from bottle 164, starting cooling.

Figure 25 has shown the bottle 164 with cooling device, and this cooling device is similar to the cooling device shown in Figure 26 a, except the bottom at cooling device 20 provides flexible partition 30.When turning bottle cap 166 when allowing that gas-pressurized is overflowed from bottle 164, flexible partition 30 will outwards be heaved and initiating chamical reaction thus, be similar to the self-cooling beverage container shown in Fig. 4 a.

Figure 26 a has shown the bottle 164 with bottle cap 166 and enclosing cover 172.Enclosing cover 172 is connected on the dentation rod, and this dentation rod is positioned at cooling device 20 ^XXVIIn, middle barrier film 174 is with two kinds of reactants in the cooling device 20 separately.

Figure 26 b has shown the bottle 164 of Figure 27 when enclosing cover 172 quilts turn.Through turning enclosing cover, barrier film 174 broke in the middle of dentation rod 176 made, and mixed two kinds of reactants thus and started chemical reaction to produce cooling.After a few minutes, the beverage that can enclosing cover 172 and bottle cap 166 removed and obtain cooling off.

Figure 27 a has shown beverage rod 180, and its formation has the cooling stick of the cooling device 20 of integration.Beverage rod 180 comprises can be as the nahlock 182 and the elongated flexible storage device 184 that is used to hold cooling device of handle.Cooling device 20 comprises the storage device 186 that can break, and the storage device 186 that can break comprises first reactant.Second reactant is contained in the elongated flexible storage device 184 of storage device 186 outsides of can breaking.

Figure 27 b has shown the startup of the beverage rod 180 of Figure 28 a.Beverage rod 180 is through starting along the crooked beverage rod 180 of the direction of arrow.Through crooked beverage rod 180, rupturable storage device 186 is broken, first reactant mixes with second reactant, starts the chemical reaction that produces cooling effect thus.

Figure 27 c has shown when the storage device that can break and has broken and the beverage rod 180 of chemical reaction Figure 28 b when having started.

Figure 27 d has shown the beverage rod 180 of Figure 28 c when beverage rod 180 is inserted in the bottle 164.Bottle 164 can be to contain the beer with room temperature or the traditional beverages bottle of soft drink.Because the cooling effect of beverage rod 180, the beverage in the bottle 164 is cooled to the temperature that significantly is lower than room temperature.Also expecting beverage rod 180 can use with other container for drink and think that any beverage provides instant cooling.The long drink that for example can in the bar, provide beverage rod 180 to be used to cool off, for example Gin and Tonic (gin and tonic) keeps the cooling of long period to allow beverage.

For selecting among the embodiment, above-mentioned beverage rod 180 can have cone shape and use to produce ice cube immediately through the beverage rod that starts being inserted in the ice making mould that is filled with water with the ice making mould.Perhaps, the beverage rod can have cubic shaped with directly as the ice cube in the beverage etc.

Figure 28 a has shown first embodiment of bottle cover 188, and the outside that bottle cover 188 is fit to be applied to bottle 164 is for example to be used as wine cooler.Bottle cover 188 comprises main reaction thing cabin 28 and water tank chamber 44, and both opened by the barrier film that can be broken in 54 minutes.Bottle cover 188 is fixed to bottle through retainer ring 189, and retainer ring 189 is corresponding to first groove 190 in the bottle cover 188.Retainer ring 189 securely is attached on the bottle 164.First groove 190 is positioned at the position arranged side by side with main reaction thing cabin 28, second groove 191 be positioned at first groove, 190 tops and water tank chamber 44 arranged side by side.

Figure 28 b has shown that the bottle when through promote bottle cover 188 along being directed downwards of arrow it being started overlaps 188.Through downward promotion bottle cover 188, retainer ring 189 will and be accommodated in second groove 191 from 190 disengagings of first groove.Thus, retainer ring 189 breaks the barrier film 54 that can break, and the water in the water tank chamber 44 will mix and start cooling reaction with the reactant in the main reaction thing cabin 28.

