EP0998208B1 - Stretched fasteners - Google Patents
Stretched fasteners Download PDFInfo
- Publication number
- EP0998208B1 EP0998208B1 EP98904652A EP98904652A EP0998208B1 EP 0998208 B1 EP0998208 B1 EP 0998208B1 EP 98904652 A EP98904652 A EP 98904652A EP 98904652 A EP98904652 A EP 98904652A EP 0998208 B1 EP0998208 B1 EP 0998208B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- web
- stretching
- fastener elements
- base
- widthwise
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B18/00—Fasteners of the touch-and-close type; Making such fasteners
- A44B18/0003—Fastener constructions
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B18/00—Fasteners of the touch-and-close type; Making such fasteners
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B18/00—Fasteners of the touch-and-close type; Making such fasteners
- A44B18/0046—Fasteners made integrally of plastics
- A44B18/0049—Fasteners made integrally of plastics obtained by moulding processes
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44B—BUTTONS, PINS, BUCKLES, SLIDE FASTENERS, OR THE LIKE
- A44B18/00—Fasteners of the touch-and-close type; Making such fasteners
- A44B18/0046—Fasteners made integrally of plastics
- A44B18/0061—Male or hook elements
Definitions
- This invention relates to sheet-form fastening members of synthetic resin and to methods and machines for their manufacture.
- hook fastener members for hook and loop fastening. These are formed of synthetic resin in running lengths. Typically there are multitudes of fastener elements, i.e. hundreds or even thousands of discrete hook elements per square inch. These are typically arranged in neat rows in the machine direction, i.e. in the direction in which the forming system produces the product.
- hook elements stand discretely from at least one side of an integral web-form base.
- the base forms the means of attachment of the fastening member to the article that carries it.
- Fastener members with fields of such hooks typically have a pleasing, uniform, commercially acceptable appearance and are widely found in consumer and industrial products.
- US-A-4,261,944 discloses a method for the manufacture of a biaxially stretched polyolefin film in which the material is first partially prestretched in a longitudinal direction and, thereafter, simultaneously longitudinally and laterally stretched such that any given point on the film in any given region that the film is being biaxially stretched is expanded simultaneously biaxially in both the longitudinal and transverse directions.
- molding rolls are used in the process shown e.g. in Fischer U.S. Patent No. 4,794,028. This process produces hook fasteners of commercial appearance in which the rows of hooks are straight and the spacing between the hook elements in both directions is regular.
- Mold rolls for forming preferred fastening members of this kind typically comprise a series of thin circular plates, with mold plates alternating with spacer plates. Peripheries of the individual molding plates are machined with cutouts to define small hook profile cavities. The group of plates is held so their peripheries cooperate to define the surface of the roll. Because a large number of such plates is required and the plates must be carefully held in alignment, such mold rolls have been expensive to produce and maintain and have typically been confined to short lengths. The width of the product produced has been correspondingly restricted.
- the invention to be described applies to other techniques for forming fastener members of synthetic resin as well as the molding technique just described.
- a field of discrete fastener elements also stands up from a base and the fastener elements are aligned in rows extending in the machine direction.
- the hooks are oriented transversely to the machine direction and have their principal peel and shear strengths in just that direction.
- Machines and processes which have produced such devices have been limited in the width of the formed product and in the minimum thickness of the web that can be achieved between the fastener elements.
- the web portions between neighboring fastener elements can be stretched to a uniform thickness across the width of the product.
- the web portions between the fastener elements are reduced to film thicknesses, and the resulting fastener member is readily conformable about curved or complex surfaces or is otherwise usefully applied to broad areas in an economical manner.
- the fastener elements comprise touch-fastener hooks or the like.
- the widthwise molecular orientation and peel strength of the fastener product are increased during the widthwise stretching process.
- the ratio of the final width of the product to the original width of the product before widthwise stretching is between about 2 to 1 and about 10 to 1, and the widthwise stretching reduces the thickness of the base of the web by at least 50%.
- the widthwise stretching widens the web by at least 200% and reduces the thickness of the base of the web between fastener elements by at least two thirds.
- the method also comprises heating the web to render the base of the web permanently stretchable without detrimental change in the shape of the fastener elements.
- the fastener elements protrude from only one side of the web and the web is heated predominantly from a side opposite the side having the fastener elements.
- the resin is a thermoplastic resin suitable for forming hooks, comprising polypropylene, polyethylene, polyester, polystyrene, PVC, nylon or copolymers or polymer blends thereof.
- the widthwise stretching process causes molecular orientation and strengthening of the base of the web between fastener elements as it is stretched, such that as a result the base of the web between fastener elements is stretched widthwise substantially uniformly throughout.
- the mold roll defines fastener elements and other stretch-limiting features over the area of the web, according to a predetermined pattern.
- the pattern is selected such that the ratio of the width of the final web to the width of the web before widthwise stretching is substantially less than the Characteristic Minimum Stretch Ratio.
- the fastener elements and stretch-limiting features resist local stretching of the web.
- the stretch-limiting features are physical features of the product formed of synthetic resin integral with the base of the web, with the method including the step of differentially heating the web being formed such that the fastener elements and the stretch-limiting features are rendered less stretchable than the base of the web.
- the temperature of the web base is controlled as the web is stretched widthwise.
- the fastener elements may be immersed in a temperature-controlled liquid during the widthwise stretching.
- the web base is immersed in a temperature-controlled liquid during the widthwise stretching, or the web base is heated in a heated liquid bath during the widthwise stretching while leaving the fastener elements exposed to air.
