System and process for gluing fabric

Abstract

A method and system applying glue to a fabric to create a bonded seam by applying a carrier liquid to a predetermined area of a first piece of fabric and in a pre-determined pattern; applying uniformly, to the first piece of fabric, particles of a powdered elastomer such that the particles of the powdered elastomer adhere to the applied carrier liquid; removing excess particles of the powdered elastomer, the excess particles of the powdered elastomer being particles of the powdered elastomer not adhering to the applied carrier liquid; applying a second piece of fabric to the predetermined area of a first piece of fabric; and curing the particles of a powdered elastomer to create a bonded seam between the first piece of fabric and the second piece of fabric.

Claims

1. A method of applying glue to a fabric, comprising: (a) applying a carrier liquid to a predetermined area of a first piece of fabric and in a pre-determined pattern; (b) applying uniformly, to the first piece of fabric, particles of a powdered elastomer such that the particles of the powdered elastomer adhere to the applied carrier liquid; (c) removing excess particles of the powdered elastomer, the excess particles of the powdered elastomer being particles of the powdered elastomer not adhering to the applied carrier liquid; (d) applying a second piece of fabric to the predetermined area of the first piece of fabric; and (e) curing the particles of the powdered elastomer to create a bonded seam between the first piece of fabric and the second piece of fabric.

2. The method as claimed in claim 1, wherein the excess particles of the powdered elastomer are removed using a vacuum.

3. The method as claimed in claim 1, wherein the excess particles of the powdered elastomer are removed using an air knife.

4. The method as claimed in claim 1, wherein the particles of the powdered elastomer are cured using heat.

5. The method as claimed in claim 1, wherein the particles of the powdered elastomer are cured using pressure.

6. The method as claimed in claim 1, wherein the particles of the powdered elastomer are cured using a solvent.

7. The method as claimed in claim 1, wherein the particles of the powdered elastomer are cured using light.

8. The method as claimed in claim 1, wherein the pre-determined pattern enables stretch in a direction parallel to the bonded seam between the first piece of fabric and the second piece of fabric.

9. The method as claimed in claim 1, wherein the pre-determined pattern enables stretch in a direction perpendicular to the bonded seam between the first piece of fabric and the second piece of fabric.

10. The method as claimed in claim 1, wherein the pre-determined pattern enables stretch in a direction non-perpendicular and non-parallel to the bonded seam between the first piece of fabric and the second piece of fabric.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) The drawings are only for purposes of illustrating various embodiments and are not to be construed as limiting, wherein:

(2) FIG. 1 illustrates process for utilizing a digital jetting architecture to provide application of an adhesive to assemble two pieces of fabric;

(3) FIG. 2 illustrates an example of an adhesive pattern forming a seam between two pieces of fabric;

(4) FIG. 3 illustrates another example of an adhesive pattern forming a seam between two pieces of fabric;

(5) FIG. 4 illustrates a third example of an adhesive pattern forming a seam between two pieces of fabric;

(6) FIG. 5 illustrates various examples of adhesive patterns that can form a seam between two pieces of fabric; and

(7) FIG. 6 illustrates a system for applying an adhesive to assemble two pieces of fabric.

DETAILED DESCRIPTION OF THE DRAWING

(8) For a general understanding, reference is made to the drawings. In the drawings, like references have been used throughout to designate identical or equivalent elements. It is also noted that the drawings may not have been drawn to scale and that certain regions may have been purposely drawn disproportionately so that the features and concepts could be properly illustrated.

(9) In the following description, adhesive and glue are used interchangeably.

(10) As noted above, it is desirable to utilize digital jetting architecture to apply glue to a fabric for assembling purposes; however, conventional glues are not conducive to conventional jetting.

(11) To resolve this issue, the application of the glue to the fabric is separated into two distinct applications as illustrated in the method of FIG. 1. As illustrated in FIG. 1, a piece of fabric is acquired in step S10.

