Container for storing a liquid foodstuff and dispensing it under pressure

Abstract

A container (1) for storing a liquid foodstuff (4) and dispensing it under pressure in consumption portions via a closable dispensing channel, characterized in that it comprises a rigid outer container (2), a flexible inner container (3) for the foodstuff (4), and at least one intermediate container (5) surrounding the inner container (3), whereby an intermediate container (5) on the one hand, and another intermediate container (5) or the inner container (3) located within it on the other hand, define a space (16), whereby the space (16) is provided with a pressure medium and/or the container (1) is equipped with a connection (23) connected to the space for a pressure medium source (24).

Claims

1. A container (1) for storing a liquid foodstuff (4) and dispensing it under pressure in consumption portions via a closable dispensing channel leading from the container to the outside, comprising: a rigid outer container (2), a flexible inner container (3) for the foodstuff (4), and an intermediate container (5) surrounding the inner container (3), whereby a space (16) is defined between the intermediate container and the inner container, whereby the space (16) is configured to be provided with a pressure medium, wherein the outer container (2) has a mouth (7) with a connector (6) fitting in it in which the dispensing channel is provided, whereby the connector (6) is provided with an activatable valve for the controlled outflow of the foodstuff (4), and whereby the inner container (3) is connected to the connector (6) and in an empty state can be put in and taken out of the outer container (2) through the mouth (7), wherein the container (1) is provided with a complementary connector (8) to which the pressure medium source (24) can be connected, whereby the combination of the connector (6) and the complementary connector (8) is provided with interconnecting cavities to form a channel in order to guide the pressure medium to the space (16), wherein the pressure medium source is a capsule (24) of the pressure medium under pressure, whereby the pressure medium is a gas, and wherein a piercing instrument (25) for a pierceable seal (26) of the capsule (24), driven by a spring (29), activatable from outside the complementary connector (8), is provided in the complementary connector (8), and can be brought back to the starting position by the pressure of the gas escaping from the capsule (24) after piercing the seal (26).

2. A container (1) according to claim 1, wherein the container (1) is for beer (4).

3. A container (1) according to claim 1, wherein the intermediate container (5) is flexible.

4. A container (1) according to claim 1, wherein the intermediate container (5) is connected to the connector (6) and in an empty state can be put in and taken out of the outer container (2) through the mouth (7).

5. A container (1) according to claim 1, wherein the channel is provided with a stop valve that closes the channel when the activatable valve is not activated and opens the channel when the activatable valve is activated.

6. A container (1) according to claim 1, wherein there is only one intermediate container (5).

7. A container according to claim 3, wherein the inner container (3) and the intermediate container (5) has a high resistance to the permeation of oxygen.

8. A container (1) according to claim 1, wherein the intermediate container (5) within which the space (16) lies has a high resistance to the permeation of the pressure medium.

9. A container (1) according to claim 1, wherein the material of the inner container (3) and the intermediate container (5) includes a polyvinyl alcohol layer.

10. A container (1) according to claim 1, wherein the outer container (2) is at least partly made from polyethylene terephthalate.

11. A container (1) according to claim 1, wherein components of the connector (6) that form a barrier between the atmosphere and the foodstuff (4) are at least partly made from a polymer that at least partly consists of polyamide that contains meta-xylylene units.

12. A container (1) according to claim 1, wherein the outer container (2) is at least partly made from polyethylene or polypropylene.

13. A container (1) according to claim 9, wherein the container (1) contains beer (4).

14. A container (1) according to claim 12, wherein the container (1) contains beer (4).

15. A container (1) according to claim 3, wherein the intermediate container (5) is flexible.

16. A container (1) according to claim 1, where there are a plurality of intermediate containers (5) and the space (6) is defined therebetween.

Description

(1) With the intention of better showing the characteristics of the invention, a preferred embodiment of a container according to the invention is described hereinafter by way of an example, without any limiting nature, with reference to the accompanying drawings, wherein:

(2) FIG. 1 shows a cross-section of a container according to the invention;

(3) FIGS. 2 and 3 show the part indicated in FIG. 1 by F2 in more detail and on a larger scale, in two different usage states; and

(4) FIGS. 4 and 5 show a cross-section of a preferred embodiment of a component of a container according to the invention in two different usage states.

(5) The keg 1 shown in FIG. 1 primarily consists of the following components: an outer container 2 that is mechanically strong; an inner container 3 that is filled with beer 4; an intermediate container 5 that is between the inner container 3 and outer container 2; a connector 6 to which the inner container 3 and intermediate container 5 are connected and which is mounted in a mouth 7 of the outer container 2, and a complementary connector 8 that is also mounted on the mouth 7.

(6) In this example the outer container 2 is made of polyethylene because it is a cheap material that is easy to form, but it can also be made of other materials.

(7) The inner container 3 and intermediate container 5 are made of a nine-layered nylon-based flexible foil, without metal layer, but with a polyvinyl alcohol (PVA) layer.

