This application is directed to devices, systems, and methods for transporting yarn.
Yarn is conventionally transported on yarn packages, or yarn cones, that are stacked (e.g., in three layers of twelve yarn packages per layer) and transported from a heatset tunnel to a creel for further processing. A yarn package can often weigh between ten and twenty pounds. Thus, a substantial amount of labor is required to handle and transport the yarn packages from the heatset tunnel to the creel. Additionally, creels take up large amounts of space (having a cost associated therewith), and can be an ergonomic concern, requiring operators to work over their heads to load heavy yarn packages. Accordingly, an alternative to using a creel is desirable.
Disclosed herein, in one aspect, is a system that can comprise a plurality of containers that are coupled together as a movable unit and a plurality of container-feeding assemblies that are configured to simultaneously deliver respective yarns into respective containers of the plurality of containers.
In another aspect, a method can comprise delivering a first plurality of yarns into respective containers. The header can be a first header. The retainer can be secured to the first header to fix the respective yarns of the first plurality of yarns in respective positions relative to each other along the longitudinal axis of the first header. The first plurality of yarns can be severed so that each yarn of the first plurality of yarns has a first end within a respective container and an opposing loose end, wherein the clamp is secured to the first header between the first ends and the loose ends of the first plurality of yarns. The movable unit can be positioned proximate to a second header of a tufting machine. The tufting machine can have a second plurality of yarns thereon. Each yarn of the second plurality of yarns on the tufting machine can have a respective beginning end. The first header can be aligned with the second header so that the loose ends of the first plurality of yarns are aligned with respective beginning ends of the second plurality of yarns on the tufting machine. Respective loose ends of the first plurality of yarns in the containers can be coupled to respective beginning ends of the second plurality of yarns of the tufting machine.
In another aspect, a system can comprise a warp beam machine that is configured to wind a plurality of yarns received from one or more heatset apparatus around a warp beam. A header can be configured to receive yarn ends of the yarns in the plurality of containers. The header can have a longitudinal axis. A retainer can be configured to extend across the header along the longitudinal axis to secure the respective yarns in respective positions relative to each other along the longitudinal axis.
In another aspect, a method can comprise winding a first plurality of yarns onto the warp beam. The header can be a first header. The clamp can be secured to the first header to fix the respective yarns of the first plurality of yarns in respective positions relative to each other along the longitudinal axis of the header. The first plurality of yarns can be severed so that each yarn of the first plurality of yarns has a loose end proximate the first header, wherein the first header and clamp are fixed together between the warp beam and the loose ends of the first plurality of yarns. The warp beam can be positioned proximate to a second header of a tufting machine. The tufting machine can have a second plurality of yarns thereon. Each yarn of the second plurality of yarns on the tufting machine can have a respective beginning end. The first header can be aligned with the second header so that the loose ends of the first plurality of yarns are aligned with respective beginning ends of the second plurality of yarns on the tufting machine. Respective loose ends of yarns of the first plurality of yarns on the warp beam can be coupled to respective beginning ends of the second plurality of yarns of the tufting machine.
In another aspect, a method can comprise delivering a first plurality of yarns into respective containers. The first plurality of yarns can be severed so that each yarn of the first plurality of yarns has a loose end. The movable unit can be transported to a twisting machine, the twisting machine comprising at least one twister. Pairs of loose ends of yarns of the first plurality of yarns can be fed into respective twisters of the twisting machine.
Additional advantages of the invention will be set forth in part in the description that follows, and in part will be obvious from the description, or may be learned by practice of the invention. The advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the appended claims. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.
The present invention can be understood more readily by reference to the following detailed description. However, before the present devices, systems, and/or methods are disclosed and described, it is to be understood that this invention is not limited to the specific devices, systems, and/or methods disclosed unless otherwise specified, as such can, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular aspects only and is not intended to be limiting.
The following description of the invention is provided as an enabling teaching of the invention in its best, currently known embodiment. To this end, those skilled in the relevant art will recognize and appreciate that many changes can be made to the various aspects of the invention described herein, while still obtaining the beneficial results of the present invention. It will also be apparent that some of the desired benefits of the present invention can be obtained by selecting some of the features of the present invention without utilizing other features. Accordingly, those who work in the art will recognize that many modifications and adaptations to the present invention are possible and can even be desirable in certain circumstances and are a part of the present invention. Thus, the following description is provided as illustrative of the principles of the present invention and not in limitation thereof.
