CN102272015A

CN102272015A - A dry ice container system

Info

Publication number: CN102272015A
Application number: CN2010800040333A
Authority: CN
Inventors: 维克多·杨
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-01-06
Filing date: 2010-01-06
Publication date: 2011-12-07
Also published as: CA2752452A1; EP2373553A4; US20100024441A1; EP2373553A1; WO2010078652A1

Abstract

In an embodiment of the present invention, a dry ice container system comprises: a dry ice vaporizing device including a container, and an external implement configured to unlock the closed container. The container comprises a vapor permeable surface and is made up of two container portions configured to be closed together so that the container is closable. The vapor permeable surface comprises a plurality of holes each having a hole dimension less than approximately 4 mm, and wherein the container is configured, when the container is locked closed, to prevent the release of dry ice pieces having dimensions larger than the hole dimension.

Description

A kind of dry ice containment system

Related application

The application's case requires the U.S. Provisional Patent Application the 61/204th of submission on January 6th, 2009, No. 258, the U.S. Patent application the 12/386th that on April 20th, 2009 submitted to, the U.S. Patent application the 12/583rd that No. 527 and on August 25th, 2009 submit to, No. 676 preceence, the disclosure of these patents is incorporated herein by reference.

Technical field

The present invention relates to be used for the dry ice container of cooling liquid, and be particularly related to the dry ice container that is immersed in the beverage.

Background technology

The present invention relates to the safety distribution field of dry ice in the food applications.Dry ice can produce vision fog effect with liquid.Can constitute harm and cause damage if dry ice is dealt with improperly or taken in.Dry ice can cause frostbite and suffocate.

Summary of the invention

The application be intended to solve with the dry ice that is used for producing the vision fog effect in the relevant safety problem of the distribution of food applications, reduce dry ice contact server's skin simultaneously or swallowed by the customer unintentionally and cause the risk of frostbite.And by creating bigger demand and passing through to create a kind of like this sensation: in case the vision fog effect finishes, food supply has just lost some effectiveness, designs this application to increase the rate of consumption of Food ﹠ Drink.The effectiveness forfeiture of this perception may the encourage consumer be ordered substitute.

According to one embodiment of the invention, a kind of dry ice containment system comprises: a dry ice carburetion device, and it comprises a container; And an outside utensil, it is configured to open institute's closing containers.Described container comprises vapor permeable surface and is made of two container parts that described two container parts are configured to be closed in together so that described container can cut out.Described vapor permeable surface comprises a plurality of holes, and each hole size is less than about 4mm, and wherein said container is configured to be locked when cutting out at described container and prevents the release of size greater than the dry ice fragment of described hole dimension.

According to an aspect, described container comprises a closing component, and it comprises first and second hook elements.Described outside utensil comprises that one opens piece, and it comprises that one opens element, for example sells, and it is configured to break away from the engagement of one of described hook elements and with described another hook elements, thereby opens described container; And a disconnector, thereby it is configured to separate described container part and opens described container.

According to an aspect, described container has and allows outside utensil and the engagement of one of described hook elements with its hole from another described hook elements release.Preferably, the longitudinal axis of described hole and container axially aligns and is centered at the bottom of described container so that described container can be pushed downwards on a pin of described outside utensil around the longitudinal axis where position in office.

According to an aspect, described device further comprises the leader who is connected to described container, and the length of described handle is not shorter than the longest dimension of container.According to an aspect, described handle comprises a hollow tubular, and it is configured to allow liquid to pass through.

According to an aspect, described container is substantially cylindrical and comprises: one first container part, and it is one first semicylinder that comprises a circular portion and two end portion; One second container part, it is one second semicylinder that comprises a circular portion and two end portion, described second semicylinder can be connected to described first semicylinder so that when described first semicylinder cooperated with described second semicylinder, it formed a cylinder basically; An and hinge, its end at described first and second semicylinder connects described first and second semicylinder, at least one of wherein said first and second semicylinder comprises described vapor permeable surface, and wherein said first and second semicylinder is configured to relative to each other open and close by described hinge.

According to an aspect, described device further comprises the leader who is connected to described container, and the length of described handle is not shorter than the longest dimension of container, and wherein, described handle comprises a hollow tubular, and it is configured to allow liquid to pass through.

