EP1703009A1 - Elastically deformable belt for use in an apparatus for treating a continuous textile substrate - Google Patents
Elastically deformable belt for use in an apparatus for treating a continuous textile substrate Download PDFInfo
- Publication number
- EP1703009A1 EP1703009A1 EP05425155A EP05425155A EP1703009A1 EP 1703009 A1 EP1703009 A1 EP 1703009A1 EP 05425155 A EP05425155 A EP 05425155A EP 05425155 A EP05425155 A EP 05425155A EP 1703009 A1 EP1703009 A1 EP 1703009A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- belt
- fibre
- yarns
- textile
- extensible
- 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- Withdrawn
Links
Images
Classifications
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06C—FINISHING, DRESSING, TENTERING OR STRETCHING TEXTILE FABRICS
- D06C21/00—Shrinking by compressing
- D06C21/005—Compacting belts
Definitions
- the present invention relates to the textile sector and in particular relates to the sector of apparatus for compacting continuous textile substrates. Even more particularly it relates to a suitably deformable belt for use in an apparatus for shrinking a continuous textile substrate.
- US 4,908,918 describes a belt in which a non-extensible textile structure supports a deformable component on which the textile substrate being treated is placed.
- US 2,021,975 describes a method and an apparatus for treating orthogonal weave fabrics, where a rubber belt is used. Compression of a length of the belt causes a small deformation in elongation of the said belt along this compressed length.
- the textile material to be shrunk is fed onto the surface of the belt along the length which has undergone the small deformation in elongation and is caused to shrink by the surface of the belt which, following compression, returns into the untensioned state.
- EP04425854.9 in the name of the present Applicant, describes an apparatus and a method for shrinking a continuous textile substrate.
- the apparatus comprises: a first motorized roller, a second motorized roller, an endlessly wound belt for conveying and supporting the textile substrate and a pre-tensioning means for applying a longitudinal tension to the belt and a means for guiding the belt.
- the pre-tensioning means comprises a third roller, which is preferably idle, and the belt guiding mean comprises a rotating drum for guiding the belt along a length between the second motorized roller and the first motorized roller.
- the textile substrate is transported, arranged between the belt and the rotating drum.
- the belt is substantially deformable elastically in elongation.
- the belt has a high elastic deformability and may consist, for example, also of fibrous material.
- the main object of the present invention is to provide a belt elastically deformable in elongation, typically formed as a closed loop, preferably for use in an apparatus according to the abovementioned application EP04425854.9 or a similar apparatus.
- a belt substantially longitudinally deformable elastically for use in an apparatus for treating a continuous textile substrate comprising: a textile support structure and at least one additional layer fixed to said textile structure.
- the textile structure is formed by an interlacement of a plurality of substantially longitudinal adjacent yarns and a plurality of substantially transverse adjacent yarns, said substantially longitudinal yarns comprising substantially extensible and elastic fibre and said substantially transverse yarns comprising substantially non-extensible fibre.
- the at least one additional layer comprises a substantially resilient and extensible mass which envelopes said textile structure.
- the mass comprises natural rubber and/or synthetic rubber.
- the at least one additional layer is a fibrous layer which comprises an upper fibrous layer and a lower fibrous layer.
- the substantially longitudinal yarns of said textile structure comprise polyurethane elastomer.
- the substantially longitudinal yarns of said textile structure comprise a mixture of substantially extensible and elastic fibre and substantially non-extensible fibre, for example a mixture of fibre of the polyurethane elastomer and polyester fibre type, or fibre of the polyamide and polyurethane elastomer type, or fibre of the polyaramide and polyurethane elastomer type.
- the substantially transverse yarns of said textile structure comprise synthetic fibre, for example of the polyester, polyamide or polyaramide type or a combination thereof.
- the fibrous layer preferably comprises synthetic fibre, for example of the polyester or polyamide or polyaramide type or a combination thereof.
- the interlacement is of the orthogonal type.
- the belt is conveniently configured as a closed loop and is used in an apparatus for shrinking a continuous textile substrate.
- the performance features as regards shrinkage of the treated textile substrates are greatly increased. Owing to the use of a belt according to the present invention in an apparatus according to EP04425854.9 , the productivity of this apparatus is increased. Consequently, the processing costs per unit of product are considerably lower than the processing costs of known apparatus.
- the degree of shrinkage/compaction of the textile substrate is increased.
- the degree of shrinkage/compaction of the textile substrate may also be varied in proportion to the specific shrinkage limit for the textile substrate in question.
- a belt comprises a textile support structure, an upper fibrous layer and a lower fibrous layer which enclose in sandwich form the textile support structure.
- a first embodiment of the belt according to the invention is described and in particular a length 110 of the belt 1 in the untensioned state is shown.
- Said length comprises substantially a textile structure 111 supporting an upper fibrous layer 112a and a lower fibrous layer 112b.
