CN106255652A - There is the pressurized package that fermentation advances - Google Patents

Abstract

A kind of containment system for cosmetics has the pressure-tight shell of the hollow limiting room, and described room is closed and comprised the sealing of product to be allocated, bag collapsible, nonventilated.Fermentation propulsion system is located between the inwall of room and nonventilated bag.Described fermentation propulsion system includes: a certain amount of yeast, and it can be at indoor generation fermentation gas；A certain amount of sugar, it is for supplying yeast consumption to supply sweat；And yeast extract, it is used for strengthening fermentation activity.Fermentation gas serves as the propellant for distributing product by pressure is applied to bag.Valve is fixed in the opening of shell so that room is hermetically sealed, and makes it possible to optionally distribute product from shell.

Description

There is the pressurized package that fermentation advances

Technical field

The present invention relates to the pressurized package of a kind of fermentation propulsion system with environmental protection.Especially, the present invention be directed to A kind of pressurized package with fermentation propulsion system, wherein, the product just distributed is by being enclosed in obstructed wind sleeve and sending out Ferment propulsion system is kept apart.

Background technology

The U.S. Patent number 4,017,602 of Cazorla et al. discloses and is provided with what aerosol form used for preparation The technique of product, wherein, compositions to be allocated is inoculated with microorganism, and described microorganism can cause fermentation thus in container Release the carbon dioxide serving as propellant.The shortcoming of disclosed system is that the microorganism to compound inoculation is and chemical combination Thing is allocated together, and system is also possible to distribute the gas any beastly of the side-product being probably sweat Taste.

The U.S. Patent number 5,009,340 of Morane discloses the packing container comprising product to be allocated and is contained in close Fermentation propulsion system in envelope flexible pouch 8 or sealed elastic encapsulating 212, it is positioned in product.Described bag or be encapsulated in generation Expand during fermentation gas, and from container allocation product.The shortcoming of disclosed system is to be packed in container also by product During the process be positioned over bag/encapsulating in container, product can expose to air.Exposure to air can cause product to distribute at it Degenerate before.

Accordingly, it would be desirable to fermentation propulsive gas colloidal sol, its during filling preferably by the product that distributed and propulsion system every From also air pollution isolation.

Summary of the invention

It is an object of the present invention to provide a kind of packaging with fermentation propulsion system, wherein, product to be allocated is by envelope Close and keep apart with fermentation propulsion system that seal, next in wind sleeve folding, obstructed.

The present invention is a kind of containment system for cosmetics.The pressure-tight shell with hollow body limits room, The closing of described room comprises the sealing of product to be allocated, bag folding, nonventilated.Fermentation propulsion system is located at room Inwall and nonventilated bag between.Described fermentation propulsion system includes causing fermentation with at indoor generation gas A certain amount of microorganism and a certain amount of food for microorganism generation gas.There is provided described a certain amount of food to produce body The gas of the long-pending room of being enough to pressurization.Gas serves as propellant.Valve is fixed in the opening of shell so that room is hermetically sealed, and Make it possible to optionally distribute product from shell.

In more detail, the present invention is to include the container of pressure-tight shell, and described pressure-tight shell has restriction room Hollow body.Hollow body has: the first end, and it has the opening entered in room；And the second end closed.It is positioned at hollow In body is the container with flexible wall, and described flexible wall limits the compressible reservoir for accommodating product.Container has There is the outlet connected with reservoir fluid.Outlet is positioned in the opening of hollow body or neighbouring described opening.Valve is fixed on shell Opening in so that room is hermetically sealed.Valve chest is fixed to container so that ingress port and the communication of container. Valve is selectively operable to from reservoir distribution product by distribution port.Propulsion system based on fermentation is positioned in room In between container and shell.Described propulsion system includes a certain amount of microorganism and a certain amount of food for microorganism.Micro- The biological consumption to food causes fermentation with at indoor generation gas, and described gas serves as the propellant for pressurizeing to room.Choosing Select the amount of microorganism and the amount of food and pressurize for the gas distributing product to produce the volume room of being enough to.When valve activated, In room, the volume of produced gas applies to be enough to distribute the pressure of product on flexible wall.