- a dual stretch process in which the step of stretching the web widthwise includes stretching the web widthwise in a first stretch zone, maintaining the web at an intermediate, stretched width, and then further stretching the web widthwise in a second stretch zone.
- the rate of widthwise stretching varies along the first stretch zone.
- a method for producing a sheet-form fastener product comprising (1) forming from synthetic resin a running web having a multiplicity of rows of discrete fastener elements integral with and protruding from at least one side of base of the web, the elements facing in a substantially longitudinal direction, and (2) thereafter, under conditions in which the web is permanently stretchable, stretching the base of the web in a bias direction in a manner that permanently stretches the web base between fastener elements, increasing the spacing of the fastener elements and orienting the rows of fastener elements in a direction diagonal to the machine direction, such that the elements face in a diagonal direction.
- a method of producing a laminated sheet-form product having fastener elements comprises (1) forming from synthetic resin a running web having a multiplicity of discrete fastener elements integral with a base of the web and protruding from one side of the web base in a pattern, (2) thereafter, under conditions in which the web base is permanently stretchable, stretching the web base widthwise to a wider width in a manner that permanently stretches the web base between fastener elements and increases the widthwise spacing of the fastener elements while substantially maintaining the longitudinal spacing of the fastener elements, and (3) bonding an added material to the oppositely directed side of the web base.
- the bonding comprises passing the added material and web over a roller under conditions in which the web base is heat-softened.
- the bonding comprises applying an adhesive to either the added material, or the web base, or both, and directing the added material and web to join to form a laminate.
- the bonding comprises heat-softening a surface of the added material, and passing the added material and web over a roller such that the web base adheres to the heat-softened surface of the added material.
- the bonding includes forcing the added material and web together such that the web base adheres to the heat-softened surface of the added material, sometimes by forcing the added material and web together against a roller by air pressure.
- a method of producing a sheet-form fastener product comprises (1) forming from synthetic resin a running web having a multiplicity of discrete fastener elements integral with the web and protruding from at least one side of the web in a pattern, the forming causing the molecular structure of the web to be pre-oriented in a longitudinal direction, and (2) thereafter, under conditions in which the web is permanently stretchable, stretching the web widthwise in a manner that permanently stretches the web between fastener elements and increases the widthwise spacing of the fastener elements while substantially maintaining the longitudinal spacing of the fastener elements.
- a fastener product according to claim 22.
- the fastener elements comprise hook elements with profiles set at a bias direction relative to the running length of the web.
- the web base in a stretched condition, comprises a thermoplastic film of thickness less than 7,260 ⁇ 10 -5 m (0.003 inch).
- the product is adhered to a non-planar surface of a useful product, the film web conforming to the non-planar surface.
- the product has a width of 2,438 m (eight feet) or more.
- the product has molecular orientation in the widthwise direction, providing tear resistance in the lengthwise direction. In certain key embodiments, the product also has molecular orientation in the lengthwise direction, providing tear resistance in the widthwise direction.
- a decorative covering comprises the product and a sheet material in a laminated state, the fastener elements of the product providing a means to secure the covering in a desired position.
- the decorative covering comprises a wall covering. In other instances, it comprises a floor covering.
- an apparatus for forming a fastener product according to claim 28 In another aspect of the in invention, an apparatus for forming a fastener product according to claim 28.
- the apparatus includes a heating tunnel through which the intermediate product is passed prior to the stretching device.
- the heating tunnel is arranged to predominantly heat a side surface of the web base opposite to the side surface on which the fastening elements are disposed.
- the means for supplying plastic resin comprises an extruder and the supplied resin is longitudinally stretched by tension caused by the driven rolls, thereby pre-orienting the molecular structure of the resin in the machine direction before forming.
- the means for supplying plastic resin comprises an extruder positionable above the nip, and the supplied resin is longitudinally stretched at least partially by inertial forces as it falls from the extruder to the nip.
- the apparatus also includes means for laminating an added material to the stretched web base.
- the means for laminating includes a roller about which the product is trained in a stretched condition.
- a forming device 13 which employs a rotating mold roll 14 for molding from synthetic resin a product 10 with a running web 12 having a multiplicity of discrete spaced-apart fastener elements 11 integral with the base web.
- the mold roll 14 is associated with a pressure roll 16 to define a forming nip.
- the mold roll has discrete mold cavities about its perimeter, each shaped to form a fastener element profile, for instance that shown greatly magnified in Figs. 7 and 8.
- An extruder 18 extrudes molten plastic resin 20 which enters the nip and is formed into a web with a large multiplicity of the discrete fastener elements extending from one surface. After passing about takeoff roller 22 the formed product 10 is available to be passed through the stretching apparatus shown in Figs. 1 and 2.
- Fig. 1a shows a stand 24 mounting a storage roll 10a of material formed previously by forming device 12. The material passes about idlers 26 and 28 and is supplied to the stretching system of Figs. 1 and 2 to proceed as a batch process rather than as the in-line process shown in Fig. 1.
- the product 10 enters a stretching system comprising a preheater 32, a lateral stretching mechanism 40, and cooling unit 42.
- the completed product can then be wound into a roll or otherwise processed.
- the upper surface of the web 12 has a great number of discrete upstanding hook elements 11, in this case suitable for fastening according to the hook and loop technique.
- Alternate rows of the hooks may face in opposite directions, the rows of hooks being aligned with the machine direction T, corresponding to the direction in which the molding roll 14 turns.
- the product Prior to entering the preheater 32, the product is engaged by clamps 30 of the tenter frame which travel on rails along with the product, thus conveying the molded product through the preheater 32, and the lateral stretching unit 40.