- the upper and lower fibrous layers have substantially the same thickness.
- said fibrous layers have different thicknesses.
- a single fibrous layer connected to the textile support structure is provided.
- the upper and lower fibrous layers are fixed to the textile support structure by means of needle-punching.
- the belt, the length 110 of which represents a portion thereof is substantially a textile product of the felt type.
- the structure 111 is formed by the interlacement of a plurality of adjacent longitudinal yarns 01, 02 .... On and a plurality of adjacent transverse yarns T1, T2, ... Tn.
- the longitudinal yarns consist, at least partially, of substantially extensible and elastic fibre.
- the transverse fibres instead preferably consist of substantially non-extensible fibre.
- the longitudinal yarns and transverse yarns have preferably a diameter of the order of tenths of a mm and typically have a diameter of about 0.5 mm.
- the adjacent transverse yarns T1, T2, ... Tn are spaced from each other by a predefined value X, so that the longitudinal dimension of said support structure is TnX (Fig. 1a).
- the adjacent longitudinal yarns 01, 02, ... On are spaced by a predefined value Y, so that the transverse dimension of said support structure is OnY (Fig. 1 b).
- the values X and Y are of the order of tenths of mm, and typically they range between about 0.5 mm and about 1.0 mm.
- the upper fibrous layer 112a and lower fibrous layer 112b have been shown for the sake of clarity as parallel and equidistant lines, they comprise a substantially unordered mass of fibres which are substantially not joined together by an interlacement.
- the fibrous layers are capable of adapting better to the dimensional variations of the textile structure 111 to which they are fixed.
- the transverse component of the structure 111 in response to this longitudinal extension, undergoes correspondingly a transverse contraction owing to the movement towards each other of the adjacent longitudinal yarns.
- the distance between two adjacent longitudinal yarns assumes a value less than Y, for example 0.75Y and, consequently, the transverse dimension of said support decreases, for example, to 0.750nY (Fig. 2b).
- the shortening of the transverse yarns does not occur as a result of the intrinsic properties of the yarn itself.
- the transverse yarns contract lengthwise and expand widthwise since they are deformed mechanically by the pulling action of the longitudinal yarns which move towards each other and become denser.
- the legth 110' of the belt 1 in the tensioned state is deformed, extending longitudinally and contracting transversely, when subjected to a tensile force which stresses the elasticity of the structure 111.
- the structure 111 devoid of the upper fibrous layer 112a and lower fibrous layer 112b, is impregnated with natural rubber, for example based on caoutchouc, or with a synthetic rubber, for example based on silicone.
- natural rubber for example based on caoutchouc
- synthetic rubber for example based on silicone.
- a substantially resilient and extensible mass 122 is formed and envelopes said structure 111.
- the structure 111 defines an upper layer 122a and a lower layer 122b of said resilient and extensible mass.
- the consequent elastic deformations of said structure situated in the internal or central part of the belt 1 are transmitted towards the periphery of the belt by the upper layer 122a and lower layer 122b of the resilient and extensible mass 122 until they reach the respective external surfaces 123a and 123b.
- the belt 1 is thus deformed from the untensioned state into the tensioned state, extending longitudinally and contracting transversely.
- Fig. 3 shows the effect of the tensile force applied to the belt 1, on its longitudinal extension, on the one hand, and on its transverse contraction, on the other hand. It is pointed out how the belt is able to reach and exceed an extension of about 100% if subjected to a tensile force of about 9-10 kg/cm and how the transverse contraction is equal to about 25%.
- the values for longitudinal extension of the belt compared to its normal untensioned state range between about 5% and about 100% and preferably between about 40% and about 60% and advantageously said value is about 45-50% with a tensile force of about 5-6 kg/cm.
- the transverse contraction values of the belt range between about 2% and about 25% and, preferably, between about 15% and about 20% with a tensile force of about 5-6 kg/cm.
- the textile structure 111 is formed by the interlacement of a plurality 01, 02, ... On of adjacent longitudinal yarns and a plurality T1, T2, ... Tn of adjacent transverse yarns.
- the interlacement may be of the orthogonal type.
- the longitudinal yarns are the warp yarns and the transverse yarns are the weft yarns.
- the interlacement may be of the knitted type and, in particular, of the warp-knitted type.
- the longitudinal (or warp) yarns consist, at least partially, of substantially extensible and elastic fibre, in particular synthetic fibre.
- Fibres suitable for this purpose are fibres of the polyurethane elastomer type.
- the transverse (or weft) yarns consist of substantially non-extensible fibres, in particular synthetic fibre.
- Fibres suitable for this purpose are fibres of the polyester, or polyamide or polyaramide type or a combination thereof.
- said longitudinal (or warp) yarns consist of a mixture of substantially extensible and elastic fibre and substantially non-extensible fibre and, in particular, of fibre of the polyurethane elastomer type and polyester or polyamide or polyaramide fibre.
