JP3132754U - Ceramic composite armor plate structure - Google Patents

Abstract

A ceramic composite armor plate structure capable of easily mounting an armor plate without any gap in a bulletproof area in a room such as a ship or a vehicle.
SOLUTION: At least two ceramic composite armor plates 11 and 12 formed by laminating high-strength fiber reinforced plastic members 112 and 122 on one side of ceramic tiles 111 and 121 are respectively connected to S-shaped jigs 13. The ceramic composite armor plate structure is configured such that the at least two ceramic composite armor plates are laminated through the end portions by being fitted and fixed in the upper space and the lower space.
[Selection] Figure 1

Description

  The present invention relates to a ceramic composite armor plate structure in which a composite armor plate made of a ceramic tile and a high-strength fiber reinforced member can be easily attached without causing a gap in a ship's wheelhouse, a vehicle engine room, an interior portion, and the like.

  In general, high-tensile steel plates are used as armor plates in ships and vehicles. This high-tensile steel plate is attached by fastening with bolts and rivets after welding or cutting the steel plate to an appropriate size after the hull and vehicle body are completed on site.

  However, in a ship, the finished dimensions often deviate from the design dimensions due to the distortion of the chassis and the accumulation of dimensional errors in the assembled parts. Therefore, even an armor plate manufactured in advance according to the drawing dimensions cannot be installed in the field, and the steel plate is again corrected and attached by fusing or laser cutting. At this time, the mechanical properties of the high-tensile steel plate are deteriorated by the heat of fusing. Moreover, delayed cracking may occur in high-tensile steel sheets due to hydrogen generated during fusing.

  In addition, as with the high-strength steel plate, the attachment of the composite armor plate made of the conventional ceramic tile and the high-strength fiber reinforced member has caused a great difficulty when it is attached collectively. In particular, when the composite armor plates are used as a laminated structure by overlapping the end portions, there is a problem in reliability in landing of the joint portion. For this purpose, there are cases where the joining end portions are overlapped and used, and there are a method of fixing the joining portion with a drilling bolt, and a method of subjecting each end portion to L-time cutting and fixing it repeatedly. However, a predetermined process must be performed on each armor plate before mounting any of the methods, resulting in a great difficulty.

  An object of the present invention is to provide a ceramic composite armor plate structure in which an armor plate can be easily attached to a bulletproof area in a room such as a ship or a vehicle without a gap.

In order to achieve the above object, the present invention
The end portions of at least two ceramic composite armor plates formed by laminating high-strength fiber reinforced plastic members on one side of the ceramic tile are fitted and fixed in the upper space and the lower space of the S-shaped jig, The present invention relates to a ceramic composite armor plate structure in which at least two ceramic composite armor plates are laminated via the end portions.

  According to the present invention, a high-strength fiber reinforced plastic member is laminated on one side of a ceramic tile to constitute an armor plate, and the end portions of the armor plates obtained in this way are formed with S-shaped jigs. I try to fix it. Specifically, one armor plate is fitted and fixed in the upper space of the S-shaped jig, and the other armor plate is fitted and fixed in the lower space of the S-shaped jig. . Therefore, by appropriately adjusting the material, size, thickness, and the like of the S-shaped jig, a structure formed by stacking the armor plates can be used against a bulletproof area in a room such as a ship or a vehicle. It can be easily attached without a gap.

  According to one aspect of the present invention, the end portions of the at least two ceramic composite armor plates are fixed to the upper space and the lower space of the S-shaped jig via an adhesive. can do. As a result, the ceramic composite armor plate can be more firmly attached to the S-shaped jig.

  Moreover, according to one aspect of the present invention, the end portions of the at least two ceramic composite armor plates can be continuously fixed with the S-shaped jig to form a large panel. Accordingly, even when the indoor bulletproof area of a ship or a vehicle is relatively large, it can be easily attached to the bulletproof area without a gap. In addition, the structure can be easily transported.