(12) At step S20, a liquid is applied to a predetermined area of the fabric and in a pre-determined pattern. The liquid, used in step S20, is a liquid having characteristics or properties that enable particles of a powdered elastomer to adhere thereto. In other words, the liquid, used in step S20, is a carrier or container for the powdered elastomer so that the adhered to powdered elastomer is kept within the predetermined area of the fabric and in the pre-determined pattern.

(13) At step S30, particles of a powdered elastomer are applied uniformly to the fabric. The particles of a powdered elastomer will adhere to the fabric where the liquid, applied in step S20, is located and not to the fabric lacking the applied liquid.

(14) At step S40, excess particles of a powdered elastomer are removed from the fabric. A vacuum can be used to remove the excess particles of a powdered elastomer. Additionally, an air knife or a combination of a vacuum and air knife can be used to remove the excess particles of a powdered elastomer. It is noted that the removed excess particles of a powdered elastomer can be reused.

(15) At step S50, a second piece of fabric is applied over the first fabric, and at step S60, the particles of a powdered elastomer are activated. The particles of a powdered elastomer can be activated by heat, pressure, a solvent, light, etc., or any combination thereof.

(16) It is noted that the fabric can be precut, in a roll, or other such format that is convenient.

(17) In alternative embodiments, the patterned image can be realized by spraying the fluid over a stencil or mask, by screen printing, by needle array, by scanning air or pneumatically controlled orifices, by air or pneumatic orifice arrays, or other such methods or devices.

(18) It is noted that the removal of the excess powder can be realized by vacuuming; by turning the fabric over and having gravity pull the loose powder off, by blowing the loose powder off, by adhesive roller application, or by other such method.

(19) In some cases, it may be helpful to partially melt or attach the glue to the first fabric before the second fabric is joined in a seam. This can be done by allowing the liquid, applied in step S20, to activate the adhesive powder, rendering the adhesive powder tacky, partially melting the adhesive, or partially curing the adhesive either before or after the removal of the powder.

(20) The fabric to be joined to the seam may be placed on the original fabric, and by applying heat and pressure, the glue is activated and the fabrics joined. Other adhesives may require light or other chemicals to activate the adhesive.

(21) It is noted that additional layers can be stacked to make multilayer seams

(22) The method of FIG. 1 allows the patterning of the glue to control the way the seam stretches. In general, a solid line of glue will stretch less than a dotted line of glue.

(23) The ability to control the pattern allows the user to design a glue pattern for stretch, which is parallel or perpendicular to the seam or any angle in between. Additionally, patterns can be formed to allow for stretch in all directions.

(24) FIG. 2 shows an example of a glue pattern. As illustrated in FIG. 2, the fabric 10 has a glue pattern 150 upon which a seam 100 will be formed. With respect to FIG. 2, the glue pattern 150 is a series of lines having a direction parallel to double-ended arrow B. In this example, the seam 100 has more stretch in the direction parallel to double-ended arrow A, and less stretch in the direction parallel to double-ended arrow B. In other words, the seam 100 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(25) FIG. 3 shows another example of a glue pattern. As illustrated in FIG. 3, the fabric 20 has a glue pattern 250 upon which a seam 200 will be formed. With respect to FIG. 3, the glue pattern 250 is a series of lines having a direction perpendicular to double-ended arrow B. In this example, the seam 200 has more stretch in the direction parallel to double-ended arrow B, and less stretch in the direction parallel to double-ended arrow A. In other words, the seam 200 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(26) FIG. 4 shows another example of a glue pattern. As illustrated in FIG. 4, the fabric 30 has a glue pattern 350 upon which a seam 300 will be formed. With respect to FIG. 4, the glue pattern 350 is a uniform pattern of dots of glue. In this example, the seam 300 has equal stretch in both the direction parallel to double-ended arrow B and the direction parallel to double-ended arrow A. In other words, the seam 300 has equal directional stretch.

(27) FIG. 5 shows various examples of glue patterns. As illustrated in FIG. 5, the fabric 40 has a first glue pattern 451, a second glue pattern 452, a third glue pattern 453, a fourth glue pattern 454, and a fifth glue pattern 455 upon which a seam 400 can be formed.

