EP1461486A1 - Machine and method for processing textile fabrics - Google Patents

Machine and method for processing textile fabrics

Info

Publication number
EP1461486A1
EP1461486A1 EP02805004A EP02805004A EP1461486A1 EP 1461486 A1 EP1461486 A1 EP 1461486A1 EP 02805004 A EP02805004 A EP 02805004A EP 02805004 A EP02805004 A EP 02805004A EP 1461486 A1 EP1461486 A1 EP 1461486A1
Authority
EP
European Patent Office
Prior art keywords
web material
cylindrical member
machine according
guiding element
rotating
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.)
Withdrawn
Application number
EP02805004A
Other languages
German (de)
French (fr)
Inventor
Luigi Marcora
Alberto Ciabattini
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Coramtex SRL
Original Assignee
Coramtex SRL
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Coramtex SRL filed Critical Coramtex SRL
Publication of EP1461486A1 publication Critical patent/EP1461486A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H23/00Registering, tensioning, smoothing or guiding webs
    • B65H23/04Registering, tensioning, smoothing or guiding webs longitudinally
    • B65H23/16Registering, tensioning, smoothing or guiding webs longitudinally by weighted or spring-pressed movable bars or rollers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H20/00Advancing webs
    • B65H20/24Advancing webs by looping or like devices
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06CFINISHING, DRESSING, TENTERING OR STRETCHING TEXTILE FABRICS
    • D06C11/00Teasing, napping or otherwise roughening or raising pile of textile fabrics

