AU2006200075B2 - A process of providing ventilation points on flexible substrates and using chemicals to regulate functioning of the ventilation points provided therefrom and the flexible substrate obtained therefrom - Google Patents
A process of providing ventilation points on flexible substrates and using chemicals to regulate functioning of the ventilation points provided therefrom and the flexible substrate obtained therefrom Download PDFInfo
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- AU2006200075B2 AU2006200075B2 AU2006200075A AU2006200075A AU2006200075B2 AU 2006200075 B2 AU2006200075 B2 AU 2006200075B2 AU 2006200075 A AU2006200075 A AU 2006200075A AU 2006200075 A AU2006200075 A AU 2006200075A AU 2006200075 B2 AU2006200075 B2 AU 2006200075B2
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- flexible substrate
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Description
AUSTRALIA Patents Act 1990 COMPLETE SPECIFICATION STANDARD PATENT Applicant: Tanakorn Wangbunyen Invention Title: A PROCESS OF PROVIDING VENTILATION POINTS ON FLEXIBLE SUBSTRATES AND USING CHEMICALS TO REGULATE FUNCTIONING OF THE VENTILATION POINTS PROVIDED THEREFROM AND THE FLEXIBLE SUBSTRATE OBTAINED THEREFROM The following statement is a full description of this invention, including the best method of performing it known to me: 2 A PROCESS OF PROVIDING VENTILATION POINTS ON FLEXIBLE SUBSTRATES AND USING CHEMICALS TO REGULATE FUNCTIONING OF THE VENTILATION POINTS PROVIDED THEREFROM AND THE FLEXIBLE SUBSTRATE OBTAINED THEREFROM 5 Field of Invention This invention relates to chemical engineering, particularly, the process of treating flexible substrates with a chemical or combination of chemicals in which the chemical's properties 10 and its reaction to the environment regulates the function of the ventilation points prepared on the substrate. Background of the Invention 15 Different types of fabrics have different characteristics. Ability to breathe and moisture absorption are just some of the characteristic that the textile industry take into consideration when producing fabric. For this reason, ranges of fabrics are produced for use in different environments or weather conditions to provide maximum comfort to the user. However, due to changes in the environment or weather conditions, or as a result of the user's activities, the 20 characteristics of the fabric still provide limited comfort. For instance, knitted fabrics are known to provide warmth in cool weather. This is because knitted fabrics are known for their high moisture absorption. In cool weather, the fabric absorbs moisture and the fabric's filaments expand. As a result, there is less exchange between the normal air and the hot air generated by the user's body heat. Thus, the hot air is trapped inside and keeps the user 25 warm. In warm weather, high humidity from the air results in similar effects and the user feels even warmer and tends to sweat, thus, causing great discomfort. Other types of fabrics may be less sensitive to moisture. However, due to user's activities such as engaging in outdoor activities or playing sports, the exchange of hot air generated by body heat and the normal air is not fast enough making the user sweat causing discomfort. 30 H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06 3 There has been an attempt to increase air flow of the fabric or the clothing end product by reducing the size and number of threads when making the fabric or incorporating a net-like or open-meshed fabric into the article. The latter technique is predominant in sports wear and outdoor wear. These techniques improve the fabric's air flow to some extent, but there is 5 room for improvement. It is desirable for the fabric or clothing articles to breathe and adjust to changes in the air temperature, body temperature, or the weather conditions while providing maximum comfort to the user. 10 Under this concept the inventor according to the present invention has expanded his ideas to cover different types of substrates other than fabric which is his specialty. It is an objective of this invention to improve air flow and provide better ventilation of the 15 flexible substrates by creating ventilation points on the said substrates. The process is obtained by treating the flexible substrate with a chemical or combinations of chemicals which react to environment factors such as temperature, moisture, or light. Cuts having predetermined shapes and designs as ventilation points are prepared on the flexible substrate. Once the flexible substrates treated with the chemical or combination of chemicals having 20 reacted to the selected environment factors exposed to such environments, the chemical or combination of the selected chemicals reacts to the environment. The reaction causes the cuts on the flexible substrate to deform becoming ventilation points on the flexible substrates. Alternatively, for those flexible substrates that naturally react to the environment, the chemical or combination of chemicals may be treated to the flexible substrate so that its 25 reaction to the environmental factor is restricted. The differential in reaction gradient causes the flexible substrate to deform at predetermined locations, thus, ventilation points on the flexible substrate are also obtained. The process of improving ventilation by providing ventilation points on the flexible substrate 30 will be subsequently described in greater detail. Other objects and advantages of the process H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06 4 according to the present invention will become apparent from a consideration of the following drawings and description of the preferred embodiment. 