- the downwardly facing, smooth surface of the web 10 of the product is exposed to distributed currents of hot air that are generated by hot air source 34 and introduced to the preheater through plenum 36 and distribution nozzles 38.
- the upper surface of web 10 and discrete fastening elements 11 are exposed to residual air currents at cooler temperature contained by the walls of the preheater 32.
- the majority of the heat is controllably introduced through the lower surface of the product and the fastener elements 11 on the upper side are kept at a temperature sufficiently low that no detrimental deformation of the fastener elements occurs during the preheating and stretching processes.
- the product 10 in preheater 32 is heated typically to a controlled temperature above the glass transition temperature of the synthetic resin of which the product has been formed, but below its melting temperature. Due to the predetermined layout of the guide rails, the tenter frame clamps 30 maintain a constant widthwise spacing corresponding substantially to the formed width of product 10, up to the final stage of the preheater 32. At this point the clamps 30 begin to diverge, in accordance with known tenter frame techniques. The clamps diverge in the stretching unit 40 until the maximum width is achieved, as shown substantially midway in the stretching unit, after which the tenter frame rails may proceed in parallel for a selected distance and then gradually converge to the stabilized final width W. The product passes through the cooling unit, 50 with width W where the material is cooled and stabilized.
- the result of passing of the product through the preheater 32, stretching unit 40 and cooling unit 50 is that the web is permanently stretched widthwise, and the spacing between the rows of discrete fastener elements 11 is increased according to a predetermined stretching ratio.
- This ratio is selected to be in excess of the Characteristic Minimum Stretching Ratio of the resin, as explained more fully below.
- the initial spacing w 0 of the rows of the fastener elements 11, Fig. 3 has increased to spacing w 1 , Fig. 4, which is significantly larger than w 0 .
- the change in spacing, W 1 may be selected to be between about 2 and 8 times the original width w 0 . Because the grippers 30 of the tenter frame move at a velocity v 1 that is substantially constant throughout the stretching system in this embodiment, no significant change is produced in the lengthwise spacing of the discrete hook elements in the machine direction of travel, T, as indicated by the same dimension l o in Figs. 3 and 4.
- the widthwise stretching is performed in two or more distinct zones, as shown in Fig. 21.
- the first zone Z 1 the product is stretched in a widthwise direction to an overall stretch ratio of about 2.5:1, after which it is maintained at an intermediate width for at least a few seconds to achieve partial stabilization before undergoing a second widthwise stretch in zone Z 2 to a final overall stretch ratio of about 6:1.
- the tenter frame rails in the stretch zones follow curves (e.g., cosines) configured to gradually initiate and culminate the widthwise acceleration of each stretch cycle.
- the first stretch cycle establishes the desired molecular orientation of the web base.
- This dual speed zone stretching arrangement may enable larger final stretch ratios to be achieved with sensitive web resins while avoiding tearing caused in part by process-induced stress concentrations at the bases of the hooks.
- the material of the base web 12 significantly decreases in thickness from the original thickness t 0 of Figs. 3A and 3B to the reduced thickness t 1 of Figs. 5 and 6.
- the areal density of the fastener elements is accordingly reduced.
- hook form elements of a type having a conventional height of about 0,889 ⁇ 10 -3 m (0.035 inch) and a spacing l 0 of about 1,270 ⁇ 10 -3 m (0.050 inch) along the rows, starting with a spacing w 0 of the rows of about 0,635 ⁇ 10 -3 m (0.025 inch) and ending with a spacing w 1 of Fig.
- a greater final area density of the hook elements e.g. for greater peel or shear strength of engagement of the hook form fastener elements 11 with a loop fabric, one can readily make adjustments, for instance by decreasing the original widthwise row spacing w 0 , or by decreasing the stretching ratio.
- the area density may change e.g. from about 310 ⁇ 10 4 to about 155 ⁇ 10 4 or 77,5 ⁇ 10 4 per square m (2000 to about 1000 or 500 per square inch). Numerous different fastener element profiles may be employed with different area densities.
- the stretching process is thus conducted under conditions in which the base web 12 is permanently stretchable the desired amount and the stretching of the web is conducted in the manner that permanently stretches the web 12 and results in increasing the spacing of the fastener elements 11 of the product 10. Numerous other arrangements can be employed, a few of which will be described later in this description.
- the web is rendered permanently stretchable by the 35 application of heat.
- the fastener elements 11 are protected from the heating conditions to which the under surface and body of the web are subjected. Under these conditions, stretching the web 12 is found not to deleteriously affect the profile of the fastener hooks 11.
- the amount of divergence of the grippers 30 of the tenter frame and the final dimension W to which the web is stretched is varied according to the resin employed and the desired characteristics of the final product.
- CMSR Characteristic Minimum Stretch Ratio
- the stretching occurs in the most stretchable regions until by progressive molecular orientation in those regions, those regions of the sheet become stronger and more resistant to stretching. As this occurs, the stretching action shifts to previously unstretched regions, and so on. This creates a uniform stretching effect if stretching occurs over a sufficient length of time and the CMSR is substantially exceeded, by which all regions of the sheet experience some stretching sufficient that a flat, uniformly appearing product is achieved.
- the longitudinal speed V 1 of the tentering frame clamps 30 is maintained substantially constant throughout the length of travel from preheater through the cooling unit.
- the grippers along one edge of the product travel at velocity V 1 throughout the preheater 32 and stretching unit 40 as depicted.
- the gripper chain is divided into two effective sections. The first section passing through the preheater 32 travels at velocity V 1 , the same as the velocity on the opposite edge.