Figure 28 c has shown the perspective view of the bottle 164 that has attached bottle cover 190.

Figure 29 a has shown the bottle cover that constitutes the wine cooler 192 with flat structure.Wine cooler 192 comprises skin 193, internal layer 194 and the broken barrier film between skin and internal layer 54.Space outer and that can break between the barrier film constitutes water tank chamber 44, and the space that can break between barrier film and the internal layer 194 constitutes main reaction thing cabin 28.Outer and

internal layer

192 and 194 be flexibility and formation bistable layer, the bistable layer has first settling position of the flat structure shown in Figure 29 a.

Figure 29 b has shown the wine cooler 192 that is in its second two stable position, and it forms round casing, its ectomesoderm 193 towards outer and internal layer 194 towards interior.Second settling position can be realized through wine cooler 192 is applied slight bending force.When being second structure, promptly during circular configuration, the barrier film 54 that can break breaks, so water and reactant take place to mix to produce cooling.

Figure 29 c has shown the perspective view of wine cooler 192.

Figure 29 d has shown the wine cooler 192 that is attached to beverage bottle 164 outsides.Therefore beverage bottle 164 inner beverages are cooled to consumption temperature effectively.

The efficient that expects above-mentioned self-cooling beverage container and cooling device depends on the heat conduction property (coefficient of heat conduction) of cooling device strongly.The coefficient of heat conduction can be through changing the geometry of cooling device, the surface area that particularly contacts and changing with beverage, and for example through metal fin is provided on the cooling device, the coefficient of heat conduction can increase, and increases cooling effectiveness thus.Therefore, through cooling device being encapsulated in for example in polystyrene foam or the hydrophobic material, the coefficient of heat conduction can reduce, and promptly cooling effectiveness reduces.Perhaps can use catalyst to increase the efficient of chemical cooling reaction, perhaps can use the selective absorption controlling agent to reduce the efficient of chemical cooling reaction.

Also expecting whole cooling device can be flexible material, for example rubber or plastics, and itself constitutes flexible partition.

The distortion of cooling device can start through the rope that pulling links to each other with hydrid component through cooling device.

Cooling device is configured as the structure of tube-in-tube and comes cool stream to cross the beverage of interior pipe with the reative cell in the space between pipe and the outer tube in utilizing.

Cooling device is configured as and can be installed in the tapping pipeline is crossed liquid discharging tube on every side with cool stream beverage.

Cooling device can have can be damaged seal to avoid accidental activation.

Cooling device comprises arming device, and this arming device comprises film, saturated salt solution and the impermeability film that salting liquid is separated with cooling device inside of permeable beverage.When immersing cooling device in the container; Water from beverage gets into saturated salt solution through osmosis through permeable film; The saturated salt solution volume increases; Therefore pressure is applied on the film, this pressure passes to cooling device inside and causes the internal pressure that raises, and the internal pressure of this rising can be used for starting reaction as stated.

Figure 30 has shown the cubic crystal 195 according to simplification of the present invention, and this crystal increases the not lysate of reaction as irreversible entropy and produces.Crystal 195 has 6 crystal faces altogether, and one of them crystal face is by Reference numeral 196 expressions, and crystal 195 has been confirmed 8 angles altogether in addition, and one of them is by Reference numeral 198 expressions.On the crystal face 196 of crystal 195, exist growth-gen, one of growth-gen is by Reference numeral 197 expressions.The growth of crystal receives sedimental inhibition on angle 198, and one of deposit is by Reference numeral 199 expressions.Deposit is formed by selective absorbent, and it selectively is adhered on the angle 198 of crystal 195.In a plurality of reactions, show and use selective absorbent to prevent crystal growth, the non-solubility product can be sealed stopped reaction process thus with remaining reactants along with its formation in these reactions.