Definitions

  • the present invention relates to a machine for processing textile fabrics and more in general for processing web material.
  • the invention relates to a machine for processing web material comprising an advancement path of the web and an essentially cylindrical rotating abrasive member which acts on the web, which is entrained around the member itself.
  • a machine for processing web material comprising an advancement path of the web and an essentially cylindrical rotating abrasive member which acts on the web, which is entrained around the member itself.
  • Machines in which continuously fed textile fabric is subjected to finishing and aging processes by means of abrasive material applied onto a rotating cylinder, around which the textile material is entrained, are employed in the fabric processing.
  • the surface of the textile fabric is mechanically processed by exploiting the different speeds of the abrasive surface of the cylinder and of the textile fabric.
  • US-A-3615990 describes a machine for processing textile fabric or non-wovens by means of rotating cylindrical brushes. The web is tensioned and passed under the brushing member.
  • US-A-5197305 describes a machine for processing textile fabrics by means of rotating brushes with the addition of abrasive powders. Also in this case, the textile fabric is tensioned and passed underneath the rotating members which act on the material.
  • EP-A-0020109 describes a process and a method for artificially aging textile fabrics.
  • the textile fabric is passed between an abrasive roller and a pressure roller.
  • US-A-3872557 describes a machine for the superficial abrasion of previously dyed textile fabrics to alter the hues of color.
  • the textile fabric is suitably tensioned and passed underneath a turning abrasive roller.
  • EP-A-0532479 describes a method and a machine for the artificial aging surface treatment of continuous textile fabric.
  • the textile fabric is tensioned and passed underneath an abrasive member in the form of a rotating cylinder or pivoting bar of abrasive material.
  • the abrasive effect is obtained by means of cylindrical rotating brushes formed by filaments of synthetic material, specifically nylon ® , charged with abrasive particles or granules, such as silica carbide or aluminum oxide.
  • a machine for processing textile fabrics employing brushes of this type is described, for example, in patent EP-A-0417659.
  • the bristles of these brushes are made, for example, of a synthetic product marketed by DUPONT ® under the brand name TYNEX ® .
  • FR-A-2822217 describes a machine which employs cylindrical brushes made by these filaments for processing textile fabrics, specifically denim.
  • US-A-3553801 describes a machine for the abrasive treatment of textile fabrics comprising a plurality of abrasive cylinders equipped with projecting helical ribbing which act on suitably tensioned spans of textile fabric guided on a complex trajectory which is tangent to a plurality of these cylinders.
  • US-A-3204271 describes a brushing machine for textile fabrics in which the fabric to be processed is passed between a pair of counter-rotating brushes.
  • FR-A-2525644 describes an abrasive member made of a body of abrasive pumice stone.
  • EP-B-0757728 describes a machine for the continuous processing of textile fabric by means of a brush made of synthetic filaments charged with aluminum or carbon, of which an hypothetical abrasive capacity is claimed.
  • the textile fabric is subjected to the abrasive action of the rotating member - which may be a brush, a cylinder covered with abrasive paper or abrasive cloth, a body integrally made of abrasive material or the like - by tensioning the fabric and putting it into contact with the rotating abrasive member.
  • the rotating member which may be a brush, a cylinder covered with abrasive paper or abrasive cloth, a body integrally made of abrasive material or the like - by tensioning the fabric and putting it into contact with the rotating abrasive member.
  • Tensioning the material causes a number of problems, particularly due to the formation of folds or creases in the longitudinal direction which leads to the fabric being processed in different ways along its transversal development.
  • the tension induced in the fabric may also alter the structure of the warp and weft yarns with consequent processing irregularities.
  • Some yarns are subjected to more abrasion than others causing the formation of irregularly distributed lines on the finished product, in correspondence to where the fabric was excessively consumed by the abrasive member and appears to have lost essentially all its color.
  • the loose or taut selvages subjected to tension by traditional grinding machines cause problems related to variable degree of abrasion which affects processing quality.
  • object of the present invention is the realization of a new method and machine to overcome the aforesaid problems. More in particular, object of the invention is the realization of a machine for processing - specifically abrasion processing - textile materials or other continuous web material without inducing tensions in the web material which may negatively affect the final processing result.
  • the cylindrical member is associated to a mobile guiding element on which the web material is guided, whose position varies with the contact arch between the web material and the cylindrical member; and in that the speed of at least one of said feeding and distancing means is controlled according to the position of said mobile guiding element.
  • the contact angle or arch between the fabric or other continuous web material around the rotating cylindrical member can be controlled without excessively tensioning the web material or even practically without tensioning the web material at all. This avoids the formation of creases or longitudinal folds and provides uniform processing on the entire width of the material being processed.
  • the invention is based on the idea of exploiting the attitude that the web material would assume if it were fed freely into contact with the rotating cylindrical member.
  • This variable attitude is caused by the abrasive surface of the rotating member which in contact with the web material tends to withhold it on its surface and drag it making it turn.
  • This attitude varies according to: > the rotation speed of the rotating cylindrical member
  • the effect of the treatment can be varied without inducing critical tension in the web material by maintaining the characteristics of the rotating member and the web material and changing the speed of the rotating member and the feeding speed and/or the distancing speed of said web material to or from said rotating member.
  • an encoder or potentiometer or other suitable detecting means associated to the mobile guiding element generates a signal for modifying the feeding speed or the pulling speed of the web material to or from the rotating cylindrical member. After setting the required position of the guiding element (and consequently setting the contact arch between the web material and the rotating cylindrical member) this attitude, which corresponds to a certain abrasive effect, can be maintained by means of a feedback signal generated by the encoder or potentiometer.
  • the position of the guiding element is used to control the speed of the distancing mean of the web material instead of the feeding mean.