As used throughout, the singular forms “a,” “an,” and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a tube” can include two or more such tubes unless the context indicates otherwise.
Optionally, in some aspects, when values are approximated by use of the antecedents “about,” “substantially,” or “generally,” it is contemplated that values within up to 15%, up to 10%, up to 5%, or up to 1% (above or below) of the particularly stated value or characteristic can be included within the scope of those aspects.
Ranges can be expressed herein as from “about” one particular value, and/or to “about” another particular value. When such a range is expressed, another aspect includes from the one particular value and/or to the other particular value. Similarly, when values are expressed as approximations, by use of the antecedent “about.” it will be understood that the particular value forms another aspect. It will be further understood that the endpoints of each of the ranges are significant both in relation to the other endpoint, and independently of the other endpoint.
As used herein, the terms “optional” or “optionally” mean that the subsequently described event or circumstance may or may not occur, and that the description includes instances where said event or circumstance occurs and instances where it does not.
Referring to
Yarn Transport Module Comprising Multiple Containers
Referring also to
A plurality of guide tubes 116 can extend between the adapter plate 112 and respective containers 110 to guide respective yarns between the adapter plate 112 and the containers. As further described herein, it is contemplated that the adapter plate 112 can define a plurality of openings 113 (e.g., holes) that are aligned with corresponding guide tubes 116. The openings can be spaced and otherwise configured to interface with the yarn delivery system 106 (e.g., a plurality of aspirators), as further disclosed herein.
The yarn transport modules 104 can further comprise a removable header 118 that can maintain the yarn ends in a spaced relationship to inhibit the yarns from crossing, getting tangled, etc. The removable header 118 can rest on, or attach to, the frame 130 of the yarn transport module 104. For example, the removable header 118 can optionally be received within hooks, grooves, a receptacle, or other carrying structure (not shown) defined by the frame 130. In some optional aspects, the removable header 118 can be configured to couple to a corresponding removable header 118′ of a tufting machine (or a twisting machine, as further disclosed herein). In this way, as further described herein, the removable headers 118, 118′ can enable rapid alignment and coupling between yarn ends to facilitate splicing of the yarn ends of the yarn transport modules 104 with the yarn ends of the tufting machine. In various aspects and as illustrated in
In some optional aspects, the containers 110 can be tubular or substantially tubular. For example, optionally, the containers 110 can be hollow elongate bodies having rigid walls. Optionally, some or all of the containers 110 can have a consistent cross section along their lengths. In various aspects, the containers 110 can have circular cross sections, hexagonal cross sections, or any other suitable cross section. For example, referring to
Referring to
Referring to
As shown in
As shown in
As shown in
In some aspects, the plunger 140 can move relatively rapidly (e.g., approximately 5 inches per second for insertion and yarn compression and approximately 15 inches per second for retraction), and the yarn can continuously be delivered as the plunger is delivered into the container. In further aspects, the plunger 140 can move relatively more slowly (e.g., optionally, approximately three inches per second), and the yarn delivery can temporarily be halted as the yarn is compressed.
In some aspects, the plunger 140 can be controlled by a controller. The controller can be in communication with a load cell or a pressure sensor (e.g., a capacitive sensor; not shown) that can be configured to determine the axial of the plunger that provide sufficient, but not excessive, compression. In further aspects, the axial displacement of the plunger can be determined and controlled based on a quantity of yarn delivered to the container (using the metering device 124) and the capacity of the container.
In some optional aspects, each yarn can be fed through a respective plunger 140 via a pair of opposing rollers 122 that bias against opposing sides of the yarn. In some aspects, the opposing rollers 122 can be coupled to each piston 140. At least one of the opposing rollers 122 can be coupled to a motor to cause rotation of the roller. In these aspects, it is contemplated that the opposing rollers 122 associated with the piston can serve as the yarn delivery system 106, and the aspirators 120 can optionally be omitted. Optionally, these opposing rollers 122 can further serve as the metering device 124. In further aspects, a separate metering device 124 can be used to measure yarn delivered to the container. In further optional aspects, a venturi or compressed air can be used to drive the yarn through the plunger 140.