In Figure 31, shown that according to dispensing of the present invention and refrigerator system it is by Reference numeral 200 whole expressions.This system comprises refrigerator cabinet 202; Refrigerator cabinet 202 comprises cupboard, and right hand portion defines the inner space as shown in Figure 31 middle and lower part in cupboard, has shown the partial cut-away view of refrigerator cabinet 202 among the figure; A plurality of beverage cans have wherein been shown; In the beverage can one it is supported on the beverage can slip skewed slot by Reference numeral 204 expressions, and in the slip skewed slot one is by Reference numeral 206 expressions and supported eight beverage cans 204 altogether.In refrigerator cabinet 202; Chiller unit 208 and unit heater 210 are by interior envelope; Be used separately as the purpose of cooling and heating; The interior compartment of refrigerator cabinet 202 is used for interior compartment at refrigerator cabinet 202 provides specific and preset thermostatically controlled temperature, 16-20 ℃ temperature for example, particularly approach or a little more than or a little less than the temperature of environment temperature.

If environment temperature substantially constant and be higher than a certain lower limit, then unit heater 210 can omit, because the interior compartment of refrigerator cabinet 202 is cooled to the temperature a little less than environment temperature for a long time.Because the internal temperature of refrigerator cabinet 202 is set under the specific thermostatically controlled temperature; So each beverage can 204 can comprise the cooling device that instruction according to the present invention is implemented; Be used in the quite short time, for example a few minutes such as 1-5 minute, in preferred about 2 minutes time; Provide from beverage can and be stored in temperature to specific chilling temperature, the for example cooling of 5 ℃ of temperature in the refrigerator cabinet 202.

Refrigerator cabinet 202 shown in Figure 31 provides dispensing mouth 212, and this dispensing mouth links to each other with the dispensing device skewed slot, and this dispensing device skewed slot is by Reference numeral 216 expressions.System 200 shown in Figure 31 advantageously is provided with other known elements or assembly; For example Coin acceptor or card or chip reader are included in operation and joining in the refrigerator cabinet 202 select mechanism; Be used for controlling the dispensing of beverage can 204, confirming payment or confirming to receive transferring accounts of specific quantity once to provide and deliver one after confirming from system 200.

Through thermostatically controlled refrigerator cabinet 202 is provided; Wherein single beverage can 204 is stored under the preferred preset and stationary temperature a little less than environment temperature; Total power consumption of comparing from supply main with traditional beverage can dispensing device is reduced significantly; Beverage can all is cooled to specific use low temperature in traditional beverage can dispensing device, and temperature promptly for example+5 ℃ is used for the provide convenience beverage can of cooled beverage to the user.Through cooling being reduced to environment temperature or, comparing with the dispensing device system, shown in figure 31 will only use the sub-fraction power consumption according to beverage dispensing of the present invention system with traditional beverage can refrigerator a little less than the temperature of environment temperature.Traditional beverage can dispensing device and refrigerator system must with beverage can from for example 25 ℃ or even higher environment temperature be cooled to 5 ℃ temperature; Yet system 200 according to the present invention only is used for beverage can is cooled to for example 20 ℃ temperature; With beverage can is compared with refrigerator system from 25 ℃ of traditional dispensing devices that are cooled to 5 ℃, rough estimation reduces at least 80% with energy consumption.

In Figure 32, shown that according to refrigerator system of the present invention, its integral body is expressed as Reference numeral 200 '.Be to be understood that the beverage dispenser system 200 that shows among Figure 31 can be modified as traditional refrigerating box or the refrigerator with openable Qianmen 203 '; Through openable Qianmen 203 '; Single beverage can 204 can be supported on many cover shelfs 206 '; Beverage can 204 rests on the shelf 206 ', and the user can be from the shelf beverage can 204 of taking afterwards opening refrigerator front door 202 '.