- the longitudinal speed of the grippers is smoothly increased to a velocity V 2 which is faster than velocity V 1 . This has the effect of applying stretching forces to the web material in the diagonal or bias direction as suggested by arrow D in Fig.
- the rows of fastener elements form an angle a relative to the machine direction of travel, T.
- the material of the base web 12 has molecular orientation set in the bias direction, due to the diagonal stretching, corresponding to the direction of the reoriented rows of fasteners. Prestretching in the machine direction is not required in this case, but may be employed.
- the fasteners in the diagonally-stretched product may provide a more effective hook and loop fastening relative to peel and shear, in the lateral direction, than do the equivalent fasteners if processed to produce the product of Fig. 4.
- the extruded resin Due to the arrangement of the resin extruder 18, mold and pressure rolls 14 and 16, and the included nip, the extruded resin is pulled, or stretched longitudinally, as it enters the nip, thereby pre-orienting the molecular chains of the resin of the base web 12 in a longitudinal direction, parallel to the rows of fastener elements 11 before being molded.
- the amount of longitudinal pre-orientation increases with the speed of the extrusion and molding process. This pre-orientation of the web advantageously strengthens the web in a longitudinal direction, and can decrease the longitudinal tear resistance for applications that entail subsequent splitting operations.
- a tenter frame arranged as illustrated in Fig. 12 can be employed to stretch the molded web longitudinally as well as transversely, to create the product shown in Fig. 4b.
- the clamps on both sides of the stretching apparatus are divided into two sections. The first section on each side travels at the velocity V 1 through the preheater 32, and the second section of the clamps travels at greater velocity V 2 as the web is pulled through the tenter frame 40.
- Fig. 4c illustrates another product producible by the method of the invention in which, in addition to the discrete fastener hooks 11, further formations 60 connected to the hooks serve a reinforcing function with respect to the overall performance of the product.
- the post-forming widthwise stretching process is effective for such products.
- surface formations 90 are set in a pattern predetermined to limit the stretchability of the overall product when it is heated.
- the hook form fastener elements 11 and the further stretch limiting formations 90 are for instance kept relatively cool and cooperate to limit the stretchability of the overall preform.
- the fastener elements 11 and additional formations 90 can provide for a specific product design, and under selected process conditions, an effective minimum stretch ratio that is substantially less than the CMSR for a plain, flat sheet of the same thickness as the web 12 of the product in question. In this manner the preform is fashioned to behave in the tenter frame in a manner different from that dictated directly by the CMSR of a plain web of the resin.
- the CMSR is typically between about 6 to 1 to 8 to 1.
- the effective CMSR for products may be variable over a considerable useful range, for instance down to 4 to 1 or 2 to 1. This may enable, by suitable selection of the parameters, forming products of numerous expansion ratios using the same resin, especially such resins as polypropylene.
- Figs. 7a-7d illustrate some of the many other types of fastener elements that can be employed.
- the micro hook of Figs. 7a and 7b have a characteristic height from about 0,762 . 10 -3 m (0.030 inch)down to 0,381 . 10 -3 m (0.015 inch) or less. These are useful for fine matching loop fabrics, including low loft nonwoven fabrics.
- the fastener element of Fig. 7c is of palm tree shape, and can have a height of about 2,540 . 10 -3 m (0.100 inch), useful, e.g., for fastening upholstery fabrics to form creases and the like.
- FIG. 7d illustrates a mushroom-profile fastener element adapted to mesh with an array of similar mushroom fastener elements of an opposed fabric. This is given as just one example to show, that in its broader aspects, the invention is applicable to molded fastener elements of other forms. These are just four of the many hook profiles suitable for hook and loop fastening which can be employed advantageously in products produced in accordance with the invention.
- the dashed line portions of the figures denote the originally molded product 10 as it leaves the forming device 13.
- the effect of the heat and stretching reduces the thickness of the web 12 as shown by the solid lines.
- the widthwise stretching can reduce the thickness of the web significantly, depending upon the stretching ratio.
- the web is reduced to film thickness, i.e., less than 7,620 . 10 -5 m (0.003 inch) thickness, for thick film, or between about 2,540 . 10 -5 m (0.001 inch) and 5,080 ⁇ 10 -5 m (0.002 inch) thickness for relatively thin film.
- film thickness i.e., less than 7,620 . 10 -5 m (0.003 inch) thickness, for thick film, or between about 2,540 . 10 -5 m (0.001 inch) and 5,080 ⁇ 10 -5 m (0.002 inch) thickness for relatively thin film.
- Such films have substantial conformability to complex surfaces. In some cases conformability alone is sufficient to enable smooth application to curved surfaces such as cylinders, or to be thermoformed. In other instances, the final thickness of the web, and the synthetic resin of which it is molded, are selected to impart stretchiness to the overall product to enable it to be stretched about complex surfaces.
- the product is bonded to the surface of an article that adds strength to the overall fastener member.
- Bonding may be by use of the adhesive quality of the back of the resin web itself, when heated as by flash heating, or by application of a layer of bonding agent, or by the adhesive quality of the surfaces to which it is applied, or by respective combination of any two or three of these, or by other bonding or adhering techniques, including ultrasonic welding or the like.
- Fig. 9 is shown a complex surface to which has been conformed a fastener member 80 produced according to the invention in which the thickness of the base web of the product has been reduced to a selected thickness in the range of 2,540 ⁇ 10 -5 m (0.001) to 5,080 ⁇ 10 -5 m (0.002 inch).
- the film-like nature of the web in this product renders it conformable and, where desired, stretchable, so that it conforms to the complex surface.
