WOOD INFUSED LIQUID CONSUMABLES

Abstract

A method is provided for producing a wood infused liquid consumable. The liquid consumable is contained within a container (2, 40, 50) and is contacted with one or more wooden components (4, 42, 52) in order to enable a wood infusion process to take place. Said one or more wooden components are severed parts of an intermediate wooden sheet cut from a log (30) of wood by rotary cutting it tangentially from the outer surface of the log of wood in veneer fashion such that the intermediate wooden sheet has a thickness corresponding generally to the radial direction (“R”) with respect to the log of wood from which it was cut. The wooden component or components have a thickness of from 0.5 mm to 10 mm, preferably from 1 mm to 8 mm and most preferably from 3 mm to 6 mm. The invention also provides wooden components suitable for use in such a method. The wooden components may be in the form of any of a wooden sheet, strip (or slat), rectangular cross-sectioned rod, or small block.

Claims

1. A method of producing a wood infused liquid consumable, the method comprising the step of contacting a liquid consumable in a container with one or more wooden components so that a uniform wood infusion process occurs; wherein the one or more wooden components are severed parts of an intermediate wooden sheet cut from a log of wood by rotary peeling the intermediate wooden sheet tangentially from an outer surface of a log of wood in veneer fashion; the cutting method resulting in (i) ray parenchyma tissue extending longitudinally across a thickness of the wooden components and (ii) wood cells in the one or more wooden components having a uniform anatomical cell orientation; wherein the permeable ray parenchyma tissue that extends longitudinally across the thickness of the wooden components provides the liquid consumable with enhanced access to the extractive wood storing tissues during the infusion process relative to wooden components cut using other techniques; and wherein the uniform cell orientation of the wooden sheets provides uniformity of infusion during contact with the liquid consumable and uniformity of different wooden components, thus enabling consistency and reproducibility of results from batch to batch in the liquid consumable production process.

2. The method of claim 1, wherein the one or more wooden components are in the form of wooden sheets, strips, slats, rods or blocks.

3. The method according to claim 1, wherein the one or more wooden components are removably attached to a frame within the container.

4. The method of claim 1, wherein the one or more wooden components are composed of heartwood thereby substantially excluding sapwood associated with the outer region of a log of wood as well as excluding juvenile wood associated with the central core of a log of wood.

5. The method of claim 1, wherein the intermediate wooden sheet has a thickness (T) corresponding generally to a radial direction (R) with respect to the log of wood from which the intermediate wooden sheet was cut.

6. The method of claim 1, wherein the one or more wooden components have a thickness of from 0.5 mm to 10 mm.

7. The method of claim 1, wherein the one or more wooden components have a thickness of from 1 mm to 8 mm.

8. The method of claim 1, wherein the one or more wooden components have a thickness of from 3 mm to 6 mm.

9. The method of claim 1, wherein the wooden components are dried and toasted.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] In the drawings:

[0024] FIG. 1 is a part-sectional schematic perspective view of a first application of wooden components in use in a container in accordance with the invention;

[0025] FIG. 2 is a sketch illustrating a process for forming an intermediate wooden sheet by rotary cutting it in veneer fashion from the outer surface of a log of wood;

[0026] FIG. 3 is a schematic isometric view showing part of an intermediate wooden sheet produced by the process illustrated in FIG. 2 and indicating one form of wooden component that may be secered therefrom;

[0027] FIG. 4 illustrates the general form of a wooden component in the form of a wooden sheet;

[0028] FIG. 5 illustrates the general form of a wooden component in the form of a wooden strip (or slat);

[0029] FIG. 6 illustrates the general form of a wooden component in the form of a wooden rod;

[0030] FIG. 7 illustrates the general form of wooden components in the form of wooden blocks;

[0031] FIG. 8 is a part-sectional schematic perspective view of a second application of a wooden component in use in a liquid consumable production process; and

[0032] FIG. 9 is a part-sectional schematic perspective view of a third application of a wooden component in use in a liquid consumable production process.

DETAILED DESCRIPTION WITH REFERENCE TO THE DRAWINGS

[0033] One method of producing a liquid consumable (1), in this application wine, is described with reference to FIG. 1 and includes introducing the liquid consumable (1) into a stainless steel container (2) for the purpose of undergoing a wood infusion step by contact with wooden components for a predetermined residence time or, alternatively, until such time as the relevant beverage maker determines that the beverage has acquired a desirable degree of wood infusion.