- the weight ratio between said polyurethane fibre and said polyester or polyamide or polyaramide fibre ranges between 0.2 and 1.0.
- the upper fibrous layer 112a and lower fibrous layer 112b preferably consist of substantially non-extensible fibre, in particular synthetic fibre and preferably fibre of the polyester or polyamide or polyaramide type or a combination thereof.
- the thickness of said belt ranges between about 2.00 mm and about 30.0 mm. Preferably, said thickness ranges between about 4.0 mm and about 16.0 mm.
- said belt has a thickness of about 8.0 to 10.0 mm.
- the apparatus for shrinking a continuous textile substrate 6, advancing in a direction A-B comprises, in addition to the belt 1, a first motorized roller 4, a second motorized roller 2, an idle transmission and pre-tensioning roller 3 and a drum 5 for guiding the textile substrate.
- the belt 1, in the normal untensioned state (shown in Figure 4a), is wound at least partially around the first and the second motorized rollers 2, 4, the idle roller 3 (which is in the rest or inactive position) and around the guide drum 5.
- the belt 1 is tensioned by means of the tensioning idle roller 3.
- the belt 1 is thus subject to a longitudinal extension with respect to its original, normally untensioned state shown in Fig. 4a, namely is pre-tensioned.
- the longitudinal deformation of the belt 1 used in an apparatus for shrinking continuous textile substrates comprises essentially a first extension phase and a second contraction phase performed in immediate succession.
- these phases involving extension and contraction of the belt 1 in the pre-tensioned state by the tensioning means 4 are essentially determined by a difference in tangential speed of the motorized rollers 2 and 4 and, in particular, by the fact that the tangential speed of the motorized roller 2 is greater than that of the motorized roller 4.
- the tensile force is slackened off and the belt contracts elastically in a progressively decreasing manner until it recovers at least partially its original pre-tensioned state (substantially along the length where it is partially wound onto the second motorized roller 4).
- the belt 1 with respect to its original pre-tensioned state, accumulates an additional longitudinal tension and then releases this surplus tension by means of a reverse elastic contraction.
- a continuous textile substrate 6 is fed in contact with the external surface 113a or 123a of the upper layer 112a or 122a of the belt 1 substantially where it undergoes maximum elongation (around the second motorized roller 2).
- the textile substrate is closely arranged between the external surface of the drum 5 and the surface of the belt. Conveniently, the surface of the drum 5 is heated to a certain temperature.
- the second length 12 of the belt and the textile substrate 6 supported by the surface of the belt 1 are fed rotationally by the second motorized roller 2 around the drum 5 and pulled out from the drum by the first motorized roller 4.
- the textile substrate 6 is not firmly constrained to the belt 1. Therefore, while the belt 1 contracts until it recovers almost entirely its original pre-tensioned state (under static or dynamic conditions) and the textile substrate substantially follows the belt during this contraction, the textile substrate is able to slide lightly on the surface of the belt and on the side surface of the drum 5 in the opposite direction to the direction of contraction, namely in the same direction as the feeding direction.
- the tangential speed of the second motorized roller 2 is variable and adjustable with respect to that of the first motorized roller 4 so that the tensile force exerted on the length 11 may be correspondingly set to a predetermined value. Consequently, the additional longitudinal extension imparted to the belt, with respect to its original pre-tensioned state, may be predefined depending on the desired degree of shrinkage of the textile substrate and depending on the characteristics of the latter.
- the additional longitudinal extension values of the belt range between about 5% and about 50% and, preferably, between about 20% and about 40%.
- the first length 11 of the belt subjected to the tensile force which causes a longitudinal extension thereof, undergoes a gradual transverse contraction such that its side edges 114, 114' converge in the direction of feeding and the width of said belt section decreases with respect to that of its original pre-tensioned state.
- the next length 12 of the belt (Fig. 5b), following its longitudinal elastic contraction, expands gradually in the transverse direction, such that the side edges diverge in the feeding direction and the width of said length increases until it recovers at least partially the width of its original pre-tensioned state.
- the degree of shrinkage undergone by the textile substrate is essentially predetermined on the basis of the value of additional longitudinal extension imparted to the belt length 11 with respect to its original pre-tensioned state and depending on the pre-tensioning value imparted to the belt with respect to its normally untensioned state.
- the second belt length 12 (Fig. 5b), as a result of its transverse expansion, is able to exert on said textile substrate a complementary expanding action.
- the degree of said transverse expansion is substantially related to the degree of longitudinal shrinkage imparted and depends substantially on the value of additional longitudinal extension imparted to the belt length 11 with respect to its original pre-tensioned state.
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Woven Fabrics (AREA)
Abstract
Description
- The present invention relates to the textile sector and in particular relates to the sector of apparatus for compacting continuous textile substrates. Even more particularly it relates to a suitably deformable belt for use in an apparatus for shrinking a continuous textile substrate.