According to one embodiment of the invention, a kind of method of dry ice of using comprises: a dry ice carburetion device as described in this article is provided; Dry ice is inserted described device; Close and lock and to close inlet; And with in the described device immersion liquid.

According to one embodiment of the invention, a kind of dry ice carburetion device comprises: a container, and it comprises that vapor permeable surface and can close inlet, it is configured to be lockable and shuts; And the leader who is connected to described container, the length of described handle is not shorter than the longest dimension of container, wherein, described vapor permeable surface comprises a plurality of holes, each hole size is less than about 4mm, and wherein said container is configured to prevent size passing through greater than the dry ice fragment of described hole dimension when cutting out on the entry lock can cutting out.

According to an aspect, described handle comprises a hollow tubular, and it is configured to allow liquid to pass through.According to an aspect, described container comprises a closing component, and it comprises a convex suspension hook that can be locked into a spill receptor.

According to one embodiment of the invention, a kind of dry ice carburetion device comprises: an a) hydrostatic column substantially, and it comprises one first semicylinder, it comprises a circular portion and two end portion; One second semicylinder, it comprises a circular portion and two end portion, described second semicylinder can be connected to described first semicylinder so that when described first semicylinder cooperated with described second semicylinder, it formed a cylinder substantially; And a hinge, its end at described first and second semicylinder connects described first and second semicylinder; At least one of wherein said first and second semicylinder comprises a vapor permeable surface, it comprises a plurality of holes, each hole size is less than about 4mm, wherein said first and second semicylinder is configured to relative to each other open and close by described hinge, wherein said hydrostatic column substantially is configured to be lockable closes, and wherein said hydrostatic column substantially is configured to prevent size passing through greater than the dry ice fragment of described hole dimension when closing being lockable.

According to an aspect, described hydrostatic column substantially comprises a closing component, comprises a convex suspension hook that can be locked into this spill receptor thereby described second semicylinder comprises a spill receptor and described first semicylinder.

According to an aspect, described device further comprises the leader who is connected to described hydrostatic column substantially, and the length of described handle is not shorter than the longest dimension of described hydrostatic column substantially.According to an aspect, described handle comprises a hollow tubular, and it is configured to allow liquid to pass through.

According to an aspect, the invention provides a dry ice container, with dry ice insert described container one the inlet and a permeable surface, wherein during vaporizing, described permeable surface provides an outlet to the steam in the container that dry ice produced and prevents that dry ice from discharging described container.

According to one aspect of the present invention, described inlet is configured to receive dry ice and safety shutdown.According to another aspect of the present invention, described container comprises that further a lid is to close this inlet.According to another aspect of the present invention, described container further comprises a fastener, and it is used to guarantee the sealing of this inlet.According to another aspect of the present invention, described permeable surface is used for the outer liquid carbonation of container is also cooled off.According to another aspect of the present invention, described container further comprises the leader, and it is made by rod, chain, rope or foodstuff.

The present invention also provides a kind of method, and it distributes dry ice, dry ice is inserted described container, closes inlet and follow the dry ice container is immersed in the liquid by a dry ice container is provided.

The present invention also provides a kind of dry ice distribution system, it comprises liquid, a liquid container, dry ice supply, a dry ice container and a permeable surface, wherein during vaporizing, described permeable surface provides an outlet to the steam in the container that dry ice produced and prevents that substantially dry ice from discharging described container.

According to another aspect of the present invention, described dry ice distribution system further comprises an automatic equipment, and it is configured to described dry ice be inserted described container entrance and it is closed.

Description of drawings

Fig. 1 a shows the transparent view of the preferred embodiment that inlet is wherein opened.

Fig. 1 b shows the transparent view of the preferred embodiment that inlet is wherein closed.

Fig. 2 a shows the scheme drawing of the dry ice distribution system that inlet is wherein opened.

Fig. 2 b demonstration wherein enters the mouth and closes and immerse the scheme drawing of the dry ice distribution system in the liquid.

Fig. 3 a shows the transparent view have another embodiment that an additional tiles and inlet open.

Fig. 3 b shows the transparent view have another embodiment that an additional tiles and inlet close.

Fig. 4 a shows the transparent view with another embodiment that additional flexibility arm and fastener and inlet open.

