Sheet-shaped reinforcing fiber substrate and manufacturing method therefor

The invention claimed is: 1. A sheet-shaped reinforcing fiber substrate having a layered structure containing N layers, wherein the form of the sheet is maintained by reinforcing fiber bundles in odd-numbered layers and reinforcing fiber bundles in even-numbered layers being joined together selectively in a first portion of the intersection regions, wherein the sheet-shaped reinforcing fiber substrate is, maintained by the friction in a second portion between reinforcing fiber bundles in regions where they directly overlap each other, wherein N is an even number of 4 or more, which is produced by arranging a plurality of reinforcing fiber bundles with any length, including: a first layer in which mutually adjacent reinforcing fiber bundles are aligned parallel to each other in such a manner that the clearance between the mutually adjacent reinforcing fiber bundles is not smaller than the width of the reinforcing fiber bundles, a second layer which is disposed on top of the first layer and in which mutually adjacent reinforcing fiber bundles are aligned parallel to each other in such a manner that they are in a direction different from the length direction of the reinforcing fiber bundles in the first layer and that the clearance between the mutually adjacent reinforcing fiber bundles is not smaller than the width of the reinforcing fiber bundles, the (n-1)'th layer, wherein n is an even number not less than 4 and not more than N, which is disposed on top of the (n-2)'th layer and in which mutually adjacent reinforcing fiber bundles are aligned parallel to each other in such a manner that they are in the same direction as the length direction of the reinforcing fiber bundles in the (n-3)'th layer and do not overlap any of the reinforcing fiber bundles in the first and all other odd-numbered layers up to the (n-3)'th layer and that the clearance between the mutually adjacent reinforcing fiber bundles is not smaller than the width of the reinforcing fiber bundles, and the n'th layer which is disposed on top of the (n-1)'th layer and in which mutually adjacent reinforcing fiber bundles are aligned parallel to each other in such a manner that they are in the same direction as the length direction of the reinforcing fiber bundles in the (n-2)'th layer and do not overlap any of the reinforcing fiber bundles in the second and all other even-numbered layers up to the (n-2)'th layer and that the clearance between the mutually adjacent reinforcing fiber bundles is not smaller than the width of the reinforcing fiber bundles, wherein such layers are stacked repeatedly until n reaches N and mutually intersecting reinforcing fiber bundles are joined together in at least part of the intersection regions where reinforcing fiber bundles in the first layer directly overlap reinforcing fiber bundles in the N'th layer, and reinforcing fiber bundles are at least partially further joined together in each of the intersection regions (i) and (ii) below: intersection regions (i) where any reinforcing fiber bundle, among the plurality of all reinforcing fiber bundles belonging to the even-numbered layers, that is adjacent to any of the reinforcing fiber bundles in the even-numbered layers only on one side thereof, intersects any other reinforcing fiber bundle; and intersection regions (ii) where any reinforcing fiber bundle, among the plurality of all reinforcing fiber bundles belonging to the odd-numbered layers, that is adjacent to any of the reinforcing fiber bundles in the odd-numbered layers only on one side thereof, intersects any other reinforcing fiber bundle. 2. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein mutually intersecting reinforcing fiber bundles are joined together in all of the intersection regions (i) and (ii) below: intersection regions (i) where any reinforcing fiber bundle, among the plurality of all reinforcing fiber bundles belonging to the even-numbered layers, that is adjacent to any of the reinforcing fiber bundles in the even-numbered layers only on one side thereof, intersects any other reinforcing fiber bundle; and intersection regions (ii) where any reinforcing fiber bundle, among the plurality of all reinforcing fiber bundles belonging to the odd-numbered layers, that is adjacent to any of the reinforcing fiber bundles in the odd-numbered layers only on one side thereof, intersects any other reinforcing fiber bundle, and all of the intersection regions where reinforcing fiber bundles in the first layer directly overlap reinforcing fiber bundles in the N'th layer. 3. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein each reinforcing fiber bundle is designed to have a length in the length direction that allows the contour to be identical to a shape of an intended fiber reinforced plastic molded article. 4. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein the angle between the length direction of the reinforcing fiber bundles belonging to the odd-numbered layers and the length direction of the reinforcing fiber bundles belonging to the even-numbered layers is anywhere in the range of 45° to 90°. 5. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein the value of N is 4. 6. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein the reinforcing fiber bundles are joined together with a resin binder. 7. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein the reinforcing fiber bundles are joined together by stitching with an auxiliary thread. 8. A sheet-shaped reinforcing fiber substrate as set forth in claim 1 , wherein the reinforcing fiber bundles are of carbon fiber.