- Various apparatus for shrinking, or compacting, continuous textile substrates are known. Some of these apparatus use a belt for supporting and conveying textile substrates to be treated.
- In particular,
US 4,908,918 describes a belt in which a non-extensible textile structure supports a deformable component on which the textile substrate being treated is placed. -
US 2,021,975 describes a method and an apparatus for treating orthogonal weave fabrics, where a rubber belt is used. Compression of a length of the belt causes a small deformation in elongation of the said belt along this compressed length. The textile material to be shrunk is fed onto the surface of the belt along the length which has undergone the small deformation in elongation and is caused to shrink by the surface of the belt which, following compression, returns into the untensioned state. -
EP04425854.9 - The main object of the present invention is to provide a belt elastically deformable in elongation, typically formed as a closed loop, preferably for use in an apparatus according to the abovementioned application
EP04425854.9 - These and other objects are achieved by means of a belt according to
Claim 1. Further advantageous characteristics are described in the dependent claims. - According to the present invention a belt substantially longitudinally deformable elastically for use in an apparatus for treating a continuous textile substrate is provided, said belt comprising: a textile support structure and at least one additional layer fixed to said textile structure. The textile structure is formed by an interlacement of a plurality of substantially longitudinal adjacent yarns and a plurality of substantially transverse adjacent yarns, said substantially longitudinal yarns comprising substantially extensible and elastic fibre and said substantially transverse yarns comprising substantially non-extensible fibre.
- Preferably the at least one additional layer comprises a substantially resilient and extensible mass which envelopes said textile structure. Preferably, the mass comprises natural rubber and/or synthetic rubber.
- According to one embodiment, the at least one additional layer is a fibrous layer which comprises an upper fibrous layer and a lower fibrous layer.
- Preferably, the substantially longitudinal yarns of said textile structure comprise polyurethane elastomer.
- Preferably, the substantially longitudinal yarns of said textile structure comprise a mixture of substantially extensible and elastic fibre and substantially non-extensible fibre, for example a mixture of fibre of the polyurethane elastomer and polyester fibre type, or fibre of the polyamide and polyurethane elastomer type, or fibre of the polyaramide and polyurethane elastomer type.
- Preferably, the substantially transverse yarns of said textile structure comprise synthetic fibre, for example of the polyester, polyamide or polyaramide type or a combination thereof.
- The fibrous layer preferably comprises synthetic fibre, for example of the polyester or polyamide or polyaramide type or a combination thereof.
- According to a preferred embodiment, the interlacement is of the orthogonal type.
- During use, the belt is conveniently configured as a closed loop and is used in an apparatus for shrinking a continuous textile substrate.
- With use of the belt according to the present invention, the performance features as regards shrinkage of the treated textile substrates are greatly increased. Owing to the use of a belt according to the present invention in an apparatus according to
EP04425854.9 - Owing to the high extensibility and elasticity properties of the belt according to the present invention and the possibility of deforming it in elongation and contraction by a predetermined and adjustable amount by means of the application of a longitudinal tensile force, the degree of shrinkage/compaction of the textile substrate is increased. In addition, the degree of shrinkage/compaction of the textile substrate may also be varied in proportion to the specific shrinkage limit for the textile substrate in question.
- The present invention will become clear from the detailed description which follows, provided purely by way of a non-limiting example, with reference to the accompanying drawings in which:
- Fig. 1a shows a longitudinal section through a belt portion in the untensioned state;
- Figure 1 b shows a cross-section through a belt portion in the untensioned state;
- Figure 1c shows a longitudinal section through a belt portion according to an alternative embodiment, in the untensioned state;
- Figure 2a shows a longitudinal section through a belt portion in the tensioned state;
- Figure 2b shows a cross-section through a belt portion in the tensioned state;
Figure 2c shows a longitudinal section through a belt portion, according to an alternative embodiment, in the tensioned state; - Figure 3 is a diagram showing the relationship between the tensile force applied to the belt and its dimensional variations;
- Figure 4a shows an operating condition of the belt in the untensioned state;
- Figure 4b shows an operating condition of the belt in the tensioned or pre-tensioned state;
- Figures 5 shows an operating condition of the belt during use in an apparatus for shrinking continuous textile substrates;
- Figure 5a is a view, from below, along the line A-A shown in Figure 5; and
- Figures 5b is a view, from above, along the line A-A of Figure 5.
- According to an embodiment of the present invention, a belt comprises a textile support structure, an upper fibrous layer and a lower fibrous layer which enclose in sandwich form the textile support structure.