- the shape is arbitrary to illustrate the fact that numerous shapes can receive such a fastener member.
- a wide surface is illustrated, for instance an interior surface of an office partition, e.g. 1,524 m of (5 feet) by 2,134 m (7 feet) dimensions, to which a sheet of the material formed according to the invention has been adhered.
- the material provides a uniformly covered array of hooks over the entire surface as desired.
- a surface such as this can receive a loop member at any point and hold it securely.
- partition walls of contrasting colors may be joined; signs and art work may be mounted on walls, ceiling tiles may be affixed, floor coverings may be secured, etc., all at relatively low cost.
- one method of protecting the fastener elements during stretching employs a shallow, temperature-controlled liquid bath 120.
- a shallow, temperature-controlled liquid bath 120 In this instance, only the fastener elements 11 are submerged in the bath during widthwise stretching, with the web base 10 exposed to an air environment of a higher temperature than the bath.
- the tenter frame rails 31 are arranged to lower the web to submerge the fastener elements during stretching, and to lift the product from the bath after stretching.
- the lower surface of the web base 10 is submerged into a heated, temperature-controlled bath while the fastener elements 11 are exposed to cooler air.
- two non-mixing liquids 125 and 126 are employed and maintained at separate temperatures with the web base running along the interface between the two liquids acting as a thermal barrier to reduce heat transfer between the layers.
- the bath is employed to more precisely control the temperature of the web base separate from the temperature of the fastener elements so as to help to maintain a desired fastener element shape as the web is stretched.
- the liquid bath may be arranged such that the fastener product is either suspended in the liquid or supported by the lower surface of the bath. In the configuration shown in Fig.
- the entire fastener product i.e., the web base 10 and the fastener elements 11
- a temperature-controlled fluid either bath liquid or oven air
- useful bath liquids include glycol, for instance.
- An aspect of the invention is the discovery that the tension effect between the base and fasteners is controllable, does not prevent the stretching of products having discrete, small fasteners elements, and in fact, in certain instances, can be used to advantage to achieve a desired shortening or change of geometry to the fastener elements.
- the forming system is as shown in Fig. 1 with the addition of a wide roller 17 arranged to draw a preformed web 19 from a source not shown and supply it to the surface of the lower roll 16 preceding the nip.
- the material 19 comprises a knitted product which has been precompressed, for instance by a process known as microcreping, available from Micrex Corporation, Walpole, Massachusetts.
- the knitted fabric is suitable for engagement with the hooks formed by the apparatus, and is capable of undergoing widthwise stretch without tending to shorten longitudinally. It is introduced to the surface of the roll 16 prior to the nip, and is combined with the resin 20 in accordance with the concept disclosed in U.S.
- Patent 5,260,015 which is, in its entirety, hereby incorporated by reference.
- the resulting material is shown in the magnified view of Fig. 13a.
- the hook elements 11 are, as before, integrally formed with the base web 12, but the underside of the web is commingled and intimately joined with fibers of the compacted knitted fabric 19 to form a integral product.
- the knitted product 19 is formed of fibers having a higher melt and glass transition temperature than that of the resin forming the web 12 and hook elements 11 such that the knit readily retains its looped construction under the heating conditions of the oven preheater 32 of Figs. 1 and 2.
- the knitted structure remains intact and in fact serves as a heat sink to ensure the transfer of heat to the web 12 and provide for its stretchability when the product reaches the stretching region of the system.
- a further embodiment employs the roll setup as shown in Figs. 1 and 2.
- the extruder 18a is a coextrusion extruder and produces streams of resin 21 and 23 of different properties.
- the streams 21 and 23 Prior to reaching the outlet of the extruder the streams 21 and 23 are merged and the combined extrudate 20a is fed into the nip of the mold roll and the pressure roll 16 as a layered composite of the two resins.
- the resin 23 may have a lesser thickness than resin 21, resin 23 being selected to form principally the fastening elements 11 while the resin 21 forms principally the web 12'.
- the fastener elements 11' are comprised at least in part of resin 23 and are rendered less soft and less susceptible to deformation by the heat of preheater 32, and so more accurately preserve their profile when subjected to sufficient heat to render the resin 21 of the web readily stretchable.
- the resin 23 of the hooks 11' (Fig. 14a) can be selected for its properties related to peel and shear strength of the fastener elements 11', whereas the resin 21 of the base web 10' can be selected for optimal base web properties, for instance stretchability and conformability.
- a system comprising two mold rolls 14 and 14a forming a nip into which resin from extruder 18 is directed as provided in Figs. 1 and 2.
- two additional extruders 18a and 18b are provided to apply resin to fill the mold cavities of the respective rolls 14a and 14.
- supplemental nips may be formed with the respective mold rolls into which the resin from the supplemental extruders 18a and 18b is directed. In this case the gap of the rolls 23 and 25 relative to their respective mold rolls is reduced to a minimum so that the major portion of the resin enters the mold cavities.
- doctor blades may be arranged to force resin into the mold cavities but to leave substantially no resin on the periphery that would enter the constituent of the base web.
- the resulting product has fastener elements 11 on one side and other elements protruding from the opposite side, for instance fastener elements 11'.
- the resins chosen to be extruded from supplemental extruders 18a and 18b can be similar to that resin 23 which is employed in Fig. 14, i.e. they may have greater stability under the preheating conditions than the resin forming the main body of the web 12' and the capability to retain their shape and integrity while the web of base resin provided by extruder 18 is heated and stretched.
- the product resulting from the process and use of the machine described in Fig. 15 is shown in Fig 15a in which the base web 10' is comprised of one resin, the upper fastening elements 11 are formed of a second resin, and the lower fastening elements 11' are formed of a third resin.