[0034] In this embodiment of the invention, wooden components are in the form of elongate wooden sheets (4) that are suspended within the container from a frame (6) so that they become immersed in the wine. The frame (6) includes a number of parallel, spaced apart, generally horizontal hanger bars (8) which are joined by a centrally extending cross-member (10). Both the hanger bars (8) and cross-member (10) are conveniently moulded from a high density plastics material.

[0035] As shown in the inset in FIG. 1, each hanger bar (8) has a rabbet (12) extending along the lower part of one side (14) thereof. A strip (16) of the same plastics material is secured in the rabbet (12) by a series of spaced apart bolts (18) extending from the side (14) and cooperating wing nuts (20). The top (22) of each wooden sheet (4) is releasably secured between its associated strip (16) and cooperating side (14) of the associated rabbet (12) of the respective hanger bar (8) to depend there from. The wooden sheets are thus easily replaceable as and when required.

[0036] The frame (6) is supported in the container (2) by arms (26) (only two of which are shown) which extend inwardly from the sides thereof.

[0037] In this embodiment of the invention, the wooden sheets (4) are made from a suitable part of wood such as the currently used Quercus spp. (oak) and are, in this instance, approximately 4 mm thick. It is envisaged that the wooden sheets will typically be from 0.5 mm to 10 mm thick depending on the application and the number of wooden sheets used as well as purely physical characteristics that ensure that the wooden sheets maintain their structural integrity during their life cycle. The thickness that is actually employed in any particular process will depend largely on the physical properties of the wood; the shape and size of the wooden components; and the stresses that may be imposed on them during their operative life cycle.

[0038] Referring now more particularly to FIGS. 2 and 3 of the drawings, the wooden sheets (4) are, in this embodiment, severed from an intermediate wooden sheet (28) made by a process that is described below and that is also known as rotary peeling. The intermediate wooden sheet is cut by rotary cutting it in veneer fashion using either a veneer lathe that uses spindles and dogs for rotating a log or a spindleless veneer lathe. In either event the intermediate wooden sheet is formed by shaving a layer corresponding to its thickness tangentially from the outer surface of a log (30) of wood such that the intermediate wooden sheet has a thickness “T” taken generally in the radial direction “R” with respect to the log of wood from which it is cut. The wooden sheet (4) forming the wooden component of this embodiment the invention, may have, in this instance, a length “L” corresponding to the length of the log of wood from which it is cut (this being the direction in which the grain “G” extends) and a width “W” that is determined by the extent of the intermediate wooden sheet selected.

[0039] The above is thus achieved by rotating the log (30) relative to a blade (32) so that the intermediate wooden sheet (28) is formed in a manner resembling the way in which paper may be unwound from a roll. The thickness “T” of the intermediate wooden sheet (28) and thus the wooden sheets (4) can be accurately controlled by adjustments to the position and orientation of the blade (32) in a manner that is well known at least in the veneer industry.

[0040] This procedure is conducted such that the wooden components of the invention, namely the wooden sheets (4) in this instance, are composed substantially entirely of heartwood with the exclusion of sapwood associated with the outer region of a log of wood and also with the exclusion of juvenile wood associated with the central core of the log of wood. It is to be mentioned that this is particularly easy to achieve utilising a rotary cutting procedure as the initial intermediate wooden sheet that serves to remove the sapwood from the outside of a log can usually be easily distinguished optically or visually simply on the basis of colour from the intermediate wooden sheet that is of heartwood and is usable for forming wooden components of the invention. The heartwood is typically much darker in colour than the sapwood. The sapwood sheet could, of course, be used for other purposes such as furniture making, for example. However, it is envisaged that it may also be possible to utilise the sapwood in a liquid consumable manufacturing process, especially if it is processed to provide suitable characteristics although further research in this direction will be required.

[0041] Also excluded from use for the purpose of forming wooden components according to the invention is the central juvenile wood in the centre of a log. In the instance that is illustrated in FIG. 2 in which co-axial rotating dogs (36) are employed to engage and rotate the log during the production of the intermediate wooden sheet, the physical size of the dogs automatically prevents the juvenile wood from being cut. However, in a spindleless process care should be taken to avoid the inclusion of juvenile wood.

[0042] It is to be noted that whilst a wooden sheet has been described above as the form of wooden component according to the invention, the wooden components could assume a wide variety of different forms, in each instance preferably cut from the intermediate wooden sheet using a guillotine or other smooth edged blade that does not give rise to any significant production of loose particles, sawdust or other waste.