Except refrigerator system 200 ' comprised refrigerator cabinet door 203 ', refrigerator system 200 ' was similar to the refrigerator system 200 of Figure 31, thereby and this refrigerator cabinet door can be opened the inside of exposing refrigerator cabinet.A plurality of beverage bottles, one of them is by Reference numeral 204 ' expression and beverage keg, one of them is expressed as 204 ", being supported on the beverage can shelf, one in the beverage can shelf by Reference numeral 206 ' expression.Shelf 206 ' substitutes the system's skewed slot that combines Figure 31 to describe.In refrigerator cabinet 202 '; Chiller unit 208 and unit heater 210 are by interior envelope; Be used separately as the purpose of cooling and heating; The interior compartment of refrigerator cabinet 202 ' is used in the refrigerator cabinet interior compartment specific with preset thermostatically controlled temperature being provided, 16-20 ℃ temperature for example, particularly approach or a little more than or a little less than the temperature of environment temperature.

Through being included in the refrigerator cabinet as stated or the single beverage can in traditional refrigerating box is cooled to specific with preset temperature; Be included in cooling device that instruction in the single beverage can and according to the present invention implements and can be designed as and preset and accurate cooling are provided, the temperature that its temperature in refrigerator cabinet is cooled to user's beverage or beverage is poured out from beverage can single beverage can.

Though specific invention has been described with embodiment such as favourable container for drink, beverage can, bottle, cooling device, dispensing and cooling systems with reference to multiple in the above; But be to be understood that the present invention never is confined to the disclosure of the advantageous embodiment of above description; Characteristic among the characteristic in the self cooling container embodiments of more than differentiating and the cooling device embodiment of above description can merge, so that other embodiment from cold containers and cooling device to be provided.Other embodiment should be interpreted as a part of the present invention.In addition, the present invention be to be understood that for comprise any be equal to or similarly said structure and comprising characterize feature point of the present invention institute restricted portion, further equivalent structures defines the protection domain of present patent application.

Table 1

Table 2:

? Reactant	- Every mole of cooling value [kilocalorie/gram mole]
		?NH ₄Cl	-3,82
?(NH ₄)，SO ₄，H ₂O	-4,13
		H ₃BO ₃	-5,4
CaCl ₂，6H ₂O	-4,11
		Ca(NO ₃) ₂，4H ₂O	-2,99
Fe(NO ₃) ₂，9H ₂O	-9,1
		LiCl，3H ₂O	-1,98
Mg(NO ₃)，6H ₂O	-3,7
		MgSO ₄，7H ₂O	-3,18
Mn(NO ₃) ₂，6H ₂O	-6,2
		K?Al(SO ₄)，12H ₂O	-10,1
K?Cl	-4,94
		KI	-5,23
KNO ₃	-8,633
		K ₂C ₂O ₄	-4,6
K2C ₂O ₄，H ₂O	-7,5
		K ₂S ₂O ₅，1/2H ₂O	-10,22
K ₂S ₂O ₅	-11,0
		K ₂SO ₄	-6,32
K ₂S ₂O ₆	-13,0
		K ₂S ₂O ₃	-4,5
Na ₂B ₄O ₇，10H ₂O	-16,8
		Na ₂CO ₃，7H ₂O	-10,81
Na ₂CO ₃，10H ₂O	-16,22
		MaI，2H ₂O	-3,89
NaNO ₃	-5,05
		NaNO ₂	-3,6
Na ₃PO ₄，12H ₂O	-15,3
		Na?HPO ₄，7H ₂O	-12,04
Na ₂HPO ₄，12H ₂O	-23,18
		Na ₄，P ₂O ₇，10H ₂O	-11,7
Na ₂H ₂P ₂O ₇，6H ₂O	-14,0
		Na ₂SO ₃，7H ₂O	-11,1
Na ₂S ₂O ₆，2H ₂O	-11,86
		Na ₂S ₂O ₃，5H ₂O	-11,30
Sr(NO ₃) ₂，4H ₂O	-12,4
		Zn(NO ₃) ₂，6H ₂O	-6,0

		Acetylurea C ₂H ₆N ₂O ₂	-6,812
Benzoic acid	-6,501
		Oxalic acid	-8,485
Melitriose C ₁₈H ₃₂O ₁₆₁5H ₂O	-9,7
		Potassium tartrate, 4H ₂O	-12,342
Urea oxalate	-17,806