- With reference initially to Figures 1 a and 1 b, a first embodiment of the belt according to the invention is described and in particular a
length 110 of thebelt 1 in the untensioned state is shown. Said length comprises substantially atextile structure 111 supporting an upperfibrous layer 112a and a lowerfibrous layer 112b. Preferably, the upper and lower fibrous layers have substantially the same thickness. According to another embodiment (not shown), said fibrous layers have different thicknesses. According to yet another embodiment of the present invention (not shown) a single fibrous layer connected to the textile support structure is provided. Preferably, the upper and lower fibrous layers are fixed to the textile support structure by means of needle-punching. According to the embodiment described and illustrated, the belt, thelength 110 of which represents a portion thereof, is substantially a textile product of the felt type. - In particular, the
structure 111 is formed by the interlacement of a plurality of adjacentlongitudinal yarns - The adjacent transverse yarns T1, T2, ... Tn are spaced from each other by a predefined value X, so that the longitudinal dimension of said support structure is TnX (Fig. 1a). The adjacent
longitudinal yarns - Although the
upper fibrous layer 112a and lowerfibrous layer 112b have been shown for the sake of clarity as parallel and equidistant lines, they comprise a substantially unordered mass of fibres which are substantially not joined together by an interlacement. As a result of this solution, the fibrous layers are capable of adapting better to the dimensional variations of thetextile structure 111 to which they are fixed. - According to Figures 2a and 2b, in a legth 110' of said belt in the tensioned state the longitudinal component of the
structure 111, consisting of the plurality ofyarns - However, according to the present invention, in response to this longitudinal extension, the transverse component of the
structure 111, consisting of the plurality of yarns T1, T2, ... Tn, undergoes correspondingly a transverse contraction owing to the movement towards each other of the adjacent longitudinal yarns. The distance between two adjacent longitudinal yarns assumes a value less than Y, for example 0.75Y and, consequently, the transverse dimension of said support decreases, for example, to 0.750nY (Fig. 2b). - A person skilled in the art will understand that, with reference to Figure 2b, the shortening of the transverse yarns does not occur as a result of the intrinsic properties of the yarn itself. On the contrary, the transverse yarns contract lengthwise and expand widthwise since they are deformed mechanically by the pulling action of the longitudinal yarns which move towards each other and become denser. Basically, the legth 110' of the
belt 1 in the tensioned state is deformed, extending longitudinally and contracting transversely, when subjected to a tensile force which stresses the elasticity of thestructure 111. - These elastic deformations of the
structure 111 situated in the internal or central part of thebelt 1 are transmitted towards the periphery of the belt by theupper fibrous layer 112a and lowerfibrous layer 112b until they reach the respectiveexternal surfaces - An alternative embodiment of the belt according to the invention is described hereinbelow with reference to Figures 1c and 2c. According to this alternative embodiment, the
structure 111, devoid of theupper fibrous layer 112a and lowerfibrous layer 112b, is impregnated with natural rubber, for example based on caoutchouc, or with a synthetic rubber, for example based on silicone. In this way a substantially resilient andextensible mass 122 is formed and envelopes saidstructure 111. In turn, thestructure 111 defines anupper layer 122a and alower layer 122b of said resilient and extensible mass. - Owing to a tensile force which stresses the elasticity of the
structure 111, the consequent elastic deformations of said structure situated in the internal or central part of thebelt 1 are transmitted towards the periphery of the belt by theupper layer 122a andlower layer 122b of the resilient andextensible mass 122 until they reach the respectiveexternal surfaces belt 1 is thus deformed from the untensioned state into the tensioned state, extending longitudinally and contracting transversely. - Fig. 3 shows the effect of the tensile force applied to the
belt 1, on its longitudinal extension, on the one hand, and on its transverse contraction, on the other hand. It is pointed out how the belt is able to reach and exceed an extension of about 100% if subjected to a tensile force of about 9-10 kg/cm and how the transverse contraction is equal to about 25%. - Consequently, the values for longitudinal extension of the belt compared to its normal untensioned state, range between about 5% and about 100% and preferably between about 40% and about 60% and advantageously said value is about 45-50% with a tensile force of about 5-6 kg/cm.
- The transverse contraction values of the belt range between about 2% and about 25% and, preferably, between about 15% and about 20% with a tensile force of about 5-6 kg/cm.
- As mentioned, the
textile structure 111 is formed by the interlacement of aplurality - According to a preferred embodiment, the longitudinal (or warp) yarns consist, at least partially, of substantially extensible and elastic fibre, in particular synthetic fibre. Fibres suitable for this purpose are fibres of the polyurethane elastomer type. Preferably, the transverse (or weft) yarns consist of substantially non-extensible fibres, in particular synthetic fibre. Fibres suitable for this purpose are fibres of the polyester, or polyamide or polyaramide type or a combination thereof.
- Alternatively, said longitudinal (or warp) yarns consist of a mixture of substantially extensible and elastic fibre and substantially non-extensible fibre and, in particular, of fibre of the polyurethane elastomer type and polyester or polyamide or polyaramide fibre. Advantageously, the weight ratio between said polyurethane fibre and said polyester or polyamide or polyaramide fibre ranges between 0.2 and 1.0.
