Claims
- 1. A method of producing a multilayer filamentary structure comprising the steps of: laying at least three filamentary layers (36, 38) one on top of another and needle punching the assembly of layers in a manner such that the entire assembly is cross linked by filaments displaced from the filamentary layers and extending in a direction generally perpendicular to the faces of the layers without needling completely through the assembly of layers;
- in which the assembly is needle punched after the addition of a layer to one or more already laid layers and superimposing on the punching motion a relative movement between the assembly and the needles (in the same sense as the punching action), so that the bottom limit of the punching action is moved upwards relatively to the assembly during the formation of the assembly;
- in which the superimposed motion is achieved by lowering a support (40) on which the assembly is resting during the punching operation; and
- in which the support has a structure which permits needle penetration but the degree and density of the penetration is limited to ensure that the needled assembled filamentary layers can be separated from the support without damaging the shape and stability of the needled assembled layers.
- 2. A method of producing a multilayer filamentary structure comprising the steps of: laying at least three filamentary layers (36, 38) one on top of another and needle punching the assembly of layers in a manner such that the entire assembly is cross linked by filaments displaced from the filamentary layers and extending in a direction generally perpendicular to the faces of the layers without needling completely through the assembly of layers;
- wherein each of the filamentary layers is itself formed by subjecting a unidirectional layer of filaments (16) to a needle punching action to give a degree of dimensional stability to the layer adequate to allow severing and manipulation of the layer; cutting a plurality of segments (36, 38) from the layer and assembling at least two of the segments in side-by-side contiguous relationship to produce a filamentary layer of the required structural shape; and
- in which the support has a structure which permits needle penetration but the degree and density of the penetration is limited to ensure that the needled assembled filamentary layers can be separated from the support without damaging the shape and stability of the needled assembled layers.
- 3. Apparatus for producing a shaped filamentary structure comprising an open-topped receptacle to receive segments of filamentary material in a side-by-side arrangement; a support for the filamentary segment arrangement located inside the receptacle in a manner which permits translational motion of the support within the receptacle; a needling head including a reciprocable needle carrier; the needling head being located over part only of the receptacle; means for rotating the receptacle to bring a complete annulus of any filamentary segments in the receptacle under the needling head; whereby it is possible to needle punch all the filamentary material in the said complete annulus as the receptacle is rotated and the depth of penetration of the needles into the filamentary material can be varied by lowering the support during the needling operation.
- 4. Apparatus for producing a shaped filamentary structure as claimed in claim 3, in which the apparatus includes means for moving the needling head to a retracted location where it is not vertically aligned with the receptacle.
- 5. Apparatus for producing a shaped filamentary structure as claimed in claim 3 or claim 4, in which the means for rotating the receptacle and for moving the support translationally comprise two separate motors, each having its own gearing.
- 6. Apparatus for producing a shaped filamentary structure as claimed in claim 3 or claim 4 in which the receptacle is carried by a hollow spindle rotatable about an upwardly extending axis, there being a rotatable screw also having an upwardly extending axis inside the hollow spindle, a nut engaging on the screw being mounted in the hollow spindle for sliding motion, but restrained against rotary motion, so that rotation of the screw causes axial motion of the nut; there being driving columns connected to the support, having rotary driving connection with the receptacle for rotating the support with the receptacle, and a connection with the nut for transmitting axial motion of the nut to the columns without applying rotary motion from the columns to the nut.
- 7. A method of assembling a plurality of tows each comprising a multiplicity of filaments to form a filamentary sheet, in which the tows are drawn out from packages; subjected to tension applied to all the filaments and wound on to a take-up roller, in which the filaments of each tow are stretched over a banana shaped spreader, so that it is possible to constrain the filaments to spread or compress laterally by the orientation of the spreader relatively to the path of the filaments engaging with it, adjacent spreaders being offset from each other in the direction of travel of the filaments to permit lateral overlap of adjacent spreaders.
Priority Claims (1)
Number |
Date |
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Kind |
8602003 |
Jan 1986 |
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Parent Case Info
This application is a continuation application of U.S. Ser. No. 573,552 filed Aug. 24, 1990 now U.S. Pat. No. 5,113,568, which is a divisional of U.S. Ser. No. 006,899 filed Jan. 27, 1987 now U.S. Pat. No. 4,955,123.
US Referenced Citations (2)
Divisions (1)
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Number |
Date |
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Parent |
6899 |
Jan 1987 |
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Continuations (1)
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Number |
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573552 |
Aug 1990 |
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