5 Brief Description of the Drawings The present invention is better understood with reference to the detailed description and to the drawings, in which: 10 Figure 1 shows an embodiment of the ventilation points formed on a substrate using the process of providing ventilation points on a substrate according to this invention wherein the shape of the ventilation point is a V-shape. Figure 2 shows the embodiment of the ventilation points of Figure I after the substrate has 15 been exposed to an environmental factor and the tab of the ventilation point is opened up as a reaction to the environment. Figure 3 shows an embodiment of the ventilation points formed on a substrate using the process of providing ventilation points on a substrate according to this invention 20 wherein the shape of the ventilation point is a perpendicular -cross. Figure 4 shows the embodiment of the ventilation points of Figure 3 after the substrate has been exposed to an environmental factor and the tab of the ventilation point is opened up as a reaction to the environment. 25 Figure 5 shows an embodiment of the ventilation points formed on a substrate using the process of providing ventilation points on a substrate according to this invention wherein the shape of the ventilation point is a half-circle. H:\Angies\keep\SpeciP59344 speci as filed AU.doc 10/01/06 5 Figure 6 shows the embodiment of the ventilation points of Figure 5 after the substrate has been exposed to an environmental factor and the tab of the ventilation point is lifted up as a reaction to the environment. 5 Figure 7 shows an embodiment of the ventilation points formed on a substrate using the process of providing ventilation points on a substrate according to this invention wherein the shape of the ventilation point is a half-circular. Figure 8 shows the embodiment of the ventilation points of Figure 7 after the substrate has 10 been exposed to an environmental factor and the tab of the ventilation point curls up as a reaction to the environment. Description of the Preferred Embodiment of the Invention 15 The objective of this invention is to improve air flow and provide better ventilation of the flexible substrates by creating ventilation points on the substrates. (For the purpose of description, the flexible substrate in this context will be referred to as "substrate".) The substrate is treated with a chemical or combination of chemicals (for the purposes of 20 description, the chemical or combination of chemicals in this context will be referred to as "chemical") which reacts to environment factors such as temperature, moisture, or light. Once the treated substrate is exposed to an environment factor that reaches a certain level or intensity that the chemical reacts to, the ventilation points that have been prepared on the treated substrate will deform corresponding to their shapes and designs. The deformation of 25 the ventilation points may be in the form of opening, closing, rolling-up, spreading-apart, lifting-up, and/or bending. The process of improving ventilation of substrates by providing ventilation points on the substrate according to this invention comprises four main steps of selecting the substrate, H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06 6 chemical selection and preparation, application of chemical onto the substrate, and creating the ventilation points on the substrate. In one specific embodiment, there is provided a process for preparing a flexible 5 substrate having ventilation points, wherein the ventilation points deform in response to a variation of an environmental factor, comprising providing cuts as ventilation points on the flexible substrate; and 10 treating the flexible substrate with a chemical or a combination of chemicals either before or after providing cuts on the flexible substrate, wherein the chemical or combination of chemicals react to the environmental factor such that the ventilation points open and close in response to a variation of the environmental factor, and wherein different concentrations of the chemical 15 or combination of chemicals are applied to the flexible substrate to create a gradient in reaction rates between the different concentrations on the flexible substrate or between treated and non-treated areas of the flexible substrate. Selecting the Substrate 20 Preferably, the substrate should be of any flexible substrate of which flexed or deformed as a result of the force of the reaction of the chemicals that were used applies on or treated onto the substrate. Examples of substrates that are applicable to the process according to this invention include, but are not limited to, fabric, plastic, canvas, or the like. 25 Chemical Selection/Preparation The selection of chemicals that are used for treating the substrate depends on the properties of the chemicals. The chemical selection is determined by the environment the substrate 30 will be exposed to or the completed product incorporating the substrate. For example, if the treated substrate or completed product will be used in an environment with high moisture, a 2498077_1 (GHMatters) 8/12/10 6a chemical that reacts to certain levels of moisture will be used. If the completed product will be used in an environment with a high temperature, the chemicals that react to certain ranges of high temperatures will be used. If the high temperature is caused by high light intensity, corresponding chemicals that react to ranges of light intensity may be used and so 5 on. Alternatively, if the substrates are naturally sensitive to an environmental factor such as moisture, the chosen chemical will not necessarily react to that environment. The chemical may be used to restrict the reaction of the substrate with the environment. The chemical or io chemicals with different concentrations are applied to only a selected area or the entire surface of the substrate resulting in different gradients in reaction rate between the different concentrations of treated and non-treated areas. The uneven rate of reaction causes the ventilation points created on the substrate to deform according to the predetermined shapes and designs. 