Fig. 4 b shows the transparent view with another embodiment that additional flexibility arm and fastener and inlet close.

Fig. 5 a shows the transparent view of another embodiment that inlet is wherein opened.

Fig. 5 b shows the transparent view of another embodiment that wherein inlet contraction is closed.

Fig. 6 shows the transparent view of another embodiment that has the cover plate that is attached to an axle.

Fig. 7 shows the transparent view of another embodiment that has the cover plate that is attached to a hinge.

Fig. 8 shows the transparent view of another embodiment with extra chain.

Fig. 9 shows the transparent view of another embodiment with additional pipe.

Figure 10 a shows the transparent view of another embodiment that a closing component and inlet open.

Figure 10 b shows the transparent view of another embodiment that a closing component and inlet close.

Figure 11 shows that one opens the transparent view of the embodiment of piece.

Figure 12 shows the transparent view of the embodiment of the configuration be used to open described container.

Figure 13 shows to have the transparent view that one of pin is opened an embodiment of piece.

Figure 14 a is the sectional elevation that has the container embodiments of the unlatching piece that is used to open container.

Figure 14 b is the sectional elevation that has the embodiment of shown container among Figure 14 a of the unlatching piece of opening container.

The specific embodiment

In this specification sheets and claim, in some embodiments of the invention, it is not to be intended to get rid of the possibility that comprises a plurality of objects that an object is used article " " or " being somebody's turn to do ".In some examples of specification sheets and appended claims, it will be apparent to one skilled in the art that at least some embodiment of the present invention to comprise a plurality of objects.

With reference to figure 1a and Fig. 1 b, it shows an embodiment of a dry ice distributing box, and described dry ice distributing box comprises dry ice container 101, and it is made up of permeable surface makes have a plurality of holes 102 in dry ice container 101.The shape of dry ice container 101 can be for cylindrical, oblong, maybe can be used to create the numeral of marketing message or the shape of icon for similar.Described container 101 can be made up of plastics, metal, glass, timber or edible materials.Preferably, in described container 101, can exist approximately at least one to 120 holes 102.The surf zone diameter in single hole 102 is 1mm ²To 4mm ², more preferably be 2mm ²To 3mm ², discharge described dry ice container 101 so that prevent the dry ice of potential danger quantity.Described dry ice container 101 has inlet 105, and dry ice can be inserted into and hermetically closing herein.105 can open and close under the situation that does not have hinge 103 although enter the mouth obviously, and Fig. 1 a has shown that opening of the inlet 105 that utilizes hinge 103 and Fig. 1 b have shown closing of the inlet 105 that utilizes hinge 103.In addition, although be not essential to the invention, this embodiment comprises leader 104.Described handle 104 one or more element 106 of can arranging in pairs or groups, it can comprise decoration element, food element, illumination component, text element or marketing material.

In operation, described dry ice inlet 105 will be opened and allow a dry ice to insert in the described dry ice container 101.Described inlet 105 is safety shutdown and and then permission dry ice safety distribution in food applications then.

With reference to figure 2a and Fig. 2 b, it shows an embodiment of a dry ice distribution system, described dry ice distribution system comprises the dry ice 201 that is contained in the dry ice container 101, and described dry ice container 101 immerses in the liquid 203 that is contained in the liquid container 202 (for example drinking glass or bowl).Fig. 2 a shows the dry ice 201 in the described dry ice container 101, and Fig. 2 b shows the described dry ice container 101 that immerses in the liquid 203.After described dry ice container 101 immersed in the liquid 203, permeable surface 102 permission liquid 203 flow to described dry ice container 101 and with dry ice 201 mutual actions and produce steam.Described steam is discharged described dry ice container 101 by permeable surface 102 and is mixed with liquid 203.Some steam will dissolve in liquid 203 and produce carbonic acid, give the liquid carbonation effectively.Because the density of steam gas is less than the density of liquid 203, most steam will rise to the end face of liquid 203.When steam rose to this level, the vision fog effect produced.Selected liquid 203 can be the liquid of any kind of that preferably has high moisture content.Those skilled in the art understand many good liquid 203.Because the temperature of dry ice 201 is-78.5 ℃, so the liquid 203 that is in contact with it can be cooled.