In further optional aspects, the containers 110 can have flexible sidewalls that can enable the containers to deform (e.g., expand) as they are filled with yarn.
In some optional aspects, the yarn transport modules 104 can be configured to be vertically stackable. For example, bottom features of a first yarn transport module 104 can cooperate with top features of a second yarn transport module 104 to retain and support the first yarn transport module on top of the second yarn transport module. Similar structural features can be provided on additional transport modules to permit stacking of three or more yarn transport modules. In some optional aspects, the adapter plate 112 can be coupled to the frame 130 in a lower profile than shown to facilitate stacking of yarn transport modules. Optionally, the adapter plate 112 can be movably coupled to the frame 130 so that the adapter plate 112 can be configured to be movable from a raised position (as shown in
Removable Header
The yarns 103 can be held in a spaced arrangement via a removable header 118. The removable header 118 can be selectively positioned between the yarn containers 110 and a tufting machine 250 or other textile manufacturing device. Referring to
It is contemplated that the header 118 can be shaped so that two of such removable headers 118, with one rotated (e.g., rotated 180 degrees) about the longitudinal axis with respect to the other header as shown in
A retainer 160 can extend across the removable header 118 to retain the yarns in their respective positions relative to each other. For example, in some optional aspects the retainer 160 can comprise one of a hook fastener or a loop fastener (e.g., VELCRO fastener) that is configured to engage the other of the hook fastener or the loop fastener of the header 118. In further options, the retainer can be a member (e.g., a metal or polymer strip) that can extend across the header and clamp against the header with the yarns therebetween so that the yarns are under compression between the header 118 and the retainer 160. In still further aspects, the retainer 160 can comprise adhesive tape that extends across the removable header 118. In further aspects, the retainer 160 can retain the yarns directly to the adapter plate 112.
Although an exemplary construction of a removable header 118 and an associated retainer 160 are disclosed with reference to
Yarn Transport Module Comprising Warp Beam
Referring to
In some aspects, for each warp beam 206 that the frame 202 supports, the frame can define a receptacle 218 (e.g., a slot or a notch) on each side of the frame that can receive a respective end of the rod 212. For example, the frame 202 can have a first side 220 and a second side 222 connected at a base. Each side can comprise two vertically spaced rows of beams 224. Each beam 224 can define a pair of receptacles that are spaced relative to the beams' longitudinal axes so that opposing beams 224 on the first and second sides 220, 222 can cooperatively support two rollers. Thus, in some exemplary aspects, the frame 202 can support four warp beams 206. However, other beam and frame configurations can be used to support more or fewer rollers and beams. In some optional aspects, the receptacles 218 can have surfaces (e.g., hemicylindrical surfaces) having substantially the same diameter as the rod 212.
A forklift, crane, or other lifting device can lift the warp beams 206 from their respective receptacles and position the warp beam 106 on a warp beam machine 200 of the heat set 102. The warp beam machine 200 can be configured to support the warp beam 206 in position for receiving yarn and rotate the warp beam around the rod 212 to wind the yarns. The warp beam machine 200 can further define a yarn spacing assembly 230 that directs yarns in a spaced arrangement to the warp beam 206. Optionally, as a non-limiting example, each warp beam can hold 22,000 feet of yarn (2 ply, 1000 denier per ply) which can, in some optional aspects, form 2100 feet of finished carpet with a ½″ pile height. Once the warp beam 206 has a desired quantity of yarn wound around the beam, the lifting device can position the warp beam on the frame (with the ends of the rod 212 disposed within respective receptacles 218).
When positioned on the frame 202, the warp beams 206 can be configured to rotate so that as the ends of the yarns are pulled (e.g., as a tufting device pulls on the yarn), the warp beam can rotate to feed the yarn from the warp beam (e.g., to the tufting device).
It is contemplated that the yarn transport module comprising one or more warp beams 206 can implement any of the removable headers as disclosed herein (e.g., as shown in
Processing Yarn from the Yarn Transport Modules
Referring to
The yarn transport module 104 can then be moved for subsequent yarn processing. For example, in some aspects, the yarn transport module 104 can provide yarn to a tufting machine 250. It is contemplated that a plurality of yarn transport modules 104 can be provided at the tufting machine 250 to simultaneously feed yarn into the tufting machine.