- a radiant preheater 32a can be employed in which radiant elements 35 direct radiant energy to the product 10 to bring it to stretchable condition.
- the resin provided by the supplemental extruders 18a and 18b may be of a reflective or light colored pigment that limits the amount of absorption of radiation by the projecting elements 11 and 11' whereas the resin provided by extruder 18 may for instance be black or otherwise highly absorptive to receive and absorb the radiant energy. (A similar function may be served by the resin provided in Fig. 14 for forming the fastener elements 11'.)
- the resin chosen for extruder 18a has different properties than the resin chosen for extruder 18b.
- the resin chosen for extruder 18a is selected to solidify more quickly than that of the resin of extruder 18b and be more readily separable from its mold roll at the nip, the resin for extruder 18b having longer time to cool as movement progresses with the roll 14 toward stripping roll 22a.
- the lateral stretching is conducted close to the mold roll 14 and receives the product 10 directly from the controlled-temperature roll in a soft and stretchable condition.
- the heat of the extrusion and forming process is employed to provide the web in stretchable condition for the action of the lateral stretching unit 40.
- the projecting fastener elements 11 have significant exposed surface area relative to their volume and under the appropriate conditions, cool more quickly than the base web 12, and thus are more solid and resistant to deformation during the stretching process than is the base web itself, which, in most cases, is desired.
- an added material is laminated to the stretched product on the side of the web opposite the fastener members, as shown in Fig. 17.
- added material 100 from a source spool 102 is brought into contact with the back surface of the web as the web is passed over a laminating roller 104 before being spooled on takeup roller 106.
- the web 99 under a degree of tension, is trained about an arc of the laminating roll, which thereby exerts pressure between the web 99 and the added material.
- the added material is a wall covering to which hooks are thus applied for removably fastening the wall covering to a wall.
- floor mats e.g. for automobiles
- the added material comprising fibrous carpeting on the top, and molded fastener hooks underneath to secure the floor mat to the permanent floor covering of the automobile.
- area rugs are formed, with the added material providing a top rug surface and the web providing fastener elements to fasten to a permanent floor covering.
- further steps are employed to achieve adhesion between the added material and the web that carries the fastener elements.
- an adhesive 110 is applied to the added material (and/or web) before it is laminated to the web.
- the added material and web are "flame-laminated” by flame-softening (in some cases, actually setting fire to) the added material (and/or web) before laminating.
- air jets 112 help to press the two layers of the laminate together against the laminating roller to augment the adhesion of the layers. Combinations of these and other adhesion-enhancing techniques are likewise useful.
- a 12 melt flow polypropylene with a glass transition temperature near room temperature was molded to produce hook-shaped fastener elements with an overal height of about 0,899 ⁇ 10 -3 m (0.035 inch), and an area density of 116,25 ⁇ 10 4 hooks per square m (750 hooks per square inch), on a 0,305 ⁇ 10 -3 m (0.012 inch) thick 0,305 m (12 inch) wide, web.
- a fractional melt flow polypropylene was molded to produce hooks 0,711 ⁇ 10 -5 m (0.028 inches) in height with an area density of 139,50 ⁇ 10 4 hooks per square m (900 hooks per square inch).
- Rip-stop formations were molded with the fastener elements on a web of about 12,500 10 -5 m (0.005 inch) thickness.
- the product was stretched widthwise to ratios of 3:1 and 4:1, reducing the web thickness to 3,810 ⁇ 10 -5 and 2,540 ⁇ 10 -5 m (0.0015 and 0.001 inch). It was noted that the resulting web thickness was more uniform across the product at the higher stretch ratios. Again, little or no deformation of the fastener elements occurred during the stretching, producing a usable fastener strip with widths of 7,620 and 10,160 m (30 and 40 inches).
- the same product as the above example after being stretched to twice its width in a tenter frame, was trimmed to lengths of the original width and run through the tenter frame again to perform a 2:1 lengthwise stretch.
- the final web thickness was about 2,540 ⁇ 10 -5 m (0.001) inch, with the spacing between fastener members doubled in both the widthwise and lengthwise directions.
- a 0,305 m (12 inch) nylon 6/6 fastener strip was produced by stretching a 0,152 m (6 inch) wide web with 2,540 ⁇ 10 5 m (0.100 inch) high hooks arranged with an area density of about 22,785 ⁇ 10 4 hooks per square m (147 hooks per square inch). The web thickness was reduced in half to about 15,240 ⁇ 10 -5 m (0.006 inch).
- a bottle grade polyethylene terathalate with a glass transition temperature of about 65,6 degrees Celsius (150 degrees Fahrenheit) was used in the same molding apparatus as in the nylon example above, and then stretched to four times its molded width to produce a very flexible fastener product 1,219 m (four feet) wide with a web thickness of only 2,540 ⁇ 10 -5 m (0. 001 inch).
- a low density polypropylene with a glass transition temperature well below room temperature was molded to produce a 0,203 ⁇ 10 -5 m (0.008 inch) thick, 0,305 m (12 inch) wide web with 0,889 ⁇ 10 -5 m (0.035 inch) high hook-shaped fastener elements with an initial area density of about 116,25 ⁇ 10 4 hooks per square m (750 hooks per square inch).
- An attempt to stretch the product to a final width of 1,219 m (four feet) resulted in localized tearing and a reduction in the height of the hooks.
- Usable product was produced in stretched widths of 0,610 and 0,914 m (two and three feet)with little or no hook deformation and web thicknesses of 10,160 ⁇ 10 -5 and 7,620 ⁇ 10 -5 m (0.004 and 0.003 inches).