Accompanying drawing explanation

Fig. 1 is in the sectional view of the containment system of the present invention of occupied state, and wherein valve is pressed and produces for distribution Product P；

Fig. 2 is containment system partial exploded view in the pre-assembly；

Fig. 3 is containment system sectional view before filling；And

Fig. 4 is containment system sectional view during filling.

Fig. 5 is the sectional view of the alternate embodiments of containment system.

Detailed description of the invention

Referring now to Fig. 1 to Fig. 4, the containment system for cosmetics is generally shown at reference 2.Containment system 2 wraps Including pressure-tight shell 4, described pressure-tight shell has the hollow body limiting room 6.Shell 4 has: the first end 8, its tool There is the opening 10 entered in room 6；And the second end 12 closed.Being located within shell 4 is that the pouch-type with flexible wall 15 is held Device 14, described flexible wall limits the compressible reservoir 16 for comprising product P.Container 14 has and is in fluid communication with reservoir 16 Outlet 18.Container 14 is positioned in room 6 and exports 18 and is positioned in opening 10 or neighbouring described opening 10.

Valve 20 is fixed in the outlet 18 with reservoir 16 fluid communication of container 14, and described valve includes valve actuator 21 He Housing 22.Valve actuator 21 has the arrival end being positioned at the distribution port 24 outside reservoir 16 and being in fluid communication with reservoir 16 Mouth 26.As illustrated, it is internal that ingress port 26 is positioned at reservoir 16, but can make alternative layout.Such as, the entering of valve 20 Mouth port 26 can be connected to reservoir 16 by means of dip-tube or other similar fluid passage (not shown).Room 6 is by airtight close Envelope, this is to be illustrated in Fig. 5 by the periphery of the outlet 18 of container 14 is fixed to the first end 8(of shell), or if Fig. 1 is to scheming In 4, illustrated ground by being fixed to the ingress port 26 of valve chest 22 and valve chest 22 being hermetically secured to shell by container 14 The opening 10 of the first end 8 realize.Container 14 by any well-known mode (such as, glued, weld, crimp, press Power coordinates, Overmolded etc.) be hermetically secured to valve 20 or shell 4.By this way, valve chest 22 and container 14 are by airtightly It is fixed to shell 4 so that ingress port 26 is in fluid communication with the outlet 18 of container 14.Valve actuator 21 is selectively operable to Product P is distributed by distribution port 26 from reservoir 16.

As illustrated in fig. 1, for distributing product P from the containment system 2 having been filled with and pressurize, opposing is by (such as) valve bullet Spring 23 provide resistance valve actuator 21 is pressed, described valve spring be positioned at valve actuator 21 and housing 22 opposite shoulder it Between.Being pressed by valve actuator and open valve inlet port 26, it is in fluid communication with valve distribution port 24 by means of valve guide 25.Beat Valve opening ingress port 26 is permitted product P and is flowed into ingress port 26 from compressible reservoir 16 on the direction of arrow 33, upwards Flow through conduit 25 and flowed out by distribution port 24.The actuator button 27 with nozzle 29 can be provided with from containment system 2 side To ground direct product P, so, consumer can readily use product.Nozzle 29 can be provided with Venturi tube 31 or other structure with It is easy to produce thin mist spray pattern.

For pressurizeing to containment system 2, in room 6, propulsion system 34 based on fermentation is located at pouch-type container 14 close with pressure Close between shell 4.Described propulsion system 34 includes causing fermentation with a certain amount of microorganism 28 at indoor generation gas And a certain amount of food 30 for microorganism.Before container 14 is inserted in shell 4 (that is, being inserted in room 6), will Propulsion system 34 is inserted in room 6.Container 14 is being inserted in shell 4 and is making room 6 airtight relative to the ambient air outside shell 4 After sealing, propulsion system 34 starts to produce gas via fermentation in closed chamber 6.Microorganism (such as, yeast) is by food (example As, sugar) change into CO₂And ethanol.The gas produced via fermentation is used for being retrained by shell 4 and container 14 is filled with product at volume During product P, the accumulation of throughput is pressurizeed to room 6.Select amount and the amount of food 30 of microorganism 28 respectively, to produce via fermentation Volume be enough to room 6 be pressurized to desired degree and is less than the gas of the pressure limit of pressure-tight shell 4.When activating valve (such as, by valve actuator button 27 is pressed, as by indicated in the arrow 32 under the sensing in Fig. 1) when 20, institute in room 6 The volume of the gas produced applies to be enough to distribute the pressure of product P on the flexible wall 15 of pouch-type container 14.Therefore, via fermentation The gas produced serves as the propellant of product P.