  • the speed of the web material is controlled at the rotating cylindrical member output. A more accurate control is obtained in this way.
  • the peripheral speed of the rotating cylindrical member can differ from the feeding speed of the web material around it according to modulus and/or direction.
  • the cylindrical member may turn at a peripheral speed which in the same direction as the advancement of the web material.
  • the difference in speed is obtained by adopting a peripheral speed of the rotating member whose modulus is different (preferably higher) than the feeding speed of the web material.
  • the guiding element can advantageously be arranged upstream to said rotating cylindrical member with respect to the direction of advancement of the web material on said advancement path.
  • the cylindrical member can turn at a peripheral speed whose direction is opposite to that of the direction of advancement of the web material around it.
  • the member can advantageously turn at a peripheral speed whose modulus exceeds the speed of advancement of the web material to increase the difference in speed between the material to be processed and the periphery of the cylindrical member.
  • the guiding element is advantageously arranged upstream to the cylindrical member.
  • the guiding element is on the side of the cylindrical member towards which the cylindrical member tends to drag the web material by effect of the friction between the cylinder and the textile fabric.
  • two or more rotating cylindrical members can be arranged along the path of advancement of the web material.
  • a guiding element and respective means for feeding and distancing the material are advantageously associated to each cylindrical member. It is understood that the distancing means of the web material from a cylindrical member can be formed by the (or part of the) means used for feeding the web material to the following cylindrical member.
  • a multiple cylindrical member configuration it is suitable to provide that the control priority of the distancing means associated to most downstream cylindrical member is higher than that of the other distancing means of the upstream members, which are subjected to the control of the means which are more downstream.
  • a master-slave type control is implemented, where the master is the most downstream cylindrical member. In the case of more than two rotating cylindrical members, the master-slave arrangement is repeated in each consecutive cylindrical member pair.
  • the guiding element (or each guiding element, in the case of multiple arrangement) can consist of a dancer cylinder movable e.g. along a straight trajectory, and suitably guided.
  • the guiding element is supported by an articulated pivoting arm on the axis of rotation of said rotating cylindrical member.
  • the pivoting arm may be counterweighted, e.g. with a suitable counterweight carried by a flexible member, such as chain or the like, entrained around a wheel which is integral with the pivoting arm.
  • a high velocity cylinder-piston system may be used to rapidly change the counterweight value.
  • the guiding element does not apply a high tension on the web material by applying a counterweight to the pivoting arm.
  • high tension is used to indicate a tension which may cause an alteration in the processing effect of the fabric, e.g. due to the formation of creases or folds in the fabric and/or due to the alteration, which may also be only temporary, of the warp and weft of the fabric.
  • the guiding element may be suitably associated to position detecting sensor members which detect the position thereof.
  • the speed of the distancing means is therefore controlled by a suitable control unit in such a way as to avoid applying high tension to the web material.
  • the mean for distancing the web material from the cylindrical member is controlled by the position of said guiding element so that the contact angle between the web material and the cylindrical member does not exceed a pre-settable value.
  • the rotating cylindrical member can be any type of member, for performing any operation on the web material.
  • the invention can be used to obtain particular advantages when the rotating cylindrical member is an abrasive member, specifically a cylindrical brush with abrasive bristles.
  • the abrasive bristles can consist of synthetic material filaments charged with granules of abrasive material.
  • the invention also concerns a method for the continuous processing of web material, specifically textile fabric, comprising the following phases: feeding the web material along a feeding path and around a rotating essentially cylindrical member which processes said web material; distancing the web material from said cylindrical member.
  • the method is characterized in that the speed at which the web material is fed and/or distanced from the cylindrical member is controlled according to the contact arch between the cylindrical member and the web material.
  • the method according to the invention provides for: arranging a mobile guiding element for the web material along the feeding path next to the cylindrical member; detecting the position of the mobile guiding element with respect to the cylindrical member; and controlling the speed at which said web material is distanced and/or fed to the cylindrical member according to the position of the mobile guiding element.
  • FIG. 1 schematically shows an abrasive rotating cylindrical member working on a fabric which is not tensioned, without the use of the measures provided by present invention
  • FIG. 2 schematically shows the structure of a machine according to the invention with a single rotating cylindrical member
  • Fig. 3 schematically shows a machine according to the invention with two rotating cylindrical members turning in opposite directions
  • Fig. 4 schematically shows a machine similar to that illustrated in Fig. 3, with two abrasive rotating cylindrical members, but in a configuration suitable for processing both sides of the web material. Detailed description of the invention
  • Reference numeral 1 in Fig. 1 very schematically indicates an abrasive rotating cylindrical member, specifically an abrasive cylindrical brush in this example.
  • the cylindrical member turns on an axis A in the direction indicated by the arrow fl .
  • Reference 1A indicates a clothing, for example, made of filaments of synthetic material charged with abrasive particles, e.g. TYNEX ® filaments.
  • a textile fabric T advancing the arrow fT is guided around the rotating cylindrical member 1.
  • the trajectory of the fabric T can vary according to the contact arch on the cylindrical member 1.
  • the tension on the textile fabric T By reducing the tension on the textile fabric T, the latter is dragged downwards by the cylindrical member 1 , whose peripheral speed is higher than the speed of advancement of the fabric itself.
  • Excessively low stress on the textile fabric T makes the fabric tend to wind around the rotating cylindrical member 1 , as shown by the fabric in the attitude indicated by reference T ⁇
  • reference numeral 1 again indicates a rotating cylindrical member turning on an axis A.
  • the rotating cylindrical member 1 for example, is made of a cylindrical brush equipped with a clothing of filaments 1A of synthetic material charged with abrasive granules.