15 24980771 (GHMatters) 8/12/10 7 For the convenience of substrate treatments, preferably the chemical or combination of chemical should be prepared in liquid form. Application of Chemical onto the Substrate 5 The selected chemicals with required properties, i.e. reacts to the corresponding environment are (that the substrate of which has been treated and prepared ventilation points according to this invention or products incorporating said substrate will be exposed to) applied onto the substrate by means of spraying, printing, silk-screening, laminating, or the like. The mode of 10 application of the chemical onto the substrate depends on the type of substrate or its properties or characteristics such as thickness, hardness, softness, texture, absorption ability, etc. Depending on the design of the ventilation points, types of substrate, the application of the chemical onto the substrate may be applied onto the ventilation points (cut areas) according to the ventilation point's shape or design. The chemical may be applied in a spot 15 application or on the entire sheet of the substrate. It can be applied on only one or both surfaces of the substrate. In addition, it is possible to apply a chemical having one concentration on one surface of the substrate while applying a chemical having a different concentration on another surface. Further, the chemical can be applied in strips or alternate strips of different concentrations. 20 Creating Ventilation Points on the Substrate Creating ventilation points on the substrate may be carried out before or after treating the substrate with the chemical, but preferably, the ventilation points on the substrate are created 25 after treating the substrate with the chemical. The shape and design of the ventilation points may be of any desired shape or design such as half circle, half rectangle, star shape, V-shape, U-shape, perpendicular-cross, X-shape, etc. The cuts corresponding to the desired shape and design are then made on the selected areas of the substrate creating ventilation points on the substrate. The cuts may be made manually or automatically. Laser cutting is most preferred 30 as it reduces fraying on the cuts that form the ventilation points. H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06 8 As shown in Figure 1 the cuts are made in a V-shape and as shown in Figure 3 the cuts are made in a perpendicular-cross shape. 5 As disclosed, after a substrate is chosen and the environment which the treated substrate with ventilation points prepared according to this invention or products incorporating the substrate will be exposed to is pre-confirmed, the chemical which reacts to such environment is applied onto the substrate. The mode of chemical application depends on the properties and characteristics of the substrate and the shapes and designs of the predetermined ventilation 10 points. The chemical may be applied onto the substrates by spraying, printing, silk screening, or the like. The application may be in the form of a spot, stripe, or on the entire surface of the substrate compatible to the shape and design of ventilation points and the properties and characteristics of the substrate. After the chemical application is completed, the cuts of the ventilation points are made on the substrate according to the predetermined 15 shape and design. Once the prepared substrates or the products incorporating such substrate are exposed to the environment to which the chemical applied onto the substrate reacts, the reaction of the chemical to the environment or the natural reaction of the substrate (untreated against treated) results in different gradients of reaction or creates tension on the ventilation points urging the ventilation points to deform corresponding to their shape and design. The 20 deformation of the ventilation may be in a form of curling up, rolling up, opening, spreading apart, or bending. These forms of deformation permit better and faster ventilation providing optimum comfort to the user. The ventilation points will not deform in normal conditions or if intensity of the environment does not reach that level which triggers the chemical reaction. After the deformation has taken place and either the substrate or the product incorporating 25 the substrate prepared according to this invention is removed from the environment or the environment has changed to a lesser intensity than the chemical will react to, the deformation will return to its original state or shape. The process according to this invention is applicable to various types of substrates and thus 30 its uses spread to various types of industries. In the garment industry, the invention may be H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06 9 used in garment or clothing construction in lieu of net-like or open-meshed fabric. This is particularly true in sports wear and outdoor wear wherein fast ventilation provides greater comfort to the user as body heat exchanges with the normal air temperature quickly cooling the user. In the housing industry, the invention may be incorporated as a shade or blind or 5 part of a window or other suitable parts of the house helping to improve air circulation or ventilation of the house. In leisure/recreational industries, the invention may be used with camping equipment such as tents improving air circulation/ventilation or exchange of hot air from inside to outside the tent. 10 For the purpose of illustration, the process according to this invention will be described as an example in full detail of which the substrate of use is a fabric and the ventilation point is a half circle shape and shown in Figure 5. The objects and advantages of the process according to the present invention will become apparent from a consideration of the following illustration. 