With reference to figure 3a and Fig. 3 b.Described dry ice container 101 has the cover plate receiving surface 302 around described dry ice mouth 105.Described dry ice inlet 105 can be sealed with cover plate or sticking patch 301.Described cover plate 301 can be made up of the elastomeric material (for example plastics, foam, aluminium foil or lamination carboard) of good seal.Described cover plate 301 can be attached to described adhesive surface 302 with the bonding mode of adhesives, high temperature bonding or zipper lock.Fig. 3 b shows described dry ice inlet 105 cover plates 301 to midway of sealing.

With reference to figure 4a and Fig. 4 b.Described dry ice container 101 has to be attached to and covers an elastic arm 401 of 402.Described lid can use fastener, preferred cable strap (zip tie), the described dry ice inlet 105 of security seal.Described fastener can be made up of tooth bar 403 and ratchet 404.Preferably, described ratchet 404 allows only motion of translation in one direction of described tooth bar 403.All elements that comprise dry ice container 101, elastic arm 401, lid 402 and fastener can be fabricated to single component and also can be made up of plastics.Fig. 4 b shows that described elastic arm 401 still is attached to described dry ice container 101 and lid 402 simultaneously by lid 402 leak free dry ice inlet 105.Fig. 4 b has shown that also therefore tooth bar 403 is pulled through ratchet 404 guarantees to close inlet 105.

With reference to figure 5a and Fig. 5 b, described dry ice container 101 is made up of elastomeric material so that described dry ice inlet 105 can tighten is closed sealing.Fig. 5 b shows that tightening the dry ice of closing enters the mouth 105.Use adhesives, high temperature bonding or the bonding mode of zipper lock can realize described sealing 501.

With reference to figure 6, described dry ice container 101 has dry ice inlet 105, and it is closed with plectane 601, and described plectane 601 can be around axle 602 rotations that are attached to described dry ice container 101.Described plectane 601 can rotate on a direction so that the flat surface of described plectane 105 covers the surf zone of described dry ice inlet 105 well.

With reference to figure 7, described dry ice container 101 has dry ice inlet 105, and it is closed with the cover plate 701 that is attached to hinge 702.Described hinge 702 is attached to container 101 and cover plate 701.

With reference to figure 8, described dry ice container 101 is attached to a chain 801, and it further is attached to anchor 802.Described anchor 802 can be used for allowing chain 801 to dangle at the edge of described container under situation about not falling.Described chain 801 can be by forming such as the material of metal, plastics or fiber with anchor 802.

With reference to figure 9, described dry ice container 101 is attached to hollow tube 901.Described pipe 901 pierces through container 101 and therefore provides outlet for the steam in the container 101.Described pipe 901 also can be configured to not pierce through described container 101 and extend along container 101 sides, therefore allows described pipe 901 as suction pipe.

With reference to figure 10a and Figure 10 b, described dry ice container 101 has a closing component, and it comprises first shut-off block 1001 and second shut-off block 1002, and it can be first hook elements 1001 and second hook elements 1002.In the embodiment shown in Figure 10 a and Figure 10 b, described first hook elements 1001 is configured in the hole 1004 and therefore is regarded as concave member.Described hole 1004 has one first end 1005, enters

hole

1004 and 1004 withdraws from from the hole by this end second hook elements 1002; And one second end 1006, it is in the outside of described container 101.Second hook elements 1002 is configured to a convex hook elements.Figure 10 b shows the concave member 1001 and male element 1002 that is engaged with each other together, thereby container 101 is locked in off position.In one embodiment, when institute's ingear convex hook elements 1002 preferably from the hole 1004 second terminal 1006 when outstanding, allow

hook elements

1001 and 1002 by power being applied on the protuberate zone that described hook elements 1002 exposed thus, so that hook elements 1002 is promoted the engagement that breaks away from other hook elements 1001,,

hook elements

1001 and 1002 cooperates thereby being broken away from.The surf zone that second hook elements 1002 is exposed can be at 1mm ²To 25mm ²Between.In Figure 10 b, 1002 area exposed of the male element that matches are the degree of depth place between 0.5mm and the 5mm in concave member 1001 preferably.In a preferred embodiment, surf zone, second hook elements 1002 of selecting second hook elements 1002 to be exposed promote the needed power of engagement that breaks away from first hook elements 1001 apart from the degree of depth of second end 1006 and with second hook elements 1002 in hole 1004, so that the configuration closing component is opening with staff.