  • the textile fabric T is fed along an advancement path by a feeding mean, generically indicated by reference numeral 3 and consisting in this example of a driven cylinder 5 on which the fabric T is advanced by guiding it on two guiding rollers 7 and 9.
  • a distancing mean 11 consisting of driven rotating cylinder 13 on which the fabric T is guided and a pair of guiding rollers 15 and 17 (similarly as the feeding mean 3) is arranged downstream with respect to the rotating cylindrical member 1.
  • Reference numerals 19 and 20 schematically indicate two independent motors for operating the driven cylinders 5 and 13 whose rotation speed may be reciprocally different.
  • the rotating cylindrical member 1 is operated by a separate motor (not shown). A different configuration of the various motors may be used.
  • a baffle 21 presenting a rounded edge 21 A whose curvature radius is relatively small to deviate the trajectory of the fabric to the cylindrical surface of the rotating cylindrical member 1 is arranged between the feeding means 3 and the rotating cylindrical member 1.
  • the fabric T is guided on the mobile roller 25 and forms therefore a curve in the section comprised between the point of detachment between the rotating cylindrical member 1 and the guiding roller 15 of the distancing means 11.
  • the assembly consisting of the pivoting arms 23 and the guiding roller
  • a counterweight 27 fastened to the lower free end of a chain 29 whose second end is fastened to chain wheel 31 integrally fastened to the arms 23 and consequently rotating on the axis A.
  • two counterweights 27, two chains 29 and two chain wheels 31 fastened to the two counterpoised arms 23 can be provided.
  • the pivoting movement of the arms 23 causes more or less winding of the chain 29 on the respective chain wheel 31.
  • the counterweight 27 nearly entirely eliminates the tension due to the weight applied by the guiding roller 25 on the fabric T.
  • a position sensor e.g. an encoder or potentiometer, schematically indicated by reference numeral 33 in Fig. 2, is associated to the assembly formed by the pivoting arms 23 and the guiding roller 25.
  • the encoder 33 interfaces with a control unit 35, which in turn interfaces at least with the motor 20 and possibly with the motor 19.
  • the control unit 35 by suitably programming the control unit 35, the angular position of the pivoting arms 23 and the guiding roller 25 (and consequently the contact arch between the fabric T and the rotating cylindrical member 1) can be corrected by varying the speed with which the driven cylinder 13 pulls the fabric from the cylindrical member 1.
  • the speed of the driven cylinder 13 is temporarily increased to pull the fabric T and consequently reduce the loop formed between the rotating cylindrical member 1 and the guiding roller 15.
  • An opposite correction can be applied when the contact angle between the fabric T and the surface of the rotating cylindrical member 1 is excessively small, i.e. when the position of the pivoting arms 23 is excessively high.
  • two limit angular positions can be defined in correspondence with which the correction by temporary acceleration of the motor 20 is either started or stopped.
  • the encoder 33 may be replaced by two limit switches which start and stop the acceleration control.
  • a plurality of micro switches or proximity sensors arranged along the trajectory of the pivoting arms 23, e.g. a plurality of capacitance, magnetic or linear sensors, to detect the passage of one of the two pivoting arms 23 and consequently control the acceleration or deceleration of the motor 20 associated to the driven cylinder 13.
  • Fig. 3 shows a form of embodiment of the machine according to the invention with two rotating cylindrical members, consisting of abrasive cylindrical brushes also in this case.
  • Equal numbers indicate parts which are either equal or corresponding to those illustrated in the previous form of embodiment.
  • the machine comprises two consecutive sections, indicated by references 51 A and 51 B.
  • Section 51 A is essentially equal to the machine in Fig. 2. It presents a brush 1 with bristles 1 A, means 3 for feeding the textile fabric T, distancing means 11 , a guiding element consisting of the roller 25 and the respective supporting pivoting arm 23.
  • Each of the feeding and distancing means are equipped with respective motors 19 and 20, in this case shown in axis with the corresponding driven cylinders 5 and 13.
  • the bristles 1A of the cylindrical brush 1 are slanted with respect to the radial direction and more exactly are slanted backwards with respect to the feeding direction of the fabric T and to the direction of the rotation of the brush. This ensures the best abrasive results because the granules incorporated in the synthetic resin which forms the bristles projects from the edges of the bristles.
  • Section 51 B has in common with section 51 A the arrangement of the means 11 forming the feeding means of the fabric T to a second rotating cylindrical member, indicated by reference numeral 101 , and consisting of a cylindrical brush with bristles 101 A.
  • Members equivalent to the members in the upstream section are associated to the brush 101 , namely a guiding roller 125 supported by a pair of arms 123 hinged on axis B of rotation of the brush 101.
  • An encoder or potentiometer 133 provides a signal indicating the angular position of the arms 123 and consequently the contact arch of the fabric T with the brush 101.
  • Reference 121 indicates a baffle of the fabric and references 111 , 113, 115, 117, 120 indicate the members forming the means for distancing the web from the second brush 101 , equivalent to the means 11 , 15, 17, 20.
  • the arms 123 and the guiding roller 125 are balanced by a counterweight 127 supported by a flexible member 129 similar to the flexible member 29, turning around a wheel 131 which is integral with the arms 123 and coaxial to the axis B.
  • the angular position of the arms 123 is detected by an encoder 133.
  • the arrangement of the section 51 B differs with respect to the arrangement of the section 51 A, in that the brush 101 turns in the direction opposite to that of the brush 1. Consequently, the direction of the peripheral speed of the brush is opposite to the speed of advancement of the fabric in the contact area between the fabric T and the brush 101. Consequently, the direction in which the bristles 101 A are slanted is also reversed.
  • the guiding roller 125 is arranged upstream to the brush 101 with respect to the direction of advancement of the fabric T.
  • the motors 19, 20, 120 and the encoders 33, 133 interface with a programmable central control unit 35 which is similar to the unit 35 in the previous example of embodiment.
  • the operation is illustrated below.
  • the arms 123, 23 are in an intermediate position, in an acceptable angular range. If the fabric T tends to wrap excessively around the brush 101 A on input side (i.e. towards the feeding means 11 to section 51 B) by effect of the dragging exerted by the abrasive bristles 101 A, the distancing means 111 are consequently accelerated to pull the fabric.
  • Section 51 A works in the way already described with reference to the machine in Fig. 1 , with the difference that it is subordinated to the control of section 51 B. In other words, the distancing speed of the means 11 from section 51 A is corrected after correcting the speed of the means 111 , to return the arm 123 to the correct position.
  • Fig. 4 shows a form of embodiment which is similar to that shown in