[0043] Thus, simply for the sake of completeness, FIG. 4 illustrates a wooden sheet having a width and length of substance; FIG. 5 illustrates a wooden strip having a width significantly less than the length; FIG. 6 illustrates a wooden rod of generally square cross-section in which the width and thickness of the same order; and FIG. 7 illustrates small wooden blocks in which the thickness, length and width are all of generally the same order. In each instance the wooden components are most conveniently and effectively cut from the intermediate sheet using a blade such as in a guillotine or any other smooth edged blade that does not create any significant waste.

[0044] Of course, the wooden components may be processed further for use such as by drying and suitably “toasting” them and for convenience of production these process steps may be carried out on the intermediate wooden sheet before it is severed to create the individual wooden components.

[0045] The advantages of using wooden components produced in this manner, include the uniformity of the components that is achieved as well as uniformity of infusion during contact with a liquid consumable and hence reproducibility of results in the liquid consumable production process. Also, there is far less waste of heartwood in the manufacturing process. This makes it much more effective than any of the other known forms of wood usage in liquid consumables manufacturing. It is also much easier to further process wooden sheets to achieve certain characteristics, for example, a predetermined moisture content and uniformity in the degree of heat treatment (toasting levels) or other envisaged processes.

[0046] Importantly, rotary cut wooden sheets have a more uniform and thus beneficial, wood anatomical cell orientation and enhanced accessability to the extractive wood storing tissues, such as parenchyma ray tissue. These rays extend in radial bands indicated schematically by numeral (38) in the log (30) in FIG. 2 and rotary cutting increases the accessibility of this tissue and therefore enhances the infusion process.

[0047] The use of wooden components derived from rotary cut intermediate wooden sheets thus provides a higher yield from trees than with other log breakdown and wood cutting techniques and produces far less waste in the form of cutting debris. Also, compared to wooden barrels, the use of wooden components cut from rotary cut intermediate wooden sheets is considerably cheaper. These factors not only reduce the manufacturing costs but also contribute to sustainable forestry.

[0048] Initial organoleptic tests were conducted on two different samples of oak wood in which one sample had its thickness (and thus its large, dominant surface areas) cut tangentially (or generally circumferentially) as provided by this invention and the other sample had its thickness (and thus its large, dominant surface areas) extending in the radial direction with respect to the log as would have been the instance in conventional barrel making. The samples were otherwise identical in shape and size and equivalent amounts of wood of each were tested in both red and white wines in order to wood infuse same. The wines were organoleptically evaluated (by tasting) regularly over a period of 10 days. Clear differences in tempo and total amounts of wood character emerged with the wooden component produced according to this invention showing higher infusion levels.

[0049] It will be appreciated that any suitable wood can be used and that any suitable configuration of wooden components can be used such as wooden sheets, strips, rods or blocks. In the instance of wooden sheets, the flexible nature thereof can be selected according to wood type and thickness and extended applications are possible.

[0050] Thus, as shown in FIG. 4, a container (40) could be lined with a wooden component according to this invention in the form of a suitably flexible wooden sheet (42) to reproduce the typical wooden barrel configuration. The wooden sheet (42) can be removed and replaced as and when desired.

[0051] Clearly, any other configuration of wooden sheets can be used and these may include modifications of, or perforations through, the wooden sheet where desired.

[0052] Furthermore, other suitable liquid consumable manufacturing processes can also be used in which the liquid consumable is in contact with wooden components according to the invention.

[0053] Thus, as shown in FIG. 5, a container (50) may be provided with a wooden component as provided by the invention in the form of a loosely (generally spirally) rolled wooden sheet (52) and derived from a rotary cut intermediate wooden sheet are you ready as regards a window at their value their other a good bottle can pay secured internally thereof. A pump (54) may be arranged to pump a liquid consumable such as wine from any one of a number of storage containers (56) through the container (50) and into a further container (58). The residence time of the wine in the container (50) and thus the contact time with the wooden component can be controlled to predetermined values which may be based on past experience to obtain reproducible results from batch to batch.

[0054] Alternatively, the wine can be passed through the container (50) multiple times with samples being taken after each pass to determine when the correct characteristics have been imparted to it by the wood (52).

[0055] Oxygen can also be added to the container, should it be required. This could take the form of micro-oxygenation which simulates the diffusion of oxygen through the sides of a wooden barrel or using any suitable semi permeable membrane or other transfer mechanism.

[0056] Clearly, the thickness, type and configuration of the wooden components will vary from application to application. The use of rotary cut intermediate wooden sheets for the production of wooden components lends itself to many different manufacturing processes for liquid consumables whilst providing the advantages set out above. It will be apparent that the manufacturing process will change depending on the liquid consumable being produced; on the characteristics required of the liquid consumable; as well as the facility for contacting the liquid with the wooden components.