The microorganism 28 that can cause fermentation is preferably the yeast of the amount of several milliliters.Excellent for the food 30 of microorganism 28 Selection of land is sugar, and it is also to provide with the amount of several ml.The gas produced by fermentation is carbon dioxide (CO₂) gas.By yeast The CO produced₂The amount of gas is determined by the amount by the sugar adding system to.For producing the phase in higher gas production and room 6 Answer higher gas pressure, add more sugar to system in proportion.The sugar added is the most, yeast the gas produced will More, to produce higher pressure in room 6.The final pressure realized is therefore by the microorganism (yeast) being supplied in system The amount of food (sugared) determine.

Propulsion system 34 can farther include to be added to the activity booster of propulsion system based on fermentation, and it is yeast The form of extract.Suitably yeast extract is that (such as) sells with trade name Springer, and it can be from Bio- The subsidiary of Springer(Lesaffre group (Soci é t é Industrielle Lesaffre(S.I.L.), Marcq-en- Baroeul, France) buy.Yeast extract can include one or more in vitamin, aminoacid, phosphate and ammonium sulfate Kind.Yeast extract increases breeding and the growth of yeast, and promotes yeast activity in producing fermentation gas.Yeast extract It is added to propulsion system with every liter of yeast and the sugared speed close to 5 grams.

For illustration purposes, in fig. 2, a certain amount of microorganism 28 and a certain amount of food 30 are shown as respectively from micro- Biological supply pipe 36 and food supply pipe 38 add room 6 to.Every kind of amount is supplied in funnel 40, and described funnel is micro-by mixing Biological and food is directed in room 6.But, can the most dividually or (such as) cooling pre-mix state under will Microorganism 28 and food 30 provide room 6, as long as the most substantially carrying out sweat before the sealing of room 6.Microorganism 28 With any one in food 30 or both can be dried, powder type provides or is provided as liquid or slurry.If micro-life Thing and food are to provide with dry or powder type, then can be in any stage before the sealing of room 6 by a certain amount of liquid (such as, water) adds propulsion system to.

After mixing in room 6, the propulsion system 34 based on fermentation being added with yeast extract gets started sharp Live.After closed chamber 6 close to 3-4 hour in, pressure starts to build up inside room 6.Close after closed chamber 6 Within 36 to 48 hours, reach final pressure.Sweat effect at a temperature of close to 34 degrees Celsius is best.When yeast consumes When being fed to all sugar of system, reach the final pressure in room 6.Yeast was survived in systems close to 6-7 month.If at ferment Add extra sugar to system during female survival, then can produce additional gas and corresponding extra pressure.

It is safe due to propulsion system based on fermentation from biological angle and activates relatively slow, so holding The production of device system 2, assemble and fill line (including filling and the insertion of propulsive element based on fermentation of product P) and need not add Pressure pad device (such as, high pressure propellant feed case and pipeline), pressurization closed space or relevant safety equipment and structure (example As, blast wall and window).Can under there is the Atmospheric Condition of minimum safety equipment and structure process container system 2 Produce, assemble and fill line.Propulsion system based on fermentation activates gets up relatively slowly, therefore without carrying out the dress of room 6 hastily Join and seal.Can reach certain by reduction or liter high-temperature or the relative velocity controlling to activate by the amount managing liquid Degree.Being different from typical aerosol, product P and propulsion system 34 are isolation, and owing to being contained in pouch-type container 14 And be protected.

Container 14 being assembled in room 6 to be formed before containment system 2, when or afterwards, it is possible to product P is filled extremely In container 14.Such as, before assembling container system 2, product P can be filled in container 14, and therefore can be away from container system The position filling product P of the assembling point of system 2.This method offer product P preferably separates with propulsion system parts, thus Further ensure that and cross-contamination does not occurs.