The yarn transport module 104 can be moved into position proximate to the tufting machine 250. For example, it is contemplated that, optionally, twelve warp beams 206 (e.g., three frames 202 having four warp beams 206 thereon) can be positioned at the tufting machine 250. In further aspects, 24 yarn transport modules 104, each yarn transport module comprising 48 containers 110, can be positioned at the tufting machine 250. In this way, a large number of yarn ends (e.g., approximately 1000 yarn ends) can simultaneously be provided to a tufting machine.
Referring to
Once the yarns are fused, the tufting machine 250 can be run according to normal operation. The headers 118, 118′ can be removed from engagement with the yarns. For example, in some aspects, the removable header 118 can be positioned on the carrying structure defined by the frame of the yarn transport module. Referring to
Yarn Transport Module for Feeding a Twisting Machine
It is contemplated the yarn transport modules 104 are not limited to transporting yarn to a tufting machine and can instead provide yarn to other yarn processing machines. As used herein, the term “yarn processing machine” can refer to any machine or system that is configured to physically manipulate that position, shape, orientation, or physical properties of yarn. For example, referring to
In some aspects, a yarn transport module 104 can comprise a plurality of containers (e.g., 24 or 48 containers), and yarns from pairs of containers can feed a twisting machine 300.
Optionally, a yarn transport module 104 can feed a plurality of positions 306 of a twisting machine 300 simultaneously.
In view of the described products, systems, and methods and variations thereof, herein below are described certain more particularly described aspects of the invention. These particularly recited aspects should not however be interpreted to have any limiting effect on any different claims containing different or more general teachings described herein, or that the “particular” aspects are somehow limited in some way other than the inherent meanings of the language literally used therein.
Aspect 1: A system comprising: a plurality of containers that are coupled together as a movable unit; and a plurality of container-feeding assemblies that are configured to simultaneously deliver respective yarns into respective containers of the plurality of containers.
Aspect 2: The system of aspect 1, further comprising: a header that is configured to receive yarn ends of the yarns in the plurality of containers, the header having a longitudinal axis; and a retainer that is configured to extend across the header along the longitudinal axis to secure the respective yarns in respective positions relative to each other along the longitudinal axis.
Aspect 3: The system of aspect 1 or aspect 2, wherein the plurality of container-feeding assemblies comprises a plurality of aspirators.
Aspect 4: The system of aspect 3, wherein the movable unit further comprises an adapter plate defining a plurality of openings and a respective guide tube extending between each opening of the adapter plate and a respective container, wherein each aspirator of the plurality of aspirators is positioned at a respective opening of the adapter plate.
Aspect 5: The system of any one of the preceding aspects, wherein each container-feeding assembly of the plurality of container-feeding assemblies comprises: opposing rollers that bias against opposing sides of the respective yarn; and at least one motor that is coupled to at least one of the opposing rollers and is configured to cause rotation of the at least one of the opposing rollers.
Aspect 6: The system of any one of the preceding aspects, wherein the plurality of containers are see-through.
Aspect 7: The system of any one of the preceding aspects, wherein each container is tubular or substantially tubular.
Aspect 8: The system of any one of the preceding aspects, wherein each container comprises a flexible sidewall.
Aspect 9: The system of any one of the preceding aspects, further comprising at least one yarn metering device that is configured to measure a quantity of yarn delivered into a container of the plurality of containers.
Aspect 10: The system of aspect 9, wherein the at least one yarn metering device comprises a plurality of yarn metering devices, wherein each yarn metering device of the plurality of yarn metering devices is configured to measure the quantity of yarn delivered into a respective container of the plurality of containers.
Aspect 11: The system of aspect 9 or aspect 10, wherein the at least one metering device comprises a roller.
Aspect 12: The system of any one of the preceding aspects, further comprising a pair of opposing drive rollers that are configured to maintain a select tension on yarn leaving a heat set apparatus.
Aspect 13: The system of any one of the preceding aspects, further comprising a plurality of plungers, wherein each plunger of the plurality of plungers is configured to reciprocally move inwardly into a respective container to compress yarn within the container.
Aspect 14: The system of aspect 13, wherein each plunger defines a longitudinal bore therethrough through which a respective yarn can extend.