- The
upper fibrous layer 112a and lowerfibrous layer 112b preferably consist of substantially non-extensible fibre, in particular synthetic fibre and preferably fibre of the polyester or polyamide or polyaramide type or a combination thereof. - The thickness of said belt ranges between about 2.00 mm and about 30.0 mm. Preferably, said thickness ranges between about 4.0 mm and about 16.0 mm. Advantageously, said belt has a thickness of about 8.0 to 10.0 mm.
- With reference to Figures 4a, 4b, 5, 5a and 5b a detailed description is now provided with regard to the operating principle of the
belt 1 according to the present invention when used in an apparatus for shrinking continuous textile substrates such as, for example, orthogonal weave fabrics, knitted fabrics, non-woven fabrics, etc. - The apparatus for shrinking a
continuous textile substrate 6, advancing in a direction A-B, comprises, in addition to thebelt 1, a firstmotorized roller 4, a secondmotorized roller 2, an idle transmission andpre-tensioning roller 3 and adrum 5 for guiding the textile substrate. - The
belt 1, in the normal untensioned state (shown in Figure 4a), is wound at least partially around the first and the secondmotorized rollers guide drum 5. - In the operating condition shown in Fig. 4b, the
belt 1 is tensioned by means of the tensioningidle roller 3. Thebelt 1 is thus subject to a longitudinal extension with respect to its original, normally untensioned state shown in Fig. 4a, namely is pre-tensioned. - The longitudinal deformation of the
belt 1 used in an apparatus for shrinking continuous textile substrates, such as, for example, that described in the applicationEP04425854.9 - As described in the Application
EP04425854.9 belt 1 in the pre-tensioned state by the tensioning means 4 are essentially determined by a difference in tangential speed of themotorized rollers motorized roller 2 is greater than that of themotorized roller 4. - Consequently, the
belt 1, along afirst length 11 of its travel path from the firstmotorized roller 4 to theidle tensioning roller 3 and to the secondmotorized roller 2, is subject to a tensile force which causes a longitudinal extension thereof which progressively increases and is greater than the longitudinal extension of the belt in its original pre-tensioned state. - Along the
length section 12 of its travel path from the secondmotorized roller 2 to theguide drum 5 and to the firstmotorized roller 4, the tensile force is slackened off and the belt contracts elastically in a progressively decreasing manner until it recovers at least partially its original pre-tensioned state (substantially along the length where it is partially wound onto the second motorized roller 4). - In other words, the
belt 1, with respect to its original pre-tensioned state, accumulates an additional longitudinal tension and then releases this surplus tension by means of a reverse elastic contraction. - A
continuous textile substrate 6 is fed in contact with theexternal surface upper layer belt 1 substantially where it undergoes maximum elongation (around the second motorized roller 2). The textile substrate is closely arranged between the external surface of thedrum 5 and the surface of the belt. Conveniently, the surface of thedrum 5 is heated to a certain temperature. Thesecond length 12 of the belt and thetextile substrate 6 supported by the surface of thebelt 1 are fed rotationally by the secondmotorized roller 2 around thedrum 5 and pulled out from the drum by the firstmotorized roller 4. - The
textile substrate 6, which is initially received by the belt in a fully elongated state, is then transported on the surface of thelength 12 of the belt in a fully contracted and progressively untensioned state. - However, the
textile substrate 6 is not firmly constrained to thebelt 1. Therefore, while thebelt 1 contracts until it recovers almost entirely its original pre-tensioned state (under static or dynamic conditions) and the textile substrate substantially follows the belt during this contraction, the textile substrate is able to slide lightly on the surface of the belt and on the side surface of thedrum 5 in the opposite direction to the direction of contraction, namely in the same direction as the feeding direction. - The tangential speed of the second
motorized roller 2 is variable and adjustable with respect to that of the firstmotorized roller 4 so that the tensile force exerted on thelength 11 may be correspondingly set to a predetermined value. Consequently, the additional longitudinal extension imparted to the belt, with respect to its original pre-tensioned state, may be predefined depending on the desired degree of shrinkage of the textile substrate and depending on the characteristics of the latter. - In particular, the additional longitudinal extension values of the belt, with respect to its pre-tensioned state, range between about 5% and about 50% and, preferably, between about 20% and about 40%.
- With reference to Fig. 5a, the
first length 11 of the belt, subjected to the tensile force which causes a longitudinal extension thereof, undergoes a gradual transverse contraction such that its side edges 114, 114' converge in the direction of feeding and the width of said belt section decreases with respect to that of its original pre-tensioned state. - The
next length 12 of the belt (Fig. 5b), following its longitudinal elastic contraction, expands gradually in the transverse direction, such that the side edges diverge in the feeding direction and the width of said length increases until it recovers at least partially the width of its original pre-tensioned state. - The degree of shrinkage undergone by the textile substrate is essentially predetermined on the basis of the value of additional longitudinal extension imparted to the
belt length 11 with respect to its original pre-tensioned state and depending on the pre-tensioning value imparted to the belt with respect to its normally untensioned state. - Since the longitudinal shrinkage imparted to said textile substrate, in particular if it is of the knitted fabric, is normally accompanied and compensated by a transverse expansion in order to readjust and balance its overall dimensional structure, the second belt length 12 (Fig. 5b), as a result of its transverse expansion, is able to exert on said textile substrate a complementary expanding action.