15 A fabric (10) is selected and the clothing articles comprised of the fabric (10) prepared according to this invention are set to be sensitive to moisture. Accordingly, a chemical which reacts to moisture such as hydrophilic polymer is used. The shape of the ventilation point (12) is design to be a half-circle shape as shown in Figure 5. The intended ventilation points 20 (12) are arranged in rows. The chemical solution is manually applied onto the intended locations of the ventilation points (12) having a shape and design corresponding to the intended ventilation point's location, shape, and design. Using a laser beam, half-circle cuts corresponding to the half-circle shape of the intended ventilation points are made in the fabric (10). The laser cutting results in a small space (14) on the fabric (10) being burnt 25 away by the laser beam, thereby becoming the ventilation point (12). Each ventilation point (12) has a tab (16) generated from the cutting and is the area to which the chemical solution is applied. Once the prepared fabric (10), with ventilation points (12), is exposed to moisture, the chemical reacts with the moisture causing the tabs (16) to deform by lifting up as shown in Figure 6. As a result, the edges of the tab (16) will curl inward causing the middle section 30 of the tab (16) to rise up similar to a dome shape, widening the space(14) created by the laser H:\Angies\keep\Speci\PS9344 speci as filed AU.doc 10/01/06 10 cutting as shown in Figure 6. The widening of the space (14) becomes a ventilation hole that allows a larger amount of air to flow through and thus, improves ventilation of the fabric. If a person wears clothing articles incorporating the fabric prepared by the process according to this invention, and is exposed to moisture, (moisture may be generated through sweating) the 5 tab (16) will deform and the space (14) widens and becomes a ventilation point that allows a larger quantity of air to flow through. Accordingly, the ventilation of the clothes is improved making the user feel more comfortable without the feeling of dampness. Similarly, in hot and humid weather, better ventilation of the clothes keeps the user cool and minimizes sweating. Further and additional shapes and arrangements of the ventilation points prepared 10 according to the invention are shown in Figures 2, 4, and 8. Similarly, thermosensitive and/or photosensitive polymer maybe used if the substrate or a product incorporate the substrate treated according to this invention is aimed to react to temperature and/ or light respectively. Other and further arrangements, variations, 15 embodiments for the present invention will be apparent from the forgoing disclosure and teaching and no undue limitations are to be implied therefrom. In the claims which follow and in the preceding description of the invention, except where the context requires otherwise due to express language or necessary implication, 20 the word "comprise" or variations such as "comprises" or "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated features but not to preclude the presence or addition of further features in various embodiments of the invention. It is to be understood that, if any prior art publication is referred to herein, such reference 25 does not constitute an admission that the publication forms a part of the common general knowledge in the art, in Australia or any other country. H:\Angies\keep\Speci\P59344 speci as filed AU.doc 10/01/06
Claims (17)
1. A process for preparing a flexible substrate having ventilation points, wherein the ventilation points deform in response to a variation of an environmental 5 factor, comprising providing cuts as ventilation points on the flexible substrate; and treating the flexible substrate with a chemical or a combination of io chemicals either before or after providing cuts on the flexible substrate, wherein the chemical or combination of chemicals react to the environmental factor such that the ventilation points open and close in response to a variation of the environmental factor, and wherein different concentrations of the chemical or combination of chemicals are applied is to the flexible substrate to create a gradient in reaction rates between the different concentrations on the flexible substrate or between treated and non-treated areas of the flexible substrate.
2. The process according to Claim I comprising steps of (i) selecting the flexible 20 substrate, (ii) applying the chemical or combination of chemicals on the flexible substrate and (iii) cutting the ventilation points into the flexible substrate.
3. The process according to Claim 1 or 2, wherein the environmental factor is at least one of temperature, moisture or light. 25
4. The process according to any one of Claims I to 3, wherein the environmental factor comprises temperature and the chemical or the combination of chemicals comprises a thermosensitive polymer. 30
5. The process according to any one of Claims I to 3, wherein the environmental factor comprises moisture and the chemical and the combination of chemicals comprises a hydrophilic polymer. 2498077_1 (GHMatters) 8/12110 12
6. The process according to any one of Claims I to 3, wherein the environmental factor comprises light and the chemical or the combination of chemicals s comprises a photosensitive polymer.