  As described above, according to the present invention, it is possible to provide a ceramic composite armor plate structure in which an armor plate can be easily attached to a bulletproof area in a room such as a ship or a vehicle without a gap.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 is a view showing an example of a ceramic composite armor plate structure of the present invention.

  As shown in FIG. 1, the ceramic composite armor plate structure 10 includes a first ceramic composite armor plate 11 and a second ceramic composite armor plate 12 that are connected to each other through an S-shaped jig 13. It is fixed and as a result has a structure that is laminated through the end.

  Specifically, the end portion of the first ceramic composite armor plate 11 is fitted and fixed in the lower space of the S-shaped jig 13, and the end portion of the second ceramic composite armor plate 12 is fixed. The structure of being inserted and fixed in the upper space of the S-shaped jig 13 is exhibited.

  At this time, the upper space and the lower space of the S-shaped jig 13 are made narrower than the end portions of the ceramic composite armor plates 11 and 12, and the end portions of the ceramic composite armor plates 11 and 12 are set to the upper space. And it can also be fixed by press-fitting into the lower space. On the other hand, instead of or in addition to the press-fitting as described above, an adhesive is applied to the end portions of the ceramic composite armor plates 11 and 12 and / or the upper space and the lower space of the S-shaped jig 13. Can be applied, and the ceramic composite armor plates 11 and 12 and the S-shaped jig 13 can be fixed via the adhesive.

  Thus, the composite armor plates are joined to each other via the S-shaped jig 13 to constitute the ceramic composite armor plate structure 10 as shown in FIG. By appropriately adjusting the material, size, thickness, and the like of the tool 13, it can be easily attached to a bulletproof area in a room such as a ship or a vehicle without a gap.

  The first ceramic composite armor plate 11 and the second ceramic composite armor plate 12 include ceramic tiles 111 and 121, and high-strength fiber reinforced plastic members 112 and 122 laminated on one side, respectively. In this way, each composite armor plate is formed by laminating the ceramic tile 11 and the high-strength fiber reinforced plastic member 12, and thus has sufficiently high mechanical strength comparable to that of the conventional high-tensile steel plate.

  Further, the ceramic tile 11 and the high-strength fiber reinforced plastic member 12 can be bonded using press-bonding or heat-resistant adhesive. Moreover, the ceramic tile 11 and the plastic member 12 can be appropriately selected from general-purpose materials depending on the application, and the thickness, dimensions, and the like can be appropriately set depending on the application.

  Moreover, in the example shown in FIG. 1, although it has shown about the case where the 1st ceramic composite armor board 11 and the 2nd ceramic composite armor board 12 are used, a some ceramic composite armor board is made into several S character type. The ends can be connected using a jig to form a large panel. Accordingly, even when the indoor bulletproof area of a ship or a vehicle is relatively large, it can be easily attached to the bulletproof area without a gap. In addition, the structure can be easily transported.

  As mentioned above, although this invention was demonstrated in detail based on the said specific example, this invention is not limited to the said specific example, All modifications and changes are possible unless it deviates from the category of this invention.

It is a figure which shows an example of the ceramic composite armor board structure of this invention.

Explanation of symbols

10 Ceramic composite armor plate structure 11 First ceramic composite armor plate 12 Second ceramic composite armor plate 111, 121 Ceramic tile 112, 122 High-strength fiber reinforced plastic

Claims (3)

  The end portions of at least two ceramic composite armor plates formed by laminating high-strength fiber reinforced plastic members on one side of the ceramic tile are fitted and fixed in the upper space and the lower space of the S-shaped jig, A ceramic composite armor plate structure, wherein at least two ceramic composite armor plates are laminated through the end portions.   The end portions of the at least two ceramic composite armor plates are fixed to the upper space and the lower space of the S-shaped jig via an adhesive. Ceramic composite armor plate structure.   The ceramic composite armor according to claim 1 or 2, wherein the end portions of the at least two ceramic composite armor plates are continuously fixed by the S-shaped jig to form a large panel. Plate structure.

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