Claims

1. container that is used to store the drinks, said container have container body and seal and limit interior compartment, and said interior compartment limits internal capacity and comprises the said beverage of specified quantitative,

Said container further comprises the cooling device with shell, and said shell limits the said beverage that is no more than about 33% said specified quantitative and further is no more than the shell capacity of about 25% said internal capacity,

Said cooling device comprise at least two kinds of separation, nontoxic reactant basically;, said reactant causes that irreversible entropy increases reaction when reacting each other; Said entropy increases reaction with than at least 3 times greatly of the stoichiometric numbers of said reactant; Preferably at least 4 times, more preferably at least 5 times stoichiometric number generates nontoxic basically product

Said at least two kinds of separation, nontoxic basically reactant is included in the said cooling device with being separated from each other at first, and when increasing at said irreversible entropy when reacting to each other in the reaction, is being no more than 5 minutes; Preferably be no more than 3 minutes, in 2 minutes time, cause that the heat energy of said beverage reduces at least 50 joules/milliliters of beverages; Preferred at least 70 joules/milliliters of beverages; 70-85 joule/milliliter beverage for example, preferably approximately 80-85 joule/milliliter beverage and

Said cooling device further comprises starter, said starter be used to cause said at least two kinds of separation, the said reaction between the nontoxic reactant basically.

2. container according to claim 1; Said starter comprises pressure transmitter; The for example film of gas-permeable or flexible film; Be used for the pressure of said interior compartment raise and be sent to said cooling device and be used to cause said reaction; Perhaps be used for the pressure of said interior compartment reduced being sent to said cooling device and being used to cause said reaction, perhaps said starter comprise self-starter be used to cause said at least two kinds of separation, the said reaction between the nontoxic reactant basically.

3. according to any one described container among the claim 1-2; Said reactant is included in the cabin of the separation in the said cooling device; By can be damaged, soluble or rupturable divided thin film leaves; This film causes breakage, dissolves or breaks through said starter; Perhaps separated by displaceable stopper, perhaps said starter comprises that breakage of thin film applied device or penetrating device are used to make said film breaks or penetrate said film, and/or said starter can insert from the outside with respect to said container and preferably seal startup through said.

4. according to any one described container among the claim 1-3; Said irreversible entropy increase reaction from said at least two kinds of separation, the nontoxic reactant variation that produces volume to said nontoxic basically product basically; The variation of volume is no more than ± and 5%; For example preferably be no more than ± 4%, further preferably be no more than ± 3%, perhaps said cooling device is connected atmosphere to allow that increasing any too much gas that reduces in the reaction at said irreversible entropy can be discharged in the atmosphere.

5. according to any one described container among the claim 1-4; Said at least two kinds of separation, nontoxic reactant exists as the particle that separates or exists or exist as liquid separated as at least a particle and at least a liquid basically; Preferably for example starch coat, solubility plastic coating etc. prevent that said one or more particles from reacting through one or more external skins; Said one or more external skins can or be preferably the organic solvent dissolution of liquid by water; Water-soluble coating for example, perhaps said one or more particles are prevented from reacting through being embedded in solubility gel or the foam.

6. according to any one described container among the claim 1-5; Said cooling device further comprises chemical activating agent for example water, organic solvent such as alcohol, propane diols or acetone; And said liquid activating agent is preferably used as for example selective absorption controlling agent of reaction controlling agent, or the retarding agent of temperature setting.

7. according to any one described container among the claim 1-6; Said at least two kinds of separation, nontoxic basically reactant comprises one or more hydrated salts; Preferred inorganic hydrated salt, it increases a large amount of free water molecule of release in the reaction at said irreversible entropy.

8. according to any one described system in the aforementioned claim; Wherein said at least two kinds of separation, nontoxic basically reactant comprises first reactant, second reactant and the 3rd reactant, said second reactant exists as the particle that separates with the 3rd reactant and said first reactant is applied to the coating of the said particle that covers said second reactant and the 3rd reactant.