Description
For instance, the fastener elements may be immersed in a temperature-controlled liquid during the widthwise stretching. In other instances, the web base is immersed in a temperature-controlled liquid during the widthwise stretching, or the web base is heated in a heated liquid bath during the widthwise stretching while leaving the fastener elements exposed to air.
In certain key embodiments, the product also has molecular orientation in the lengthwise direction, providing tear resistance in the widthwise direction.
Prior to reaching the outlet of the extruder the
After leaving
Claims (33)
- A method of producing a sheet-form fastener product, comprising:lengthwise stretching a sheet (20) of moldable resin under conditions which cause the web base to have a molecular structure pre-oriented in a longitudinal direction;with a rotating mold roll (14), molding from said sheet a running web (10) having a base (12) and a multiplicity of discrete fastener elements (11) protruding from at least one side of the base; and thereafter,under conditions in which the web is permanently stretchable, stretching the web (10) widthwise in a manner that permanently stretches the base (12) and increases the widthwise spacing (e.g., W1) of the fastener elements (11).
- The method of claim 1 wherein the fastener elements comprise touch-fastener hooks.
- The method of claim 1 or 2 wherein the stretching increases widthwise molecular orientation and peel strength of the fastener product.
- The method of any of the preceding claims wherein a ratio of the width (W) of the product, as widthwise stretched, to the width of the product before widthwise stretching is between about 2 to 1 and 10 to 1.
- The method of any of the preceding claims wherein the widthwise stretching widens the web by at least 200 percent and reduces the thickness (TO) of the base (12) of the web between fastener elements (11) by at least two-thirds or reduces the thickness (T0) of the base (12) of the web by at least 50 percent.
- The method of claim 1 further comprising heating the web (10) to render the base (12) of the web permanently stretchable without detrimentally changing the shape of the fastener elements (11).
- The method of claim 6 wherein the fastener elements (11) protrude from only one side of the web (10) and the web is heated from a side (S) opposite the side from which the fastener elements protrude.
- The method of any of the preceding claims wherein the resin comprises a thermoplastic resin selected from the group consisting of polypropylene, polyethylene, polyester, polystyrene, PVC, nylon and copolymers and polymer blends thereof.
- The method of any of the preceding claims wherein the widthwise stretching process causes molecular orientation and strengthening of the base (12) of the web (10) between fastener elements (11) and results in the base of the web between fastener elements being uniformly stretched widthwise throughout the web.
- The method of claim 9 wherein said synthetic resin has a Characteristic Minimum Stretch Ratio and said mold roll forms a pattern of stretch-limiting features (90) over the area of the web, the pattern selected to keep the ratio of the width (W) of the widthwise stretched web to the width of the web before widthwise stretching less than the Characteristic Minimum Stretch Ratio.
- The method of claim 10 wherein the fastener elements and stretch-limiting features (90) resist local stretching of the web (10).
- The method of claim 10 wherein the stretch-limiting features (90) are formed of the sheet (20) of resin, the method including the step of differentially heating the molded web (10) to render the stretch-limiting features (90) less stretchable than the base (12) of the web.
- The method of any of the preceding claims comprising controlling the temperature of the web base (12) as the web (10) is stretched widthwise.
- The method of claim 13 comprising immersing the fastener elements (11) and/or the web base (10) in a temperature-controlled liquid during the widthwise stretching.
- The method of claim 13 comprising heating the web base (12) in a heated liquid bath during the widthwise stretching, while leaving the fastener elements (11) exposed to air.
- The method of any of the preceding claims wherein the step of stretching the web widthwise comprisesstretching the web (10) widthwise in a first stretch zone (Z1 );maintaining the web at an intermediate, stretched width; and thenfurther stretching the web widthwise in a second stretch zone (Z2).
- The method of claim 16 wherein the rate of widthwise stretching varies along the first stretch zone (Z1).
- The method of any of the preceding claims wherein, as molded, the fastener elements (11) face in a substantially longitudinal direction (T), and wherein the widthwise stretching comprises stretching the web (10) in a bias direction to cause the fastener elements (11) to face in a diagonal direction, at an angle (α) to the longitudinal direction (T).
- The method of any of the preceding claims further comprising after widthwise stretching, bonding an added material (100) to a side of the web base (12) opposite the fastener elements (11) and/or passing the added material (100) and web (10) over a roller (104) under conditions in which the web base (12) is heat-softened.
- The method of claim 19 wherein the bonding comprises:applying an adhesive (110) to at least one of the added material (100) and the web base (12),directing the added material and web to join to form a laminate (108); and thenpassing the added material and web over a roller (104) such that the web base adheres to the added material; and/or
- The method of any of the preceding claims wherein longitudinal spacing (LO) of the molded fastener elements (11) is maintained during said widthwise stretching.
- A fastener product comprised of synthetic resin and having a multiplicity of rows of molded fastener elements (11) extending along a running web base (12) with which the fastener elements are integrally formed, the web base between the rows of elements havinga degree of molecular orientation in a first direction as a result of being stretched prior to molding of the fastener elements (11), anda degree of molecular orientation in a second direction, perpendicular to the first direction, as a result of being permanently stretched after molding of the fastener elements (11).
- The product of any of the preceding claims having sufficient molecular orientation in the widthwise direction to provide tear resistance in the lengthwise direction and/or also having sufficient molecular orientation in the lengthwise direction to provide tear resistance in the widthwise direction.