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Treatment Of Fiber Materials (AREA)

Abstract

The machine comprises: an advancement path of said web (T); at least one abrasive member, essentially cylindrical, rotating and abrasive (1) along the advancement path on which the material is guided; a means (3) for feeding said web material to said cylindrical member; and a means for distancing (11) said web material from said cylindrical member. The cylindrical member is associated a mobile guiding element (23, 25) on which the web material is guided, whose position varies with the variation of the contact arch between the web material and the cylindrical member. The speed of at least one of said feeding and distancing means is controlled according to the position of said mobile guide element.

Description

MACHINE AND METHOD FOR PROCESSING TEXTILE FABRICS
DESCRIPTION Technical field The present invention relates to a machine for processing textile fabrics and more in general for processing web material.
Specifically, the invention relates to a machine for processing web material comprising an advancement path of the web and an essentially cylindrical rotating abrasive member which acts on the web, which is entrained around the member itself. State of the art
Machines in which continuously fed textile fabric is subjected to finishing and aging processes by means of abrasive material applied onto a rotating cylinder, around which the textile material is entrained, are employed in the fabric processing. The surface of the textile fabric is mechanically processed by exploiting the different speeds of the abrasive surface of the cylinder and of the textile fabric.
US-A-3615990 describes a machine for processing textile fabric or non-wovens by means of rotating cylindrical brushes. The web is tensioned and passed under the brushing member. US-A-5197305 describes a machine for processing textile fabrics by means of rotating brushes with the addition of abrasive powders. Also in this case, the textile fabric is tensioned and passed underneath the rotating members which act on the material.
EP-A-0020109 describes a process and a method for artificially aging textile fabrics. The textile fabric is passed between an abrasive roller and a pressure roller.
US-A-3872557 describes a machine for the superficial abrasion of previously dyed textile fabrics to alter the hues of color. The textile fabric is suitably tensioned and passed underneath a turning abrasive roller. EP-A-0532479 describes a method and a machine for the artificial aging surface treatment of continuous textile fabric. The textile fabric is tensioned and passed underneath an abrasive member in the form of a rotating cylinder or pivoting bar of abrasive material.
Frequently, the abrasive effect is obtained by means of cylindrical rotating brushes formed by filaments of synthetic material, specifically nylon®, charged with abrasive particles or granules, such as silica carbide or aluminum oxide. A machine for processing textile fabrics employing brushes of this type is described, for example, in patent EP-A-0417659. The bristles of these brushes are made, for example, of a synthetic product marketed by DUPONT® under the brand name TYNEX®. FR-A-2822217 describes a machine which employs cylindrical brushes made by these filaments for processing textile fabrics, specifically denim.
US-A-3553801 describes a machine for the abrasive treatment of textile fabrics comprising a plurality of abrasive cylinders equipped with projecting helical ribbing which act on suitably tensioned spans of textile fabric guided on a complex trajectory which is tangent to a plurality of these cylinders.
US-A-3204271 describes a brushing machine for textile fabrics in which the fabric to be processed is passed between a pair of counter-rotating brushes.
FR-A-2525644 describes an abrasive member made of a body of abrasive pumice stone.
EP-B-0757728 describes a machine for the continuous processing of textile fabric by means of a brush made of synthetic filaments charged with aluminum or carbon, of which an hypothetical abrasive capacity is claimed.
In all known devices in which a continuous web of textile fabric is processed, the textile fabric is subjected to the abrasive action of the rotating member - which may be a brush, a cylinder covered with abrasive paper or abrasive cloth, a body integrally made of abrasive material or the like - by tensioning the fabric and putting it into contact with the rotating abrasive member. Tensioning the material causes a number of problems, particularly due to the formation of folds or creases in the longitudinal direction which leads to the fabric being processed in different ways along its transversal development. The tension induced in the fabric may also alter the structure of the warp and weft yarns with consequent processing irregularities. Some yarns are subjected to more abrasion than others causing the formation of irregularly distributed lines on the finished product, in correspondence to where the fabric was excessively consumed by the abrasive member and appears to have lost essentially all its color. The loose or taut selvages subjected to tension by traditional grinding machines cause problems related to variable degree of abrasion which affects processing quality.
When the textile fabric, the non-woven or other web material is turned on a rotating abrasive cylinder without being adequately tensioned, the friction between the web material and the surface of the rotating cylindrical member tends to make the web material wind around the cylindrical member itself. The web material must be kept taut, which causes the aforesaid problems, to avoid jamming the machine. Obiec and summary of the invention Object of the present invention is the realization of a new method and machine to overcome the aforesaid problems. More in particular, object of the invention is the realization of a machine for processing - specifically abrasion processing - textile materials or other continuous web material without inducing tensions in the web material which may negatively affect the final processing result.
These and other objects and advantages, which will be clear to experts of the field in the text that follows, are obtained in practice by a machine comprising in combination:
- an advancement path of the web material, - at least one rotating substantially cylindrical abrasive member along the advancement path around which the web material is guided;
- a mean for feeding web to the cylindrical member; and
- a mean for distancing web from the cylindrical member; and characterized in that: the cylindrical member is associated to a mobile guiding element on which the web material is guided, whose position varies with the contact arch between the web material and the cylindrical member; and in that the speed of at least one of said feeding and distancing means is controlled according to the position of said mobile guiding element.
In this way, the contact angle or arch between the fabric or other continuous web material around the rotating cylindrical member can be controlled without excessively tensioning the web material or even practically without tensioning the web material at all. This avoids the formation of creases or longitudinal folds and provides uniform processing on the entire width of the material being processed.
Even if the speed of the periphery of the cylindrical member and the web material are different, the friction which the cylindrical member exerts on the fabric does not cause an excessive increase of the reciprocal contact arch between the fabric and the cylindrical member thanks to the control provided by the guiding element.
In this way, the tension on the web material in contact with the rotating cylindrical member is minimized. Essentially, the invention is based on the idea of exploiting the attitude that the web material would assume if it were fed freely into contact with the rotating cylindrical member. This variable attitude is caused by the abrasive surface of the rotating member which in contact with the web material tends to withhold it on its surface and drag it making it turn. By applying the guiding element, the point in which the web material is detached from the rotating cylindrical member is stabilized so to keep the attitude (i.e., in substance, the reciprocal contact arch) of the fabric with respect to the rotating cylindrical member constant.
This attitude varies according to: > the rotation speed of the rotating cylindrical member,
> the abrasive power of the surface of the member,
> the surface characteristics of the web material , and
> the relative speed between the web material and the periphery of the rotating cylindrical member. The effect of the treatment can be varied without inducing critical tension in the web material by maintaining the characteristics of the rotating member and the web material and changing the speed of the rotating member and the feeding speed and/or the distancing speed of said web material to or from said rotating member.