- The degree of said transverse expansion is substantially related to the degree of longitudinal shrinkage imparted and depends substantially on the value of additional longitudinal extension imparted to the
belt length 11 with respect to its original pre-tensioned state.
Claims (19)
- Belt (1) which is substantially longitudinally deformable elastically for use in an apparatus for treating a continuous textile substrate, comprising: a textile support structure (111) and at least one additional layer (112a, 112b; 122a, 122b) fixed to said textile structure, said textile structure being formed by an interlacement of a plurality of substantially longitudinal adjacent yarns (O1 , 02, ... On) and a plurality of substantially transverse adjacent yarns (T1, T2, ... Tn), said substantially longitudinal yarns comprising substantially extensible and elastic fibre and said substantially transverse yarns comprising substantially non-extensible fibre.
- Belt (1) according to Claim 1, characterized in that said at least one additional layer comprises a substantially resilient and extensible mass (122) which envelopes said textile structure (111).
- Belt (1) according to Claim 1 or 2, characterized in that said substantially resilient and extensible mass (122) comprises an upper layer (122a) and a lower layer (122b).
- Belt (1) according to Claim 1, 2 or 3, characterized in that said substantially and extensible mass (122) comprises natural rubber and/or synthetic rubber.
- Belt (1) according to Claim 1, characterized in that said at least one additional layer is a fibrous layer (112a, 112b) which comprises an upper fibrous layer (112a) and a lower fibrous layer (112b).
- Belt (1) according to Claim 1, 2 or 3, characterized in that said at least one fibrous layer (112a, 112b) comprises an unordered agglomerate of substantially non-extensible fibres.
- Belt (1) according to any one of the preceding claims, characterized in that said textile support structure (111) undergoes an elastic deformation when subjected to a tensile force in the longitudinal direction.
- Belt (1) according to Claim 7, characterized in that said at least one additional layer (112a, 112b; 122a, 122b) follows said elastic deformation of said textile structure (111).
- Belt (1) according to Claim 7 or 8, characterized in that said elastic deformation comprises a deformation consisting of a longitudinal extension and a deformation consisting of a longitudinal contraction with respect to a pre-tensioned state.
- Belt (1) according to Claim 7, 8 or 9, characterized in that said elastic deformation comprises a deformation consisting of a transverse contraction and a deformation consisting of a transverse expansion with respect to a pre-tensioned state.
- Belt (1) according to any one of the preceding claims, characterized in that said substantially longitudinal yarns of said textile structure (111) comprise polyurethane elastomer.
- Belt (1) according to any one of the preceding claims, characterized in that said substantially longitudinal yarns of said textile structure comprise a mixture of substantially extensible and elastic fibre and substantially non-extensible fibre.
- Belt (1) according to Claim 12, characterized in that said substantially longitudinal yarns of said textile structure comprise a mixture of fibre of the polyurethane elastomer and polyester fibre type, or fibre of the polyamide and polyurethane elastomer type, or fibre of the polyaramide and polyurethane elastomer type.
- Belt (1) according to any one of the preceding claims, characterized in that said substantially transverse yarns of said textile structure comprise synthetic fibre, for example of the polyester, polyamide or polyaramide type or a combination thereof.
- Belt (1) according to any one of the preceding claims, characterized in that said at least one fibrous layer (112a, 112b) comprises a synthetic fibre, for example of the polyester or polyamide or polyaramide type or a combination thereof.
- Belt (1) according to any one of the preceding claims, characterized in that said interlacement is of the orthogonal type.
- Belt (1) according to any one of Claims 1-15, characterized in that said interlacement is of the knitted and preferably warp-knitted type.
- Belt (1) according to any one of the preceding claims, characterized in that it is configured as a closed loop.