(28) With respect to FIG. 5, the first glue pattern 451 is a series of lines having a direction parallel to double-ended arrow B. In this example, the portion of the seam 400 associated with the first glue pattern 451 has more stretch in the direction parallel to double-ended arrow A, and less stretch in the direction parallel to double-ended arrow B. In other words, the portion of the seam 400 associated with the first glue pattern 451 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(29) With respect to the third glue pattern 453, the third glue pattern 453 is a uniform pattern of dots of glue. In this example, the portion of the seam 400 associated with the third glue pattern 453 has equal stretch in both the direction parallel to double-ended arrow B and the direction parallel to double-ended arrow A. In other words, the seam 400 associated with the third glue pattern 453 has equal directional stretch.

(30) With respect to the fifth glue pattern 455, the fifth glue pattern 455 is a series of lines having a direction perpendicular to double-ended arrow B. In this example, the portion of the seam 400 associated with the fifth glue pattern 455 has more stretch in the direction parallel to double-ended arrow B, and less stretch in the direction parallel to double-ended arrow A. In other words, the portion of the seam 400 associated with the fifth glue pattern 455 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(31) With respect to the second glue pattern 452, the second glue pattern 452 is a series of lines having a direction perpendicular to double-ended arrow C. In this example, the portion of the seam 400 associated with the second glue pattern 452 has more stretch in the direction parallel to double-ended arrow C, and less stretch in the direction perpendicular to double-ended arrow C. In other words, the portion of the seam 400 associated with the second glue pattern 452 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(32) With respect to the fourth glue pattern 454, the fourth glue pattern 454 is a series of lines having a direction perpendicular to double-ended arrow D. In this example, the portion of the seam 400 associated with the fourth glue pattern 454 has more stretch in the direction parallel to double-ended arrow D, and less stretch in the direction perpendicular to double-ended arrow D. In other words, the portion of the seam 400 associated with the fourth glue pattern 454 has more stretch in a direction perpendicular to a direction of the glue pattern lines.

(33) It is noted additional glue patterns are possible, such as, zig-zag glue patterns, curvilinear glue patterns, fractal glue patterns, and many other glue patterns can be used to provide directionally appropriate rigidity and stretch characteristics.

(34) FIG. 6 illustrates a system 500 for applying an adhesive to assemble two pieces of fabric. As illustrated in FIG. 6, a piece of fabric 520 is positioned on a transport system 510. The transport system 510 may be a conveyor belt, a web, or other system that is capable of moving the piece of fabric 520 from station to station.

(35) It is noted that although FIG. 6 illustrates a system wherein the piece of fabric 520 is moved from station to station, the system can be realized with the piece of fabric 520 being stationary and the stations are moved into position.

(36) As illustrated in FIG. 6, the piece of fabric 520 is moved to the glue carrier station 530.

(37) The glue carrier station 530 applies a carrier liquid (not shown) to a predetermined area of the fabric 520 and in a pre-determined pattern. The carrier liquid is a liquid having characteristics or properties that enable particles of a powdered elastomer (glue), applied by glue powder station 540, to adhere thereto. In other words, the carrier liquid, applied by the glue carrier station 530, is a carrier or container for a powdered elastomer, applied by glue powder station 540, so that the applied powdered elastomer is kept within the predetermined area of the fabric 520 and in the pre-determined pattern.

(38) The patterned image of the carrier liquid, created by the glue carrier station 530, can be realized by spraying the fluid over a stencil or mask, by screen printing, by needle array, by scanning air or pneumatically controlled orifices, by air or pneumatic orifice arrays, jetting of the carrier liquid, or other such methods or devices.

(39) After the carrier liquid is applied to the fabric 520, the piece of fabric 520 is moved to the glue powder station 540.

(40) As noted above, the glue powder station 540 applies particles of a powdered elastomer (not shown) uniformly to the fabric 520. The particles of a powdered elastomer will adhere to the fabric where the carrier liquid is applied and not to the fabric 520 lacking the applied carrier liquid.