(8) This foil has a permeability to O.sub.2 and CO.sub.2 of 0.27 ml/m.sup.2.Math.day, measured according to the ASTM D1434 standard.

(9) The connector 6 contains a fixed part 9 that is screwed into the mouth 7 using an adapter 10.

(10) The connector 6 also comprises a first closing part 11 and second closing part 12 that are both movable in the fixed part 9.

(11) The first closing part 11 is pushed against the fixed part 9 by a compressed first spring 13, so that the fixed part 9 forms a stop for the first closing part 11.

(12) The second closing part 12 is pushed by a compressed second spring 14 against the first closing part 11 so that the first closing part 11 forms a stop for the second closing part 12.

(13) A riser pipe 15 is secured to the first closing part 11 that runs up to the bottom of the inner container 3.

(14) The inner container 3 and intermediate container 5 are secured to the first closing part 11 in such a way that the space 16 between the inner container and intermediate container is in an open connection to the space 17 between the first closing part 11 and the fixed part 9.

(15) In the first closing part 11 there is a first gas passage 18. There is a second gas passage 19 through the fixed part 9.

(16) The complementary connector 8 is affixed around the mouth 7 and the connector 6, and comprises a gas channel 20, which at one end comes out into the space 21 between the connector 6 and the complementary connector 8, and at the other end is connected to a capsule 24 of pressurised CO.sub.2 via an expander 22 forming part of the complementary connector 8 and coupling 23.

(17) The space 21 between the connector 6 and the complementary connector 8 connects to the second gas passage 19.

(18) In this example, the first connector 11 and the second connector 12 are made from MXD-6, a polyamide of meta xylylene diamine and adipic acid, and which thus contains meta xylylene units. As a result the first closing part 11 and the second closing part 12 form a good barrier to the permeation of oxygen.

(19) Mixtures of this polyamide with other polymers present a similar effect.

(20) The various components are provided with seals, not shown, so that they are connected together in a liquid-tight and gas-tight way.

(21) The keg 1 is composed as follows:

(22) A connector 6 with inner container 3 and intermediate container 6 connected to it are brought through the complementary connector 8. Then the riser pipe 15, the inner container 3 and the intermediate container 5 are brought through the mouth 7, fitted with an adapter 10, of the outer container 2 into the outer container 2, and the connector 6 is screwed onto the adapter 10, thereby clamping the complementary connector 8 between itself and the outer container 2.

(23) Then the keg 1 is filled with beer 4 by connecting a filling installation to the connector 6 by means of a coupling that pushes the first closing part 11 and the second closing part 12 inwards, away from their respective stops, in the direction of the arrows P, and thereby opens a beer channel to the space inside the inner container 3. Beer 4 now flows through this beer channel from the filling installation into the inner container 3.

(24) As soon as the inner container 3 is full the filling installation is disconnected from the keg 1. The first and second closing parts (11,12) pushed back against their stops by the first spring 13 and the second spring 14 form a stop valve that keeps the beer 4 in the keg 1.

(25) The beer 4 in the keg 1 is now well protected against degradation by oxygen such that the keg 1 with beer 4 can be stored for many months, and even years, without a risk of degradation by oxygen.

(26) The outer container 2 has a relatively high permeability to oxygen, but the intermediate container 5 and the inner container 3 do not, such that oxygen cannot get into the beer 4 through this route. At the same time oxygen cannot get into the beer 4 through the connector 6, because the components, i.e. the first connecting part 11 and the second connecting part 12, through which oxygen could get into the beer 4, are constructed from oxygen-tight material.

(27) In order to be able to tap beer from the keg 1 a pressure medium first has to be provided in the space 16. This is done by screwing a CO.sub.2 capsule 24 onto the coupling 23 whereby the coupling 23 is designed such that the CO.sub.2 capsule 22 is opened when connected.

(28) A tap also has to be provided with a mechanism that can press into the first closing part 11 and the second closing part 12 in the direction of the arrows P, as drawn in FIGS. 2 and 3, in other words that can activate the valve formed by the first closing part 11 and the second closing part 12.

(29) As a result, the first gas passage 18 and the second gas passage 19 are connected together, and an open channel occurs, shown in FIG. 3 by the arrows G, between the CO.sub.2 capsule 24 and the space 16 between the inner container 3 and the intermediate container 5, via the gas channel 20, the expander 22 that brings the pressure to a desired level, the space 21 between the connector 6 and the complementary connector 8, the second gas passage 19, the first gas passage 18 and the space 17 between the first closing part 11 and the fixed part 9.

(30) CO.sub.2 now flows out of the CO.sub.2 capsule 24 into the space 16 between the inner container 3 and intermediate container 5. The intermediate container 5 is hereby pushed against the outer container 2, and pressure is exerted on the inner container 3.