9. system according to claim 8; Wherein said second reactant and the 3rd reactant produce the first irreversible entropy and increase reaction; Generate intermediate reaction product, and said the 3rd reactant and the said intermediate reaction product generation second irreversible entropy that reacts increases reaction.

10. system according to claim 9, wherein said intermediate product is that gas and the said second irreversible entropy increase reaction and produce complexes or precipitates.

11. any one described system according to Claim 8-10, wherein said first reactant can or be preferably for example water-soluble the separating of organic solvent of liquid by water, prevents said first reactant, second reactant and the 3rd reactant reaction through said coating.

12. according to any one described system in the aforementioned claim, wherein said cooling device is contained in the said container.

13. a cooling device, the container that is used for storing the drinks or unite use with this container, said container has container body and seals and limit interior compartment, and said interior compartment limits internal capacity and comprises the said beverage of specified quantitative,

Said cooling device has the shell that limits the shell capacity, and this shell capacity is no more than the said beverage of about 33% said specified quantitative and further is no more than about 25% said internal capacity,

Said cooling device further comprise starter be used to cause said at least two kinds of separation, the said reaction between the nontoxic reactant basically.

14. cooling device according to claim 13; Said starter comprises pressure transmitter; The for example film of gas-permeable or flexible film; Be used for the pressure of said interior compartment raise and be sent to said cooling device and be used to cause said reaction; Perhaps be used for the pressure of said interior compartment reduced being sent to said cooling device and being used to cause said reaction, perhaps said starter comprise self-starter be used to cause said at least two kinds of separation, the said reaction between the nontoxic reactant basically.

15. according to any one described cooling device among the claim 13-14; Said reactant is included in the cabin of the separation in the said cooling device; By can be damaged, soluble or rupturable divided thin film leaves; This film causes breakage, dissolves or breaks through said starter; Perhaps separated by displaceable stopper, perhaps said starter comprises that breakage of thin film applied device or penetrating device are used to make said film breaks or penetrate said film, and/or said starter can insert from the outside with respect to said container and preferably seal startup through said.

16. according to any one described cooling device among the claim 13-15; Said irreversible entropy increase reaction from said at least two kinds of separation, the nontoxic reactant variation that produces volume to said nontoxic basically product basically; The variation of volume is no more than ± and 5%; For example preferably be no more than ± 4%, further preferably be no more than ± 3%, perhaps said cooling device is connected atmosphere to allow that increasing any too much gas that reduces in the reaction at said irreversible entropy can be discharged in the atmosphere.

17. according to any one described cooling device among the claim 13-16; Said at least two kinds of separation, nontoxic reactant exists as the particle that separates or exists or exist as liquid separated as at least a particle and at least a liquid basically; Preferably for example starch coat, solubility plastic coating etc. prevent that said one or more particles from reacting through one or more external skins; Said one or more external skins can or be preferably the organic solvent dissolution of liquid by water; Water-soluble coating for example, perhaps said one or more particles are prevented from reacting through being embedded in solubility gel or the foam.

18. according to any one described cooling device among the claim 13-17; Said cooling device further comprises chemical activating agent for example water, organic solvent such as alcohol, propane diols or acetone; And said liquid activating agent is preferably used as for example selective absorption controlling agent of reaction controlling agent, or the retarding agent of temperature setting.

19. according to any one described cooling device among the claim 13-18; Said at least two kinds of separation, nontoxic basically reactant comprises one or more hydrated salts; Preferred inorganic hydrated salt, it increases a large amount of free water molecule of release in the reaction at said irreversible entropy.

20. according to any one described cooling device among the claim 13-19; Said device construction is the metal can with beverage can size; Perhaps be configured to admit some cooling boxes that contain the container of beverage; Perhaps be configured to place the cooling stick of the inside of beverage bottle etc., perhaps be configured to perhaps be configured to the part of bottle closure or bottle cap around the part of the container cover of the body part of bottleneck or metal can or bottle for example.