Alternately, the opening 10 in pressure-tight shell 4 is too small so that the feelings that cannot accommodate pre-packed canister 14 Under condition, pouch-type container 14 can have the first compressed configuration 42(during the assembling of system and be illustrated in Fig. 2 and Fig. 3) and at product Filling after there is the second expanded configuration 44(be illustrated in Fig. 1 and Fig. 4).In the first compressed configuration 42, pouch-type container 14 (such as) it is crushed and slightly curling is so that be inserted through the opening 10 of shell 4 between the erecting stage of system 2.Such as Fig. 2 to Fig. 4 Ground illustrated in, the container 14 being in the first compressed configuration 42 assembled in advance can have valve 20, i.e. container 14 is being inserted into shell Before in the room 6 of 4, valve 20 can be by the outlet 18 being fixed on container 14 airtightly.Then assembled in advance can be had the place of valve 20 Container 14 in the first compressed configuration 42 is inserted in the room 6 of shell 4.After container 14 is inserted in shell 4, at arrow 46 Direction on valve actuator 21 is pressed, and can by distribution port 24 and ingress port 26 product P is injected in container 14, As respectively by illustrated in arrow 48 and 50.Product P is injected in container 14 and causes container 14 to expand into the second expanded configuration 44.Preferably, after container 14 has been positioned in room 6 but before the gas-tight seal of room 6, product P is injected into container 14 In.By injecting product P before being sealed room 6, it is able to the too much air in discharge chamber 6 before sealing.Alternately, Under stress product P can be injected in container 14 after room 6 is hermetically sealed, thus accumulation pressure in the room 6 of shell 4 Power, this pressure can be used for being discharged from container 14 by product when pressing valve actuator 21 after a while.Under any circumstance, valve 20 Valve chest 22 all can be accommodated pouch-type container 14 by the opening 10 being fixed on pressure-tight shell 4 airtightly with gas-tight seal Room 6 with propulsion system 34 based on fermentation.

The valve 20 of containment system 2 can include the neck attachment knot for being fixed on by valve chest 22 in the opening 10 of shell 4 Structure 52.As illustrated in Fig. 1 to Fig. 4, neck attachment structure 52 can be with valve chest 22 global formation.Alternately, as in Fig. 5 Illustrated ground, neck attachment structure 52 can include in axle ring or the separate section of tube-in-tube structure 54 form, and it is by valve chest 22 even Receive the opening 10 in shell 4.Axle ring or sleeve 54 can by any well-known mode (such as, glued, weld, press Connect, pressure cooperation, screw thread etc.) be hermetically secured to housing 22.Similarly, no matter accessory structure (is to form entirety with housing 22 Or with separate axle ring or form of sleeve) can by any well-known mode (such as, glued, weld, crimp, pressure Cooperation, screw thread etc.) it is hermetically secured to the opening 10 of shell.

Containment system 2 can be back filled with product.Such as, after pouch-type container 14 distributes all product P, optional Remove the valve 20 being attached with pouch-type container 14 to selecting property from shell 4.Such as, outside neck attachment structure 52 can be provided with and can be received in The screw thread in the corresponding structure in opening 10 in shell 4 or bayonet arrangement.By being attached with new pouch-type container 14 and can fill out The new valve 20 being filled with product P is inserted and secured in shell 4.Alternately, outside initial pouch-type container 14 can be retained in It is back filled with product P, i.e. by with similar for the process of initially filling container as discussed above in shell 4 and by valve 20 Process.

Similarly, optionally valve 20 is removed from shell 4, enabling by providing yeast and/or the fresh confession of sugar Give propulsion system 34 of reloading.

As Working Examples, containment system 2 is provided with pressure-tight shell 4, and it is 262 that described pressure-tight shell has volume The room 6 of ml.Container 14 is located in the room 6 of shell 4.Container 14 has reservoir 16, when being in the second expanded configuration 44, described Reservoir has the maximum volume of 150 ml.Product P is provided in reservoir 16.There is provided the product P of the amount of 150 ml, with complete Full packing is in the reservoir 16 of expanded configuration 44.Propulsion system based on fermentation is also provided in room 6.Propelling system based on fermentation System includes the dry yeast of 1.25 grams, the G/W liquid mixture (prepared by every 250 grams of sugared ratios of 1 liter of water) of 11 grams With the yeast extract of 1.3 grams.Make propulsion system become more mobility if necessary, then can add extra water to sugar And yeast.The aforesaid amount expectation generation of the yeast in above-mentioned building volume and sugar be enough to system be added under ambient temperature It is pressed onto the gas of 6.5 bars.The pressure reached can substantially be affected by extreme ambient temperature.

