CLOTHING FOR A MACHINE FOR PRODUCING FIBER-CEMENT COMPONENTS AND PRODUCTION METHOD FOR A CLOTHING OF THIS TYPE

Abstract

A clothing for a machine for producing fiber cement components includes a basic fabric having MD yarns and CD yarns. At least some of the MD yarns are formed from first multifilaments of a first material and second multifilaments twisted therewith of a second material. The first material has a higher tensile strength and a higher melting temperature than the second material. The MD yarns are heat-treated at a temperature between the melting temperature of the second material and the melting temperature of the first material, so that the at least partially melted second material forms a matrix after cooling, in which the first multifilaments of the first material are embedded. A method for producing the clothing is also provided.

Claims

1-13. (canceled)

14. A clothing for a machine for producing fiber cement components, the clothing comprising: a base fabric including MD yarns and CD yarns, at least some of said MD yarns being formed from first multifilaments composed of a first material and second multifilaments composed of a second material, said first and second multifilaments being twisted together, said first material having a higher tensile strength and a higher melting temperature than said second material; said second material being at least partially melted, by heat-treatment of said MD yarns at a temperature between a melting temperature of said second material and a melting temperature of said first material and cooling, to form a matrix, and said first multifilaments formed of said first material being embedded in said matrix; and a further fabric disposed on a side of said base fabric facing the fiber cement components to be produced, said further fabric including at least one of: CD yarns having a smaller diameter than said CD yarns of said base fabric, or MD yarns having a smaller diameter than said MD yarns of said base fabric.

15. The clothing according to claim 14, wherein said first multifilaments and said second multifilaments of said MD yarns are pre-twisted with one another in a first direction of rotation as a first stage, and a plurality of said pre-twisted yarns are twisted with one another in a second direction of rotation opposite to said first direction of rotation as a second stage.

16. The clothing according to claim 15, wherein at least one of said first stage having not more than 236.22 revolutions per meter or said second stage having not more than 118.11 revolutions per meter.

17. The clothing according to claim 15, wherein at least one of said first stage having not more than 196.85 revolutions per meter or said second stage having not more than 98.43 revolutions per meter.

18. The clothing according to claim 15, wherein at least one of said first stage having not more than 157.48 revolutions per meter or said second stage having not more than 78.74 revolutions per meter.

19. The clothing according to claim 14, wherein at least one of said first multifilaments or said second multifilaments have threads with a fineness of not more than 2400 tex.

20. The clothing according to claim 14, wherein at least one of said first multifilaments or said second multifilaments have threads with a fineness of not more than 2300 tex.

21. The clothing according to claim 14, wherein at least one of said first multifilaments or said second multifilaments have threads with a fineness of not more than 2200 tex.

22. The clothing according to claim 14, wherein said first material is polyamide and said second material is polypropylene.

23. The clothing according to claim 14, wherein said MD yarns formed from said first and second multifilaments have a proportion of 10% by weight to 30% by weight of said first material.

24. The clothing according to claim 14, wherein said MD yarns formed from said first and second multifilaments have a proportion of 15% by weight to 25% by weight of said first material.

25. The clothing according to claim 14, wherein said CD yarns are monofilaments interwoven with said MD yarns in said base fabric.

26. The clothing according to claim 14, wherein said base fabric is a double-ply fabric including two systems of said MD yarns and one system of said CD yarns.

27. (canceled)

28. A clothing for a machine for producing fiber cement components, the clothing comprising: a base fabric including MD yarns and CD yarns, at least some of said MD yarns being formed from first multifilaments composed of a first material and second multifilaments composed of a second material, said first and second multifilaments being twisted together, said first material having a higher tensile strength and a higher melting temperature than said second material; said second material being at least partially melted, by heat-treatment of said MD yarns at a temperature between a melting temperature of said second material and a melting temperature of said first material and cooling, to form a matrix, and said first multifilaments formed of said first material being embedded in said matrix; two outer sides of the clothing; and a layer of staple fibers disposed on one or both of said outer sides of the clothing.

29. A method for producing a clothing, including a base fabric having MD yarns and CD yarns, to be used in a machine for producing fiber cement components, the method comprising: pre-twisting first multifilaments composed of a first material and second multifilaments composed of a second material to form at least some of the MD yarns, the first material having a higher tensile strength and a higher melting temperature than the second material; heat-treating the MD yarns at a temperature between a melting temperature of the second material and a melting temperature of the first material to form a matrix from the at least partially melted second material and to embed the first multifilaments composed of the first material in the matrix after cooling; and applying a further fabric on a side of the base fabric facing the fiber cement components to be produced, the further fabric including at least one of: CD yarns haying a smaller diameter than the CD yarns of the base fabric, or MD yarns haying a smaller diameter than the MD yarns of the base fabric.