In practice, it can be provided that an encoder or potentiometer or other suitable detecting means associated to the mobile guiding element generates a signal for modifying the feeding speed or the pulling speed of the web material to or from the rotating cylindrical member. After setting the required position of the guiding element (and consequently setting the contact arch between the web material and the rotating cylindrical member) this attitude, which corresponds to a certain abrasive effect, can be maintained by means of a feedback signal generated by the encoder or potentiometer.
According to a preferred embodiment of the invention, the position of the guiding element is used to control the speed of the distancing mean of the web material instead of the feeding mean. In other words, the speed of the web material is controlled at the rotating cylindrical member output. A more accurate control is obtained in this way.
The peripheral speed of the rotating cylindrical member can differ from the feeding speed of the web material around it according to modulus and/or direction. For example, the cylindrical member may turn at a peripheral speed which in the same direction as the advancement of the web material. In this case, the difference in speed is obtained by adopting a peripheral speed of the rotating member whose modulus is different (preferably higher) than the feeding speed of the web material. In this case, the guiding element can advantageously be arranged upstream to said rotating cylindrical member with respect to the direction of advancement of the web material on said advancement path.
Alternatively, the cylindrical member can turn at a peripheral speed whose direction is opposite to that of the direction of advancement of the web material around it. Also in this case, the member can advantageously turn at a peripheral speed whose modulus exceeds the speed of advancement of the web material to increase the difference in speed between the material to be processed and the periphery of the cylindrical member. In this case, the guiding element is advantageously arranged upstream to the cylindrical member.
In general, the guiding element is on the side of the cylindrical member towards which the cylindrical member tends to drag the web material by effect of the friction between the cylinder and the textile fabric. To obtain particular effective processing, two or more rotating cylindrical members can be arranged along the path of advancement of the web material. In this case, a guiding element and respective means for feeding and distancing the material are advantageously associated to each cylindrical member. It is understood that the distancing means of the web material from a cylindrical member can be formed by the (or part of the) means used for feeding the web material to the following cylindrical member.
When two or more rotating cylindrical members are arranged along the advancement path of the textile fabric, it is preferred that one turns in the same direction as the direction of advancement of the web material and the other turns in the opposite direction with the consequently symmetric arrangement of the guiding elements.
In a multiple cylindrical member configuration, it is suitable to provide that the control priority of the distancing means associated to most downstream cylindrical member is higher than that of the other distancing means of the upstream members, which are subjected to the control of the means which are more downstream. Essentially, a master-slave type control is implemented, where the master is the most downstream cylindrical member. In the case of more than two rotating cylindrical members, the master-slave arrangement is repeated in each consecutive cylindrical member pair.
According to a practical embodiment of the invention, the guiding element (or each guiding element, in the case of multiple arrangement) can consist of a dancer cylinder movable e.g. along a straight trajectory, and suitably guided. However, according to a practical and particularly advantageous embodiment of the invention, the guiding element is supported by an articulated pivoting arm on the axis of rotation of said rotating cylindrical member. ln order to reduce the tension on the web material as much as possible, the pivoting arm may be counterweighted, e.g. with a suitable counterweight carried by a flexible member, such as chain or the like, entrained around a wheel which is integral with the pivoting arm. Alternatively, a high velocity cylinder-piston system may be used to rapidly change the counterweight value. The guiding element does not apply a high tension on the web material by applying a counterweight to the pivoting arm. The term "high tension" is used to indicate a tension which may cause an alteration in the processing effect of the fabric, e.g. due to the formation of creases or folds in the fabric and/or due to the alteration, which may also be only temporary, of the warp and weft of the fabric.
The guiding element may be suitably associated to position detecting sensor members which detect the position thereof. The speed of the distancing means is therefore controlled by a suitable control unit in such a way as to avoid applying high tension to the web material.
According to an advantageous embodiment, the mean for distancing the web material from the cylindrical member is controlled by the position of said guiding element so that the contact angle between the web material and the cylindrical member does not exceed a pre-settable value. Generally, the rotating cylindrical member can be any type of member, for performing any operation on the web material. The invention can be used to obtain particular advantages when the rotating cylindrical member is an abrasive member, specifically a cylindrical brush with abrasive bristles.
Advantageously, the abrasive bristles can consist of synthetic material filaments charged with granules of abrasive material.
The invention also concerns a method for the continuous processing of web material, specifically textile fabric, comprising the following phases: feeding the web material along a feeding path and around a rotating essentially cylindrical member which processes said web material; distancing the web material from said cylindrical member. According to the invention, the method is characterized in that the speed at which the web material is fed and/or distanced from the cylindrical member is controlled according to the contact arch between the cylindrical member and the web material.
According to a practical embodiment the method according to the invention provides for: arranging a mobile guiding element for the web material along the feeding path next to the cylindrical member; detecting the position of the mobile guiding element with respect to the cylindrical member; and controlling the speed at which said web material is distanced and/or fed to the cylindrical member according to the position of the mobile guiding element.
Additional advantageous characteristics and embodiment of the invention are recited in the dependent annexed claims. Brief description of the drawings
The invention will be better understood following the description and the accompanying drawing, which shows a practical non-limitative example of the invention. In the drawing: Fig. 1 schematically shows an abrasive rotating cylindrical member working on a fabric which is not tensioned, without the use of the measures provided by present invention;
Fig. 2 schematically shows the structure of a machine according to the invention with a single rotating cylindrical member; Fig. 3 schematically shows a machine according to the invention with two rotating cylindrical members turning in opposite directions; and
Fig. 4 schematically shows a machine similar to that illustrated in Fig. 3, with two abrasive rotating cylindrical members, but in a configuration suitable for processing both sides of the web material. Detailed description of the invention
Reference numeral 1 in Fig. 1 very schematically indicates an abrasive rotating cylindrical member, specifically an abrasive cylindrical brush in this example. The cylindrical member turns on an axis A in the direction indicated by the arrow fl . Reference 1A indicates a clothing, for example, made of filaments of synthetic material charged with abrasive particles, e.g. TYNEX® filaments.
A textile fabric T advancing the arrow fT is guided around the rotating cylindrical member 1. As shown in Fig. 1, the trajectory of the fabric T can vary according to the contact arch on the cylindrical member 1. By reducing the tension on the textile fabric T, the latter is dragged downwards by the cylindrical member 1 , whose peripheral speed is higher than the speed of advancement of the fabric itself. Excessively low stress on the textile fabric T makes the fabric tend to wind around the rotating cylindrical member 1 , as shown by the fabric in the attitude indicated by reference T\
This problem is solved by the machine whose configuration is schematically shown in Fig. 2, without inducing tension in the textile fabric which could cause problems in terms of the process result.
In Fig. 2, reference numeral 1 again indicates a rotating cylindrical member turning on an axis A. Also in this case, the rotating cylindrical member 1 , for example, is made of a cylindrical brush equipped with a clothing of filaments 1A of synthetic material charged with abrasive granules. The textile fabric T is fed along an advancement path by a feeding mean, generically indicated by reference numeral 3 and consisting in this example of a driven cylinder 5 on which the fabric T is advanced by guiding it on two guiding rollers 7 and 9.