With reference to Figure 11, the accessory of described dry ice container 101 can be for opening piece 1101.Described unlatching piece 1101 is used to make wherein, and concave member 1001 cooperates with dry ice container 101 disengagings that male element 1002 is cooperated with on one's own initiative.Described unlatching piece 1101 can be installed to sales counter or desktop working surface region with double faced adhesive tape, glue, nail or screw.Described comprises a passage 1102, and it is configured to and allows dry ice container 101 in a bi-directional way along lateral movement in the passage 1102.Described passage 1102 can be configured to and open piece 1101 levels, vertical or become the mode at diagonal angle to place.Described passage 1102 can be made up of one group of railing 1103.Described railing 1103 is configured to cooperate with described dry ice container 101 and guide described dry ice container 101 by passage 1102.

Described passage 1102 also comprises pin 1104.Described pin 1104 is configured to contact with 1002 exposed surface area of male element.In operation, the described dry ice container 101 of the described pin 1104 antagonism power of moving along passage 1102 and male element 1002 is cooperated with concave member 1001 disengagings.

Described passage 1102 also comprises disconnector 1105.Described disconnector 1105 is configured to enlarge the gap between male element 1002 and the concave member 1001.In operation, thus described disconnector contacts wherein male element 1002 and concave member 1001 contacts and resists the dry ice container 101 that power that dry ice container 101 moves along passage 1102 enlarges the gap between male element 1002 and the concave member 1001.

In another embodiment that Figure 12 shows, closing component is included in first hook elements 1001 on first container part 101 and second hook elements 1002 on the second container part 101b.The described first container part 101a and the second container part 101b can be half-cylindrical parts, and it can be the hemicycle cylindrical part in one embodiment.Described first hook elements 1001 and second hook elements 1002 mesh together so that described dry ice container 101 is maintained in its closed position.Described container 101 has a penetrating hole 1201 in its bottom, its unlatching element 1301 (Figure 13) that allows to open on the piece 1101 passes to mesh with second hook elements 1002.Figure 14 a shows that preparation is reduced to the dry ice container 101 that is used to open on the unlatching piece 1101.With reference to figure 14b, in the time of on dry ice container 101 being shifted onto unlatching piece 1101 downwards, open element 1301 pass hole 1201 and with second hook elements 1002 on antelabium 1003 (referring to Figure 14) engagement, promote second hook elements 1002 and make itself and first hook elements, 1001 jump out of meshs.The second portion 101b that the power of unlatching element 1301 on antelabium 1003 also promotes described dry ice container 101 breaks away from the 101a of first of container 101, thereby helps to open container and discharge any residue dry ice that it contains.

In a preferred embodiment, as showing among Figure 13, described pin 1301 longitudinally bearing pin A extends and is cylindrical, so that in the whole 360 degree scopes of the container 101 of vertical bearing pin A with any position of rotation patchhole 1201 in, so that first hook elements 1001 and second hook elements 1002 are opened each other.

In a preferred embodiment, for container 101 define a bottom 1303, with the base of the described unlatching piece 1101 shown in 1302, it allows container 101 being directed at any position of rotation in the whole 360 degree scopes of vertical bearing pin A.Described seat portion 1303 also preferably helps pin 1301 is aimed at hole 1201.Similarly, described seat portion 1303 can adopt the mode of part cylindrical channel, and as showing among Figure 13, perhaps it can have other forms, for example part spherical concave (part-spherical depression).

The hole 1201 that is used to open in the container 101 of element 1301 is preferably enough little so that it stops personal hand unlatching and opens container 101.In this way, stop to use the individual of container to be not intended to or discharge dry ice mala fide and injure self or other people with it.In shown embodiment, the diameter in hole 1201 is approximately 3mm, yet other big or small holes 1201 (big with little) also can be used, but still stop the individual to open described container 101 simultaneously.The degree of depth in hole (be defined as on second hook elements 1002 antelabium 1003 apart from the distance of 1201 outer ends, hole) also determines the much degree of its structure ground to stop people's openable container.Specifically, along with the increase of the distance that arrives antelabium 1003, bigger hole 1201 more can be accepted.