- A decorative covering (108) comprising the product of claims 22 or 23 and a sheet material (100) in a laminated state, the fastener elements (11) of the product providing a means to secure said covering in a desired position and/or wherein the decorative covering is adapted to cover a wall or floor.
- The product of any of daims 22 to 24 wherein the fastener elements comprise hook elements with profiles set at a bias direction relative to the running length of the web.
- The product of any of claims 22 to 25 wherein said web base has a thickness (T1), between the rows of fastener elements (11), of less than about 0.08 millimeter (0.003 inch).
- The product of any of claims 25 to 26 having a width (W) of at least 2,4 meters (eight feet).
- An apparatus for forming a fastener product, the apparatus comprising:a pair of rolls (14,16) forming a nip therebetween, at least one of the rolls being a mold roll (14) for forming fastener elements (11) integral with and extending from a side surface of a running length of a web base (12);means (18) for supplying plastic resin (20) to the nip whereby the resin is longitudinally stretched before being molded; anda widthwise stretching device (40) arranged to stretch the web base (12) produced by said pair of rolls in a direction transverse to the running length of said web base.
- The apparatus of claim 28 including a heating tunnel (32) through which the web base (12) is passed prior to said stretching device (40), the heating tunnel arranged to heat a side surface (S) of the web base opposite to the side surface on which the fastening elements (11) are disposed.
- The apparatus of claim 28 or 29 wherein the means for supplying plastic resin comprises an extruder (18), and wherein the supplied resin (20) is longitudinally stretched by tension caused by the pair of rolls (14,16), thereby pre-orienting the molecular structure of the resin in the machine direction before forming the web base.
- The apparatus of claim 28 or 29 wherein the means for supplying plastic resin comprises an extruder positionable above the nip, and wherein the supplied resin is longitudinally stretched at least partially by inertial forces between the extruder and the nip.
- The apparatus of any of claims 28 to 31 including means for laminating an added material (100) to the stretched web base.
- The apparatus of claim 32 wherein the means for laminating an added material comprises a roller (104) about which said product is trained in a stretched condition.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US78963797A | 1997-01-27 | 1997-01-27 | |
US789637 | 1997-01-27 | ||
PCT/US1998/001271 WO1998032349A1 (en) | 1997-01-27 | 1998-01-23 | Stretched fasteners |
Publications (3)
Publication Number | Publication Date |
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EP0998208A4 EP0998208A4 (en) | 2000-05-10 |
EP0998208A1 EP0998208A1 (en) | 2000-05-10 |
EP0998208B1 true EP0998208B1 (en) | 2004-05-26 |
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EP98904652A Expired - Lifetime EP0998208B1 (en) | 1997-01-27 | 1998-01-23 | Stretched fasteners |
Country Status (7)
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EP (1) | EP0998208B1 (en) |
JP (1) | JP2002510986A (en) |
KR (1) | KR20000070504A (en) |
CN (1) | CN1309328C (en) |
AU (1) | AU6247898A (en) |
DE (1) | DE69824180T2 (en) |
WO (1) | WO1998032349A1 (en) |
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US7897078B2 (en) * | 2004-03-09 | 2011-03-01 | 3M Innovative Properties Company | Methods of manufacturing a stretched mechanical fastening web laminate |
JP4845619B2 (en) | 2006-07-19 | 2011-12-28 | 東芝機械株式会社 | Sheet / film oblique stretching method and clip-type sheet / film stretching apparatus |
DE102007040357A1 (en) * | 2007-08-27 | 2009-03-05 | Brückner Trockentechnik GmbH & Co. KG | Apparatus and method for treating a textile web |
US20100221554A1 (en) * | 2007-11-08 | 2010-09-02 | Unitika Ltd. | Process for producing polyamide resin film and polyamide resin film obtained by the process |
ES2643559T3 (en) * | 2012-05-16 | 2017-11-23 | 3M Innovative Properties Company | Method of manufacturing a mechanical fixing device using divergent discs |
US20130318752A1 (en) | 2012-05-31 | 2013-12-05 | Velcro Industries B.V. | Releasable fastenings with barriers |
CN103063689B (en) * | 2012-12-27 | 2015-01-21 | 中国科学技术大学 | Constant width film stretching device combined with X-ray scattering, and experimental method thereof |
JP6825094B2 (en) * | 2016-06-13 | 2021-02-03 | グロブラ・ゲーエムベーハー | Foundation structures, devices and methods for transporting film |
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-
1998
- 1998-01-23 KR KR1019997006748A patent/KR20000070504A/en active IP Right Grant
- 1998-01-23 CN CNB988020637A patent/CN1309328C/en not_active Expired - Fee Related
- 1998-01-23 JP JP53212898A patent/JP2002510986A/en not_active Ceased
- 1998-01-23 DE DE69824180T patent/DE69824180T2/en not_active Expired - Fee Related
- 1998-01-23 WO PCT/US1998/001271 patent/WO1998032349A1/en active IP Right Grant
- 1998-01-23 AU AU62478/98A patent/AU6247898A/en not_active Abandoned
- 1998-01-23 EP EP98904652A patent/EP0998208B1/en not_active Expired - Lifetime
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EP0998208A4 (en) | 2000-05-10 |
DE69824180T2 (en) | 2005-06-02 |
KR20000070504A (en) | 2000-11-25 |
WO1998032349A1 (en) | 1998-07-30 |
AU6247898A (en) | 1998-08-18 |
CN1254258A (en) | 2000-05-24 |
JP2002510986A (en) | 2002-04-09 |
CN1309328C (en) | 2007-04-11 |
EP0998208A1 (en) | 2000-05-10 |
DE69824180D1 (en) | 2004-07-01 |
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