- Belt (1) according to any one of the preceding claims, characterized in that said apparatus for treating a continuous textile substrate is an apparatus for shrinking a continuous textile substrate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP05425155A EP1703009A1 (en) | 2005-03-16 | 2005-03-16 | Elastically deformable belt for use in an apparatus for treating a continuous textile substrate |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP05425155A EP1703009A1 (en) | 2005-03-16 | 2005-03-16 | Elastically deformable belt for use in an apparatus for treating a continuous textile substrate |
Publications (1)
Publication Number | Publication Date |
---|---|
EP1703009A1 true EP1703009A1 (en) | 2006-09-20 |
Family
ID=34943101
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP05425155A Withdrawn EP1703009A1 (en) | 2005-03-16 | 2005-03-16 | Elastically deformable belt for use in an apparatus for treating a continuous textile substrate |
Country Status (1)
Country | Link |
---|---|
EP (1) | EP1703009A1 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007027909A3 (en) * | 2005-09-02 | 2007-06-07 | Albany Int Corp | A needled belt with high thickness and elasticity |
EP2312026A1 (en) * | 2008-08-08 | 2011-04-20 | Nitta Corporation | False twist belt |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2021975A (en) * | 1931-02-10 | 1935-11-26 | Cluett Peabody & Co Inc | Method of and means for treating woven and the like fabrics and yarns |
US4908918A (en) * | 1987-06-16 | 1990-03-20 | Santex Ag | Method and apparatus for compressive shrinkage of tubular fabric |
-
2005
- 2005-03-16 EP EP05425155A patent/EP1703009A1/en not_active Withdrawn
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2021975A (en) * | 1931-02-10 | 1935-11-26 | Cluett Peabody & Co Inc | Method of and means for treating woven and the like fabrics and yarns |
US4908918A (en) * | 1987-06-16 | 1990-03-20 | Santex Ag | Method and apparatus for compressive shrinkage of tubular fabric |
US4908918B1 (en) * | 1987-06-16 | 1999-09-14 | Santex Ag | Method and apparatus for compressive shrinkage of tubular fabric |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2007027909A3 (en) * | 2005-09-02 | 2007-06-07 | Albany Int Corp | A needled belt with high thickness and elasticity |
EP2312026A1 (en) * | 2008-08-08 | 2011-04-20 | Nitta Corporation | False twist belt |
EP2312026A4 (en) * | 2008-08-08 | 2011-08-10 | Nitta Corp | False twist belt |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
RU2360058C2 (en) | Press belt | |
US20060112526A1 (en) | Apparatus and method for shrinking continuous textile substrates | |
US8147654B2 (en) | Wet paper web transfer belt | |
RU2505630C2 (en) | Hyperelastic fabric | |
TWI572760B (en) | Ultra-resilient fabric and method of making thereof | |
US5948507A (en) | Absorbent articles with reduced cross-directional wrinkles | |
CN106395242B (en) | Heat-resistant laminated conveyor belt | |
EP2902344A1 (en) | Conveyor belt and drive belt comprising knitted belt, and conveyor device using conveyor belt | |
EP1703009A1 (en) | Elastically deformable belt for use in an apparatus for treating a continuous textile substrate | |
EP2128332A1 (en) | Wet paper carrier belt | |
AU2003304315B2 (en) | Weft-inserted elastic adhesive bandage and method | |
US7866069B2 (en) | Conveyor and suction band for industrial drying, ironing and folding machines and production method thereof | |
KR20150099589A (en) | Vacuum conveyor apparatus | |
US4106613A (en) | Conveyor belts | |
EP1956139A1 (en) | Paper machine clothing with auxetic fibers and/or yarns | |
JP2972978B2 (en) | Canvas core for wide belt and method of manufacturing same | |
JP2007137993A (en) | Heat-resistant transport belt and method for producing the same | |
KR20060009802A (en) | Press felt for papermaking and manufacturing method | |
MXPA01004237A (en) | Interwoven belt fabric. | |
KR100677786B1 (en) | A Stretch Recoverable Nonwoven Fabric and a Process for Making | |
US4086687A (en) | Apparatus for relaxing or loosening needled textile fabrics | |
JPH08258932A (en) | Pipe conveyor belt | |
JPH11504581A (en) | Abrasion resistant composite sheet | |
CN112095268A (en) | Device for compacting a continuous textile substrate by means of an elastic belt | |
HU183377B (en) | Heat shielding and/or solid carrying textile-rubber system of semi-lattice structure and method for producing same |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PUAI | Public reference made under article 153(3) epc to a published international application that has entered the european phase |
Free format text: ORIGINAL CODE: 0009012 |
|
AK | Designated contracting states |
Kind code of ref document: A1 Designated state(s): AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HU IE IS IT LI LT LU MC NL PL PT RO SE SI SK TR |
|
AX | Request for extension of the european patent |
Extension state: AL BA HR LV MK YU |
|
17P | Request for examination filed |
Effective date: 20070110 |
|
AKX | Designation fees paid |
Designated state(s): AT DE IT TR |
|
GRAC | Information related to communication of intention to grant a patent modified |
Free format text: ORIGINAL CODE: EPIDOSCIGR1 |
|
GRAP | Despatch of communication of intention to grant a patent |
Free format text: ORIGINAL CODE: EPIDOSNIGR1 |
|
STAA | Information on the status of an ep patent application or granted ep patent |
Free format text: STATUS: THE APPLICATION IS DEEMED TO BE WITHDRAWN |
|
18D | Application deemed to be withdrawn |
Effective date: 20080724 |