(31) By pressing in the first closing part 11 and the second closing part 12, a beer channel is also opened, indicated by the arrows B in FIG. 3, through which beer 4 can flow under the influence of the pressure exerted on the inner container 3 by the CO.sub.2 to the outside via the riser pipe 15, and can be tapped via the tap in serving portions.

(32) When the tap no longer activates the valve, thus no longer exerts the force P, the first closing part 11 and the second closing part 12 are pushed against their stops by the first spring 13 and the second spring 14, such that beer 4 can no longer flow.

(33) The first closing part 11 and the fixed part 9 together form a stop valve for the channel between the CO.sub.2 capsule 24 and the space 16, by the first gas passage 18 and the second gas passage 19 no longer being connected together.

(34) The expander 22 prevents the pressure in the gas channel and 20 and thus in the space 16 from becoming too high.

(35) Thanks to the good resistance of the intermediate container 5 to the permeation of CO.sub.2, no CO.sub.2 is lost, such that the pressure remains at the required level, even when a keg 1 is only partly tapped and is then not used for a long time, after which it is further tapped, without a CO.sub.2 capsule 24 with an excess of CO.sub.2 having to be provided for this purpose, or a new capsule having to be fitted.

(36) Thanks to the good resistance of the inner container 3 to the permeation of CO.sub.2, CO.sub.2 diffusion into the beer 4, and thus the oversaturation of it, is prevented.

(37) When the keg 1 is tapped empty, the outer container 1 and the complementary connector 8 can be used again, while for hygiene reasons it is better not to reuse the connector 6 with the inner container 3 and the intermediate container 5 fastened to it, although in theory this is not ruled out if they are well cleaned and disinfected.

(38) FIGS. 4 and 5 show a cross-section of a specific embodiment of the coupling 23 with a CO.sub.2 capsule 24.

(39) This coupling 23 comprises a piercing instrument in the form of a pin 25 in order to make a hole in a seal 26 of the capsule 24 and thereby activate the capsule.

(40) The pin 25 is mounted on a body 27 with a catch 28. There is a piercing spring 29 between the housing 30 of the coupling 23 and the body 27. The coupling 23 further comprises a pushbutton 31 with a stop part 32 connected to it, fitted with a return spring 33.

(41) The operation of this coupling 23 is as follows.

(42) First the coupling 23 is placed in the starting position. To this end the body 27 is pushed into the housing 30, such that the piercing spring 31 is compressed until the catch 28 comes behind the stop part 32. The stop part 32 now forms a stop for the catch 28 that is pushed against it by the piercing spring 29.

(43) Then a CO.sub.2 capsule 24, that is closed by a pierceable seal 26, is fastened to the coupling 23. This situation is shown in FIG. 4.

(44) If the pushbutton 31 is now pressed in, simultaneously compressing the return spring 33, the catch 28 is released from behind the stop part 32, such that the body 27 is pushed forcefully in the direction of the CO.sub.2 capsule 24 by the piercing spring 29, and the pin 25 pierces the seal 26 such that CO.sub.2 can flow out of the capsule 24.

(45) The button 31 is positioned such that it can be pressed in from the outside of the keg (1).

(46) This situation shown in FIG. 5.

(47) The CO.sub.2 now released exerts a pressure, and thus a force, on the body 27. The piercing spring 31 is calculated such that the force exerted by it is less than the force exerted by the CO.sub.2 pressure, such that the body is pushed back to its starting position. The pushbutton 31 is also pushed back by the return spring 23, such that the catch 28 again comes behind the stop part 32.

(48) The coupling 23 is now ready to activate a subsequent capsule 24 without any difficulty.

(49) A coupling operating in this way, and an activation mechanism for a piercing instrument as integrated in it, are not only useful in combination with a container according to the invention, but also for other applications.

(50) In the above example the keg 1 is intended for beer 4. However, a container according to the invention can also be used for many other liquid foodstuffs. The specific embodiment of the container, and the way of introducing the pressure medium into the space between the inner container and intermediate container, can differ from that which is described in the specific example.

(51) In the embodiment described above both the intermediate container and the inner container are fastened to the connector. This is not necessary for the good operation of the container.

(52) In the embodiment described above, both the intermediate container and the inner container have good resistance to the permeation of CO.sub.2 and oxygen. This concerns a preferred embodiment in various respects:

(53) In order to achieve the advantage of the invention, the separation of the gas retention function and the mechanical strength of the outer container compared to the known containers, a particular resistance to the permeation of these gases is not necessary.

(54) In order to obtain the advantage of good protection of the foodstuff against degradation by oxygen, a good resistance to the permeation of oxygen is only necessary for at least one of the inner container and intermediate container.

(55) In order to obtain the advantage of good retention of CO.sub.2, and thereby a long operating duration with a small CO.sub.2 capsule, a good resistance to the permeation of CO.sub.2 is only necessary for the intermediate container.

(56) The present invention is by no means limited to the embodiment described as an example and shown in the drawings, but a container according to the invention can be realised in all kinds of variants, without departing from the scope of the invention.