Aspect 15: The system of aspect 13 or aspect 14, wherein each plunger is configured to intermittently move inwardly into and outwardly from the respective container.
Aspect 16: The system of aspect 13 or aspect 14, wherein each plunger is configured to continuously move inwardly into and outwardly from the respective container.
Aspect 17: The system of any one of the preceding aspects, further comprising a heat set apparatus that is configured to deliver the yarns to respective container feed assemblies.
Aspect 18: A method comprising: delivering a first plurality of yarns into respective containers of the system as in any one of aspects 2-17, wherein the header is a first header; securing the retainer to the first header to fix the respective yarns of the first plurality of yarns in respective positions relative to each other along the longitudinal axis of the first header; severing the first plurality of yarns so that each yarn of the first plurality of yarns has a first end within a respective container and an opposing loose end, wherein the retainer is secured to the first header between the first ends and the loose ends of the first plurality of yarns; positioning the movable unit proximate to a second header of a yarn processing machine, the yarn processing machine having a second plurality of yarns thereon, each yarn of the second plurality of yarns on the yarn processing machine having a respective beginning end; aligning the first header with the second header so that the loose ends of the first plurality of yarns are aligned with respective beginning ends of the second plurality of yarns on the yarn processing machine; and coupling respective loose ends of the first plurality of yarns in the containers to respective beginning ends of the second plurality of yarns of the yarn processing machine.
Aspect 19: The method of aspect 18, wherein the yarn processing machine is a tufting machine.
Aspect 20: The method of aspect 18, wherein the yarn processing machine is a twisting machine.
Aspect 21: A system comprising: a warp beam having a central axis about which the warp beam is configured to rotate; a warp beam machine that is configured to wind a plurality of yarns received from one or more heatset apparatuses around the warp beam; a frame that is configured to support at least one warp beam thereon; and a plurality of wheels that are coupled to the frame and configured to movably support the frame.
Aspect 22: The system of aspect 21, wherein the frame is configured to receive a plurality of warp beams thereon.
Aspect 23: The system of aspect 21 or aspect 22, further comprising a header that is configured to receive yarn ends of the yarns in the plurality of containers, the header having a longitudinal axis; and a retainer that is configured to extend across the header along the longitudinal axis to secure the respective yarns in respective positions relative to each other along the longitudinal axis.
Aspect 24: A method comprising: winding a first plurality of yarns onto the warp beam of the system of any one of aspects 20-23, wherein the header is a first header; securing the retainer to the first header to fix the respective yarns of the first plurality of yarns in respective positions relative to each other along the longitudinal axis of the header; severing the first plurality of yarns so that each yarn of the first plurality of yarns has a loose end proximate the first header, wherein the first header and retainer are fixed together between the warp beam and the loose ends of the first plurality of yarns; positioning the warp beam on the frame; positioning the warp beam proximate to a second header of a yarn processing machine, the yarn processing machine having a second plurality of yarns thereon, each yarn of the second plurality of yarns on the yarn processing machine having a respective beginning end; aligning the first header with the second header so that the loose ends of the first plurality of yarns are aligned with respective beginning ends of the second plurality of yarns on the yarn processing machine; and coupling respective loose ends of the first plurality of yarns in the containers to respective beginning ends of the second plurality of yarns of the yarn processing machine.
Aspect 25: The method of aspect 24, wherein the yarn processing machine is a tufting machine.
Aspect 26: The method of aspect 24, wherein the yarn processing machine is a twisting machine.
Although several embodiments of the invention have been disclosed in the foregoing specification and the following appendices, it is understood by those skilled in the art that many modifications and other embodiments of the invention will come to mind to which the invention pertains, having the benefit of the teaching presented in the foregoing description and associated drawings. It is thus understood that the invention is not limited to the specific embodiments disclosed herein, and that many modifications and other embodiments are intended to be included within the scope of the appended claims. Moreover, although specific terms are employed herein, as well as in the claims which follow, they are used only in a generic and descriptive sense, and not for the purposes of limiting the described invention, nor the claims which follow.
This application claims priority to and the benefit of the filing date of U.S. Provisional Patent Application No. 63/062,023, filed Aug. 6, 2020, the entirety of which is hereby incorporated by reference herein.
Number | Date | Country | |
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63062023 | Aug 2020 | US |