Advantages of the present invention includes that propulsion system based on fermentation is environmental protection.All propulsion system parts are all safety , biogenetic derivation, reproducible and ecology is friendly.Owing to the parts of propulsion system are based on plant, and plant Generally absorb CO₂To produce sugar, therefore to the CO of air₂Do not have a net increase of length.Further, pressure is used to make time system inflates Between can be relatively slow.Such as, microorganism (yeast) and food (sugared) will take for when lacking synergist close to 5-6 hour Start to produce the gas that be enough to make system inflate.This inflation rate slowly allow do not have special pressure-tight equipment or The parts of the most easily assembly system in the case of making space.This is formed with current propellant distinct right Ratio, current propellant can inflammable and/or under high pressure use, the most during manufacture due to unexpected burning, blast or High pressure discharges and creates extra potential safety hazard and the threat of the injury to workman.It addition, current propellant is known Pollutant.The yeast of the present invention and sugar need not any special security protection or processing procedure, and are easily handled and milli Without difficult or expensive removal process.Can with described propulsion system replace any current propulsion system (such as, butane, Dimethyl ether, CFC etc.).

Owing to system is the bag system making product P isolate with Propellant System 34 and does not relies on dip-tube, so consumption Person can system keep being in any angle (include be inverted) (with must be maintained at uprightly to distribute the legacy system shape of product It is allocated from system in the case of in contrast).The additional advantage of the pouch-type system of the sealing of the present invention is: if equipped with product Before product P, reservoir 16 is carried out disinfection, the preservative being the most likely reduced or eliminated in product.

Can include from the product that system is allocated: sunscreen spray, emulsion, shaving gel or facial cream, fluid product or Thick product.System can be further used for toothpaste, food product (such as, sauce, tomato sauce, mustard, mayonnaise, fresh milk Oil, cheese etc.).Containment system is nonventilated, therefore avoids any potential pollution problem.

It will be appreciated that, in the case of without departing from the scope of following claims, it is possible to make the particular form of each several part With the various modifications and variations in terms of structure.

Claims (8)

1. for a containment system for cosmetics, comprising:

Pressure-tight shell, has the hollow body limiting room, and described shell has: the first end, and it has in the described room of entrance Opening；And the second end closed；

Container, it has the flexible wall limiting compressible reservoir, and described reservoir is used for accommodating described product, described container Having the outlet connected with described reservoir fluid, in the chamber and described outlet is positioned in described opening in described container location Or adjacent to described opening；

Valve, it includes that actuator and housing, described actuator have distribution port, ingress port and connect in the way of fluid communication Connecing the conduit of described distribution port and described ingress port, described valve chest is fixed in the described opening of described shell and makes institute Stating room to be hermetically sealed, described valve chest is fixed to described container and makes the described outlet stream of described ingress port and described container Body connects, and described actuator can optionally operate to distribute described product by described distribution port from described reservoir； And

Propulsion system based on fermentation, it is in the chamber between described container and described shell, described propulsion system bag Including a certain amount of microorganism and a certain amount of food, described microorganism can cause fermentation with in described indoor generation gas, institute State gas and serve as the propellant for pressurizeing to described room, and described food is for supplying described microbial consumption to produce volume It is enough to the gas of described room pressurization；

Wherein, when activating described valve, in described room, the volume of produced gas applies to be enough to distribute on described flexible wall The pressure of product.

Containment system the most according to claim 1, wherein, described container has the first pressure during the assembling of described system Contracting configuration, and there is after the filling of described product the second expanded configuration.

Containment system the most according to claim 1, it farther includes to be fixed on described in described shell described valve to open Neck attachment structure in Kou.

Containment system according to claim 1, wherein, described container is flexible pouch.

Containment system the most according to claim 1, wherein, described microorganism includes yeast, and described a certain amount of food Including sugar.

Containment system the most according to claim 5, it farther includes activity booster, is added by described activity booster To described propulsion system based on fermentation.

Containment system the most according to claim 6, wherein, described synergist includes yeast extract.

Containment system the most according to claim 7, wherein, described yeast extract includes vitamin, aminoacid, phosphate With at least one in ammonium sulfate.

Containment system the most according to claim 1, its farther include the valve actuator being fixed to described valve actuator by Button, described valve actuator button has and the Venturi tube of described distribution port fluid communication.