A distancing mean 11 consisting of driven rotating cylinder 13 on which the fabric T is guided and a pair of guiding rollers 15 and 17 (similarly as the feeding mean 3) is arranged downstream with respect to the rotating cylindrical member 1. Reference numerals 19 and 20 schematically indicate two independent motors for operating the driven cylinders 5 and 13 whose rotation speed may be reciprocally different. The rotating cylindrical member 1 is operated by a separate motor (not shown). A different configuration of the various motors may be used.
A baffle 21 presenting a rounded edge 21 A whose curvature radius is relatively small to deviate the trajectory of the fabric to the cylindrical surface of the rotating cylindrical member 1 is arranged between the feeding means 3 and the rotating cylindrical member 1.
A pair of arms 23, which carry a mobile guiding element (a roller 25 idly carried by the two pivoting arms 23 in the example shown) pivot on the axis A of rotation of the rotating cylindrical member 1. The fabric T is guided on the mobile roller 25 and forms therefore a curve in the section comprised between the point of detachment between the rotating cylindrical member 1 and the guiding roller 15 of the distancing means 11. The assembly consisting of the pivoting arms 23 and the guiding roller
25 is suitably balanced by a counterweight 27 fastened to the lower free end of a chain 29 whose second end is fastened to chain wheel 31 integrally fastened to the arms 23 and consequently rotating on the axis A. In practice, two counterweights 27, two chains 29 and two chain wheels 31 fastened to the two counterpoised arms 23 can be provided. The pivoting movement of the arms 23 causes more or less winding of the chain 29 on the respective chain wheel 31. The counterweight 27 nearly entirely eliminates the tension due to the weight applied by the guiding roller 25 on the fabric T.
The pivoting movement of the arms 23 and the guiding roller 25 modifies the path of the fabric T as shown in the two positions of the unit 23,
25 shown by the solid and dotted line in Fig. 2. When the fabric T tends to wind by a larger arch around the rotating cylindrical member 1 , the pair of pivoting arms 23 and the guiding roller 25 pivot downwards counterclockwise.
In order to prevent the textile fabric T from wrapping around the rotating cylindrical member 1 forming an excessive arch which tends to integrally encompass the rotating cylindrical member 1 , a position sensor, e.g. an encoder or potentiometer, schematically indicated by reference numeral 33 in Fig. 2, is associated to the assembly formed by the pivoting arms 23 and the guiding roller 25. The encoder 33 interfaces with a control unit 35, which in turn interfaces at least with the motor 20 and possibly with the motor 19. In this way, by suitably programming the control unit 35, the angular position of the pivoting arms 23 and the guiding roller 25 (and consequently the contact arch between the fabric T and the rotating cylindrical member 1) can be corrected by varying the speed with which the driven cylinder 13 pulls the fabric from the cylindrical member 1.
Essentially, when the pivoting arms 23 and the guiding roller 25 tend to be excessively low, the speed of the driven cylinder 13 is temporarily increased to pull the fabric T and consequently reduce the loop formed between the rotating cylindrical member 1 and the guiding roller 15. An opposite correction can be applied when the contact angle between the fabric T and the surface of the rotating cylindrical member 1 is excessively small, i.e. when the position of the pivoting arms 23 is excessively high. In practice, two limit angular positions can be defined in correspondence with which the correction by temporary acceleration of the motor 20 is either started or stopped. The encoder 33 may be replaced by two limit switches which start and stop the acceleration control. Alternatively, a plurality of micro switches or proximity sensors arranged along the trajectory of the pivoting arms 23, e.g. a plurality of capacitance, magnetic or linear sensors, to detect the passage of one of the two pivoting arms 23 and consequently control the acceleration or deceleration of the motor 20 associated to the driven cylinder 13.
Fig. 3 shows a form of embodiment of the machine according to the invention with two rotating cylindrical members, consisting of abrasive cylindrical brushes also in this case. Equal numbers indicate parts which are either equal or corresponding to those illustrated in the previous form of embodiment. The machine comprises two consecutive sections, indicated by references 51 A and 51 B. Section 51 A is essentially equal to the machine in Fig. 2. It presents a brush 1 with bristles 1 A, means 3 for feeding the textile fabric T, distancing means 11 , a guiding element consisting of the roller 25 and the respective supporting pivoting arm 23. Each of the feeding and distancing means are equipped with respective motors 19 and 20, in this case shown in axis with the corresponding driven cylinders 5 and 13. Unlike the previous solution, the bristles 1A of the cylindrical brush 1 are slanted with respect to the radial direction and more exactly are slanted backwards with respect to the feeding direction of the fabric T and to the direction of the rotation of the brush. This ensures the best abrasive results because the granules incorporated in the synthetic resin which forms the bristles projects from the edges of the bristles.
Section 51 B has in common with section 51 A the arrangement of the means 11 forming the feeding means of the fabric T to a second rotating cylindrical member, indicated by reference numeral 101 , and consisting of a cylindrical brush with bristles 101 A. Members equivalent to the members in the upstream section are associated to the brush 101 , namely a guiding roller 125 supported by a pair of arms 123 hinged on axis B of rotation of the brush 101. An encoder or potentiometer 133 provides a signal indicating the angular position of the arms 123 and consequently the contact arch of the fabric T with the brush 101. Reference 121 indicates a baffle of the fabric and references 111 , 113, 115, 117, 120 indicate the members forming the means for distancing the web from the second brush 101 , equivalent to the means 11 , 15, 17, 20.
The arms 123 and the guiding roller 125 are balanced by a counterweight 127 supported by a flexible member 129 similar to the flexible member 29, turning around a wheel 131 which is integral with the arms 123 and coaxial to the axis B. The angular position of the arms 123 is detected by an encoder 133.
The arrangement of the section 51 B differs with respect to the arrangement of the section 51 A, in that the brush 101 turns in the direction opposite to that of the brush 1. Consequently, the direction of the peripheral speed of the brush is opposite to the speed of advancement of the fabric in the contact area between the fabric T and the brush 101. Consequently, the direction in which the bristles 101 A are slanted is also reversed. The guiding roller 125 is arranged upstream to the brush 101 with respect to the direction of advancement of the fabric T.
The motors 19, 20, 120 and the encoders 33, 133 interface with a programmable central control unit 35 which is similar to the unit 35 in the previous example of embodiment. The operation is illustrated below. When the machine is started, the arms 123, 23 are in an intermediate position, in an acceptable angular range. If the fabric T tends to wrap excessively around the brush 101 A on input side (i.e. towards the feeding means 11 to section 51 B) by effect of the dragging exerted by the abrasive bristles 101 A, the distancing means 111 are consequently accelerated to pull the fabric. Section 51 A works in the way already described with reference to the machine in Fig. 1 , with the difference that it is subordinated to the control of section 51 B. In other words, the distancing speed of the means 11 from section 51 A is corrected after correcting the speed of the means 111 , to return the arm 123 to the correct position. Fig. 4 shows a form of embodiment which is similar to that shown in
Fig. 3, but in a configuration in which the first abrasive rotating cylindrical member works on one side of the web material while the other abrasive rotating cylindrical member works on the second side of the material. This machine is consequently capable of processing the front and the back of the fabric at the same time. Equal numbers indicate parts which are the same as or equivalent to the embodiment in Fig. 3. In this case, the mobile guiding elements are always downstream to the corresponding rotating cylindrical member because the web embraces the upper arch in the first case and the lower arch of the respective rotating cylindrical member in the second case. It is understood that the drawing only shows a possible embodiment of the invention, which may be varied in its forms and dispositions without however departing from the scope of the underlying concept of the invention.