30. The method according to claim 29, which further comprises, prior to the heat treatment, interweaving the MD yarns with the CD yarns to create the base fabric.

31. The method according to claim 29, which further comprises carrying out the twisting by: pre-twisting the first multifilaments with the second multifilaments in a first direction of rotation; and finally twisting a plurality of the pre-twisted yarns in a second direction of rotation opposite to the first direction of rotation.

32. A method for producing a clothing, including two outer sides and a base fabric having MD yarns and CD yarns, to be used in a machine for producing fiber cement components, the method comprising: pre-twisting first multifilaments composed of a first material and second multifilaments composed of a second material to form at least some of the MD yarns, the first material having a higher tensile strength and a higher melting temperature than the second material; heat-treating the MD yarns at a temperature between a melting temperature of the second material and a melting temperature of the first material to form a matrix from the at least partially melted second material and to embed the first multifilaments composed of the first material in the matrix after cooling; and applying a layer of staple fibers on one or both of the outer sides of the clothing.

Description

[0021] The invention will be explained in more detail below with reference to schematic drawings which are not true to scale, in which:

[0022] FIG. 1 shows a cross-sectional view through a portion of the clothing according to the invention prior to the heat treatment step;

[0023] FIG. 2 shows an enlarged portion of a pre-twisted yarn comprising first and second multifilaments; and

[0024] FIG. 3 shows a cross-sectional view like in FIG. 1, but after the heat treatment step.

[0025] FIG. 1 shows a schematic cross-sectional view through a portion of the clothing 10 according to the invention for a machine for producing fiber cement components prior to the heat treatment step. A base fabric 12, which is formed from interwoven MD yarns 14 and CD yarns 16, is an essential part of the clothing 10. MD yarns 14 are in this case understood to mean yarns which extend substantially in the machine direction of the clothing 10, that is to say in the running direction of the clothing 10 during intended use. By contrast, CD yarns 16 are understood to mean yarns which extend substantially in the cross-machine direction of the clothing 10, that is to say transverse to the running direction of the clothing 10 during intended use. The base fabric 12 can be woven either in a round or flat manner. In the latter case, longitudinal ends of the base fabric 12 are connected to one another in a seam region in order to make the base fabric 12 continuous. In this case, on the loom, the MD yarns 14 correspond to the warp threads and the CD yarns 16 correspond to the weft threads.

[0026] As can be readily seen in FIG. 1, the MD yarns 14 are composed in each case of a plurality of pre-twisted yarns 14.1. In the present exemplary embodiment, there are shown in each case six pre-twisted yarns 14.1 per MD yarn 14. However, the MD yarns 14 can also comprise a different number of pre-twisted yarns 14.1, in particular fewer pre-twisted yarns 14.1, such as, for example, five or even only four pre-twisted yarns 14.1. As is indicated in FIG. 2, each pre-twisted yarn 14.1 is composed of bundles of first multifilaments and second multifilaments, which are twisted with one another in order to form the pre-twisted yarn 14.1. Preferably, the individual bundles themselves have also already been twisted in order to be able to handle them more easily during the manufacturing operation. However, there should also preferably be a low twist rate here. The material of the first multifilaments differs from the material of the second multifilaments in particular in that said material of the first multifilaments has a higher tensile strength and a higher melting temperature. In the present exemplary embodiment, the first material is polyamide (PA) and the second material is polypropylene (PP).

[0027] Initially, the first multifilaments and the second multifilaments are twisted with one another in a first direction of rotation in order to form the pre-twisted yarns 14.1. Preferably, this step is performed with a relatively low twist rate of not more than 236.22 revolutions per meter (=6.0 tpi). The pre-twisted yarns 14.1 thus formed are then subjected to final twisting with one another in a second direction of rotation opposite to the first direction of rotation in order to form the MD yarn 14. Preferably, compared with the first step, this step is performed with an even lower twist rate of not more than 118.11 revolutions per meter (=3.0 tpi). The low twist rates prevent excessive stretching of the MD yarns 14 when said yarns are subjected to tensile loading. Although the twisting increases the tear resistance of the MD yarns, which is why the twist rate should not be zero, an excessive twist rate has a negative effect with respect to the stretch behavior of the MD yarn.

[0028] In one specific exemplary embodiment, the MD yarns 14 of the base fabric 12 may be, or may have been, produced by twisting four bundles of second multifilaments having 630 individual fibers composed of polyamide (PA) and one bundle of first multifilaments having 600 individual fibers composed of polypropylene (PP) with one another in a first direction of rotation with a twist rate of 196.85 revolutions per meter (=5.0 tpi) to give a pre-twisted yarn 14.1, and then twisting five such pre-twisted yarns 14.1 with one another in a second direction of rotation opposite to the first direction of rotation with a twist rate of 98.43 revolutions per meter (=2.5 tpi). In this exemplary embodiment, all of the individual threads of the first and second multifilaments can have a fineness of 1991 tex.