The advantage of all shown embodiment is that dry ice container 101 can contain dry ice 201 and create the vision fog effect, reduces the risk that dry ice contacts server's skin or swallowed and cause frostbite unintentionally by the customer simultaneously.

Certainly, the embodiment of the variety of way that shows in Figure 14 b of Fig. 1 can mix and mate together under possible situation on demand.

For example, container 101 can be made up of with the modular block that constitutes a container linking together more than three or three.

For other examples, container 101 can be made up of any edible material from soybeans with handle 104.

For other examples, handle 104 can be made up of rope, chain, line or cable.

For other examples, can dispose hole 102 to show text image.

For other examples, described hollow tube 901 can have manifold (manifold) configuration.

In embodiment and appended claims described above, the term semicylinder had not only comprised the hemicycle cylinder but also comprised is not half cylindrical part cylinder specifically.Term part cylinder had not only comprised the hemicycle cylinder but also comprised is not half cylindrical part cylinder specifically.

Though above explanation has constituted a plurality of embodiment of the present invention, should be appreciated that the present invention has been easy to further modification and change under the situation that does not break away from the fair meaning of appended claims.

Claims

1. dry ice containment system, it comprises:

Container, it comprises the vapor permeable surface, wherein said vapor permeable surface comprises a plurality of holes, described hole is configured to the dry ice that prevents selected size and passes through, wherein said container comprises first and second container parts, they can be closed in together so that described container is in an off position and it can be opened, and wherein said container comprises closing component so that described container is locked in off position; And

Open piece, it is configured to opens described container.

2. dry ice containment system according to claim 1, wherein said closing component can't be opened with staff.

3. dry ice containment system according to claim 1, wherein said closing component is included in first hook elements and second hook elements on described second container part on described first container part, wherein said container comprises a hole, power can be applied to one of described first and second hook elements by this hole goes up so that described first hook elements and described second hook elements are untied each other, wherein said closing component is configured to make: described hole size and that described first hook elements and described second hook elements are untied at least one of needed power each other is chosen, opened by staff to suppress described closing component.

4. dry ice containment system according to claim 3, the diameter in wherein said hole is less than about 3mm.

5. dry ice containment system according to claim 3, wherein said unlatching piece comprise a base and are positioned at pin on the described base, and wherein said pin is for opening element.

6. dry ice containment system according to claim 5, wherein said pin longitudinally bearing pin extend and insert in the described hole at a plurality of position of rotation place of the described container that centers on described vertical bearing pin described first hook elements and described second hook elements are untied each other.

7. dry ice containment system according to claim 5, wherein said pin longitudinally bearing pin extends and inserts in the described hole in any position of rotation place in the whole 360 degree scopes of the described container that centers on described vertical bearing pin, so that described first hook elements and described second hook elements are untied each other.

8. dry ice containment system according to claim 5, wherein said base comprise described hole and the described pin that a portion is used for receiving described container and is used for aiming at least in part described container.

9. dry ice containment system according to claim 8, wherein said seat portion is the part cylindrical channel.

10. dry ice containment system according to claim 3, wherein said unlatching piece comprises:

Base;

Pin, it is configured to mesh an element of described hook elements so that described first hook elements and described second hook elements are untied each other on described base; And

Disconnector, it separates with described second container part to promote described first container part through the location.

11. dry ice containment system according to claim 1, it further comprises and described container bonded assembly handle.

12. dry ice containment system according to claim 11, the length of wherein said handle are the same long with the longest dimension of described container at least.

13. dry ice containment system according to claim 11, wherein said handle comprises hollow tubular, and it is configured to allow liquid to pass through.

14. dry ice containment system according to claim 1, wherein said container are essentially cylindrical and

Described first container part is first semicylinder that comprises a circular portion and two end portion;

Described second container part is second semicylinder that comprises a circular portion and two end portion, described second semicylinder can be connected to described first semicylinder so that when described first semicylinder cooperated with described second semicylinder, it formed a cylinder in fact; And

Hinge, its end at described first and second semicylinder connects described first and second semicylinder,

At least one of wherein said first and second semicylinder comprises described vapor permeable surface,

And wherein said first and second semicylinder is configured to relative to each other open and close by described hinge.