(41) After the particles of a powdered elastomer are applied to the fabric 520, the piece of fabric 520 is moved to the glue powder removal station 550.

(42) At the glue powder removal station 550, excess particles of the powdered elastomer are removed from the fabric 520. The glue powder removal station 550 may use a vacuum to remove the excess particles of the powdered elastomer. Additionally, the glue powder removal station 550 may use an air knife or a combination of a vacuum and air knife to remove the excess particles of the powdered elastomer. It is noted that the removed excess particles of the powdered elastomer can be reused.

(43) After the excess particles of the powdered elastomer are removed from the fabric 520, the piece of fabric 520 is moved to the second fabric station 560.

(44) At the second fabric station 560, a second piece of fabric (not shown) is applied over the first fabric 520.

(45) After the second piece of fabric is applied over the first fabric 520, the two pieces of fabric are moved to the glue curing station 570.

(46) At the glue curing station 570, the particles of the powdered elastomer are activated (glue cured). The particles of the powdered elastomer can be activated by heat, pressure, a solvent, light, etc., or any combination thereof.

(47) After the particles of the powdered elastomer are activated (glue cured), the system 500 outputs two pieces of seamed fabric 580.

(48) It is noted that the fabric 520 can be precut, in a roll, or other such format that is convenient.

(49) It is noted that the removal of the excess powder can be realized by vacuuming; by turning the fabric over and having gravity pull the loose powder off, by blowing the loose powder off, by adhesive roller application, or by other such method.

(50) In some cases, it may be helpful to partially melt or attach the glue to the first fabric before the second fabric is joined in a seam. This can be done by allowing the carrier liquid to activate the adhesive powder, rendering the adhesive powder tacky, partially melting the adhesive, or partially curing the adhesive either before or after the removal of the powder.

(51) The fabric to be joined to the seam may be placed on the original fabric, and by applying heat and pressure, the glue is activated and the fabrics joined. Other adhesives may require light or other chemicals to activate the adhesive.

(52) It is noted that additional layers can be stacked to make multilayer seams

(53) The system of FIG. 6 allows the patterning of the glue to control the way the seam stretches. In general, a solid line of glue will stretch less than a dotted line of glue. The ability to control the pattern allows the user to design a glue pattern for stretch, which is parallel or perpendicular to the seam or any angle in between. Additionally, patterns can be formed to allow for stretch in all directions.

(54) As discussed above, the system of FIG. 6 allows patterning of the glue to control the way the seam stretches. In general, a solid line of glue will stretch less than a dotted or broken line of glue.

(55) The system of FIG. 6 allows a user to design a glue pattern for a particular stretch characteristic, such as parallel or perpendicular to the seam or any angle in between. Additionally, as noted above, glue patterns can allow for stretch in all directions.

(56) Moreover, the system of FIG. 6 allows seams to be printed on curves with the glue pattern shifting to maintain desired stretch characteristics.

(57) The glue pattern can also be modified as necessary to improve the adhesion between the materials being joined. For example, some seams may require bigger spots, some smaller. The glue itself can be changed to fit the materials being joined. Since the glue is applied as a powder, the process enables a wide range of types of glues and adhesives to be used.

(58) Although the above-described process has been described in connection with fabric and garment applications, it is noted that the above-described process may also be applicable in many manufacturing fields.

(59) For example, the joining of non-porous substrates (metal to metal, metal to plastic, metal to ceramic, ceramic to ceramic, . . . ) to porous substrates (nonwoven or woven fabrics to metals or ceramics, . . . ) all can be simplified using the above-described process.

(60) Additionally, the above-described process can be applied to three dimensional formed objects. In processing three dimensional formed objects, the fluid jetted to define the ink (liquid) image can be a gel ink (liquid) or an ink (liquid) with other rheology appropriate to allow the ink (liquid) to retain its pattern even when applied to a vertical surface.

(61) It will be appreciated that variations of the above-disclosed embodiments and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also, various presently unforeseen or unanticipated alternatives, modifications, variations, or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the description above.