[0029] In another specific exemplary embodiment, as an alternative, the MD yarns 14 of the base fabric 12 may be, or may have been, produced by twisting three bundles of second multifilaments having 1260 individual fibers composed of polyamide (PA) and one bundle of first multifilaments having 600 individual fibers composed of polypropylene (PP) with one another in a first direction of rotation with a twist rate of 128.74 revolutions per meter (=3.27 tpi) to give a pre-twisted yarn 14.1, and then twisting four such pre-twisted yarns 14.1 with one another in a second direction of rotation opposite to the first direction of rotation with a twist rate of 70.87 revolutions per meter (=1.8 tpi). In this exemplary embodiment, all of the individual threads of the first and second multifilaments can have a fineness of 2103 tex.

[0030] In yet another specific exemplary embodiment, as an alternative, the MD yarns 14 of the base fabric 12 may be, or may have been, produced by twisting two bundles of second multifilaments having 1890 individual fibers composed of polyamide (PA) and one bundle of first multifilaments having 846 individual fibers composed of polypropylene (PP) with one another in a first direction of rotation with a twist rate of 149.61 revolutions per meter (=3.8 tpi) to give a pre-twisted yarn 14.1, and then twisting four such pre-twisted yarns 14.1 with one another in a second direction of rotation opposite to the first direction of rotation with a twist rate of 90.55 revolutions per meter (=2.3 tpi). In this exemplary embodiment, all of the individual threads of the first and second multifilaments can have a fineness of 2167 tex.

[0031] In FIG. 1, the base fabric 12 is illustrated as a single-ply fabric but it can also be a double-ply fabric. With regard to dewatering, experiments have proven it to be particularly advantageous if the base fabric 12 is a double-ply fabric having a two system of MD yarns 13 and one system of CD yarns 16.

[0032] As can furthermore be seen in FIG. 1, the clothing 10 can also comprise a further fabric 18. This fabric is also composed of MD yarns 20 and CD yarns 22 which are interwoven, preferably using plain weave. However, the MD yarns 20 and the CD yarns 22 of the further fabric have a markedly smaller diameter than the MD yarns 14 and CD yarns 16 of the base fabric. The main function of the further fabric 18 is to support the fiber cement components being formed thereon over as large an area as possible and to ensure very uniform dewatering. An upper layer of staple fibers 24 can also be arranged on that outer side of the clothing 10 which faces the fiber cement components to be formed (at the top in FIG. 1). Likewise, a lower layer of staple fibers 26 can be arranged on that outer side of the clothing 10 which faces away from the fiber cement components to be formed (at the bottom in FIG. 1). The two layers of staple fibers 24, 26 can be connected to the base fabric 12 and/or to the further fabric 18 by needling, for example. Said staple fiber layers are used to assist the dewatering during the production process of the fiber cement components.

[0033] FIG. 3 shows the same schematic cross-sectional view as FIG. 1 but with the difference that, in this view, the MD yarns 14 of the base fabric 12 have already been heat-treated. In this case, the heat treatment was carried out at a temperature which lies above the melting temperature of the second material of the second multifilaments, that is to say above the melting temperature of polypropylene (PP), but below the melting temperature of the first material of the first multifilaments, that is to say above the melting temperature of polyamide (PA). The heat treatment may have been carried out for example at a temperature of 190° C. This has the result that the second material at least partially melts and then, upon solidification, forms a matrix in which the first multifilaments composed of the first material, which has not melted, are embedded. A composite material is thus obtained which permits only relatively low levels of stretching in spite of the use of relatively inexpensive starting materials. In this connection, the phrase “form a matrix” should be understood in the broad sense. It may of course be that the first multifilaments are completely enclosed by the melted second material. However, this is not absolutely necessary; it is generally sufficient for the second material to become so soft in the heat treatment step that it acts as an adhesive in order to at least partially connect the first multifilaments to one another.

LIST OF REFERENCE DESIGNATIONS

[0034] 10 Clothing [0035] 12 Base fabric [0036] 14 MD yarn (of the base fabric) [0037] 14.1 Pre-twisted yarn [0038] 16 CD yarn (of the base fabric) [0039] 18 Further fabric [0040] 20 MD yarn (of the further fabric) [0041] 22 CD yarn (of the further fabric) [0042] 24 Upper layer of staple fibers [0043] 26 Lower layer of staple fibers