Claims

1. A machine for processing a web material, in particular a textile fabric, comprising:
- an advancement path of said web material, - at least one cylindrical rotating abrasive member along said advancement path on which the web material is guided,
- a mean for feeding said web material to said cylindrical member, and
- a mean for distancing said web material from said cylindrical member, characterized in that: said cylindrical member is associated to a mobile guiding element on which the web material is guided, whose position varies with the contact arch between the web material and the cylindrical member; and in that the speed of at least one of said feeding and distancing means is controlled according to the position of said mobile guiding element.
2. Machine according to claim 1 , characterized in that the speed of the web material distancing mean is adjusted according to said position of the mobile guiding element.
3. Machine according to claim 1 or 2, characterized in that the guiding element is downstream to said rotating cylindrical member, with respect to the direction of advancement of the web material along said advancement path, and in that the direction of the peripheral speed of the rotating cylindrical member is the same as the direction of advancement of the web material along said path.
4. Machine according to claim 1 , characterized in that the guiding element is arranged upstream to said rotating cylindrical member with respect to the direction of advancement of the web material on said advancement path; and in that the direction of the peripheral speed of the rotating cylindrical member is opposite to the direction of advancement of the web material along said path.
5. Machine according to one or more of the preceding claims, characterized in that it comprises two cylindrical members rotating in opposite directions, each of said cylindrical members being associated to a respective mobile guiding element and respective web material feeding and distancing means.
6. Machine according to claim 5, characterized in that:
> a first of said rotating cylindrical members turns in the direction of advancement of the web material and the respective guiding element is arranged downstream to said first cylindrical member with respect to the direction of advancement of the web material; and
> the second of said rotating cylindrical members turns in the direction opposite to that of advancement of the web material and the respective guiding element is arranged upstream to said second cylindrical member with respect to the direction of advancement of the web.
7. Machine according to claim 5, characterized in that said two rotating cylindrical members are arranged to process two opposite sides of the web.
8. Machine according to claim 7, characterized in that a respective mobile guiding element is associated to each of said rotating cylindrical members, each mobile guiding element being arranged downstream to the respective rotating cylindrical member with respect to the direction of advancement of the web material.
9. Machine according to one or more of the claims above, characterized in that each guiding element is supported by a articulated pivoting arm on the rotating axis of said rotating cylindrical member.
10. Machine according to claim 9, characterized in that said pivoting arm is counterweighted.
11. Machine according to one or more of the preceding claims, characterized in that said guiding element does not apply high tension on said web material.
12. Machine according to one or more of the preceding claims, characterized in that the speed of said distancing means and/or said feeding mean is controlled to avoid applying a high tension on the web material.
13. Machine according to one or more of the preceding claims, characterized in that said distancing mean is controlled by the position of said guiding element so that the contact arch between the web material and the cylindrical member does not exceed a pre-settable value.
14. Machine according to one or more of the preceding claims, characterized in that said cylindrical member is an abrasive member.
15. Machine according to one or more of the preceding claims, characterized in that said cylindrical member is a cylindrical brush.
16. Machine according to claim 15, characterized in that said cylindrical brush presents abrasive bristles.
17. Machine according to claim 16, characterized in that said abrasive bristles are made of filaments of synthetic material charged with granules of abrasive material.
18. Machine according to one or more of the claims 15 to 17, characterized in that the bristles of said brush are slanted with respect to a radial direction, the bristles being slanted in the opposite direction with respect to the direction of rotation of said brush.
19. Machine according to one or more of the preceding claims, characterized in that a baffle is arranged along the advancement path of the web material, between either the feeding mean and the cylindrical member or the distancing mean and the cylindrical member to set the point of contact between the web material and the cylindrical member.
20. Machine according at least to claim 10, characterized in that said arm is integral with a wheel around which a flexible member carrying a counterweight is turned.
21. A method for the continuous processing of a web material, specifically textile fabric, comprising the following phases: - feeding said web material along an advancement path and around a rotating member which is essentially cylindrical and processes said web material; - distancing the web material from said cylindrical member, characterized in that speed at which said web material is fed and/or distanced from the cylindrical member according to the contact arch between the cylindrical member and the web material.
22. Method according to claim 21 , characterized by: - providing a mobile guiding element of the web material along the feeding path next to the cylindrical member;
- detecting the position of the mobile guiding element with respect to the cylindrical member; and - controlling the speed at which said web material is either distanced and/or fed to the cylindrical member according to the position of the mobile guiding element is controlled.
EP02805004A 2001-12-14 2002-12-09 Machine and method for processing textile fabrics Withdrawn EP1461486A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
ITFI20010237 2001-12-14
IT2001FI000237A ITFI20010237A1 (en) 2001-12-14 2001-12-14 FABRIC TREATMENT MACHINE AND RELATED METHOD
PCT/IT2002/000770 WO2003052193A1 (en) 2001-12-14 2002-12-09 Machine and method for processing textile fabrics

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EP1461486A1 true EP1461486A1 (en) 2004-09-29

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EP (1) EP1461486A1 (en)
KR (1) KR20040062682A (en)
AU (1) AU2002366460A1 (en)
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IT (1) ITFI20010237A1 (en)
WO (1) WO2003052193A1 (en)

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WO2003052193A1 (en) 2003-06-26
AU2002366460A1 (en) 2003-06-30
BR0214938A (en) 2004-12-14
ITFI20010237A1 (en) 2003-06-16
KR20040062682A (en) 2004-07-07

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