7. The process according to any one of Claims 1 to 6, wherein the chemical or the combination of chemicals are applied by mode of printing, laminating, silk screening, or hand transferring. 10
8. The process according to any one of Claims 1 to 7, wherein the chemical or the combination of chemicals is applied onto the flexible substrate corresponding to the location, shape, and design of ventilation points. 15
9. The process according to any one of Claims 1 to 8, wherein the chemical or the combination of chemicals is applied onto the flexible substrate on at least one entire surface of the flexible substrate.
10. The process according to any one of Claims I to 9, wherein the chemical or 20 combination of chemicals is applied to both sides of the flexible substrate.
11. The process according to Claim 10, wherein the chemical or the combination of chemicals applied onto each surface is of a different concentration. 25
12. The process according to any one of Claims 1 to 8, wherein the application of the chemical or the combination of chemicals is applied onto the surface of the flexible substrate in stripes, alternating treated stripes and non-treated stripes.
13. The process according to any one of Claims 1 to 12, comprising cutting a 30 ventilation point into the flexible substrate with a shape providing at least one tab. 24980771 (GHMatters) 8112/10 13
14. The process according to Claim 13, wherein the chemical or the combination of chemicals is applied to the tab such that the tab deforms in response to the environmental factor to open the ventilation point. 5
15. A flexible substrate having deformable ventilation points, wherein the ventilation points deform in response to a variation of an environmental factor, wherein the ventilation points are cuts provided on the flexible substrate, the flexible substrate having a chemical or a combination of chemicals applied 10 thereto, such that the chemical or the combination of chemicals enable the ventilation points to open and close in response to a variation of the environmental factor, wherein the flexible substrate has different concentrations of the chemical or the combination of chemicals applied thereto, creating a gradient in reaction rates between the different concentrations on the flexible is substrate or between treated and non-treated areas of the flexible substrate.
16. A flexible substrate having deformable ventilation points prepared according to any one of Claims 1 to 14. 20
17. A flexible substrate, a process for preparing the flexible substrate, or a flexible substrate prepared by the process, substantially as herein described with reference to the Figures. 2498077_1 (GHMatters) 8/12110
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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AU2006200075A AU2006200075B2 (en) | 2006-01-10 | 2006-01-10 | A process of providing ventilation points on flexible substrates and using chemicals to regulate functioning of the ventilation points provided therefrom and the flexible substrate obtained therefrom |
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AU2006200075A AU2006200075B2 (en) | 2006-01-10 | 2006-01-10 | A process of providing ventilation points on flexible substrates and using chemicals to regulate functioning of the ventilation points provided therefrom and the flexible substrate obtained therefrom |
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AU2006200075A1 AU2006200075A1 (en) | 2007-07-26 |
AU2006200075B2 true AU2006200075B2 (en) | 2011-01-20 |
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AU2006200075A Ceased AU2006200075B2 (en) | 2006-01-10 | 2006-01-10 | A process of providing ventilation points on flexible substrates and using chemicals to regulate functioning of the ventilation points provided therefrom and the flexible substrate obtained therefrom |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20020076503A1 (en) * | 1997-07-11 | 2002-06-20 | Patrick Borreani | Clothing article such as a working or protective glove made from a textile support |
US6767850B1 (en) * | 1999-05-21 | 2004-07-27 | Deotexis Inc. | Two dimensional textile material |
US6792621B2 (en) * | 2001-07-10 | 2004-09-21 | Harley-Davidson Motor Company Group, Inc. | Garment ventilation system |
-
2006
- 2006-01-10 AU AU2006200075A patent/AU2006200075B2/en not_active Ceased
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20020076503A1 (en) * | 1997-07-11 | 2002-06-20 | Patrick Borreani | Clothing article such as a working or protective glove made from a textile support |
US6767850B1 (en) * | 1999-05-21 | 2004-07-27 | Deotexis Inc. | Two dimensional textile material |
US6792621B2 (en) * | 2001-07-10 | 2004-09-21 | Harley-Davidson Motor Company Group, Inc. | Garment ventilation system |
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AU2006200075A1 (en) | 2007-07-26 |
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