CERAMIC GUARD PLATE

Abstract

A ceramic guard plate, covered by a cladding layer, comprising plural first, second, and third ceramic plates lined up straightly. Each of the first ceramic plates comprises at least one symmetric pair of a first and a second sides, and each of the second and third ceramic plates comprises at least one symmetric pair of a first and a second lateral faces. The first and second sides and the first and second lateral faces are correspondingly staggered inclined planes. An adhesive is deformably adhered between the first side of the first ceramic plate and the second lateral face of the third ceramic plate and between the second side of the first ceramic plate and the first lateral face of the second ceramic plate. Accordingly, the ceramic plates can be bent relatively from each other and the protection function can be maintained at the same time.

Description

FIELD OF THE INVENTION

The present invention relates to a ceramic guard plate, and more particular to a bendable ceramic guard plate that can provide effective protection.

BACKGROUND OF THE INVENTION

Generally, a bulletproof cloth mainly comprises sequentially adhered cladding layer, ceramic plate, and barrier layer. The aforementioned cladding layer is a bulletproof fiber sheet, the ceramic plate is formed of plural butted ceramic plates, and the barrier layer is formed of plural adhered laminated bulletproof fiber sheets. When a bullet is shot into the bulletproof cloth, most of the penetration energy can be eliminated by the passivation, embedment, damage, and absorption of the ceramic plate, and the barrier layer can absorb the remaining energy of the bullet, so as to accomplish the bulletproof function.

However, for a conventional bulletproof cloth, a firm and unbendable flat plate or arc plate is formed after adhering each of the ceramic plates together, and accordingly, the bulletproof cloth can not fit to the body curves of different users, and thus the protection area can not be enlarged to provide better protection function. For the conventional bulletproof cloth, if the individual ceramic plate is bent forcefully, the seam between the adhered ceramic plates will be in a V-shape. When a bullet is shot in through the V-shaped seam between ceramic plates, the impact force of shot-in bullets mitigated by the seam is obviously smaller than by the ceramic plates, and therefore the seam provides no protection function.

SUMMARY OF THE INVENTION

Accordingly, in order to overcome the foregoing disadvantages, a structure different from the previous technology is provided by the inventors through years of experience, continuous development, research, and improvement.

An objective of the present invention is to provide a ceramic guard plate which can solve the unbendable problem of ceramic plates by adhering the adjacent sides of different ceramic plates with deformable adhesive and arranging the adjacent ceramic plates with their sides in a staggered fashion, so as to fit to the body curves of different users and to enlarge the protection area to provide better protection.

Another objective of the present invention is to provide a ceramic guard plate which can solve the problem of a protection dead zone formed at the seam between adjacent ceramic plates that a bullet may be shot through by arranging the adjacent ceramic plates with their sides in a staggered fashion, so as to provide protection function.

To reach the objective stated above, the present invention provides a ceramic guard plate, which is covered by a cladding layer. The ceramic guard plate comprises plural first ceramic plates, plural second ceramic plates, and plural third ceramic plates, in which the plural first ceramic plates are lined up in a straight line, and each of the first ceramic plates comprises at least one symmetric pair of a first side and a second side. Each of the first side and the second side is an inclined plane extending outwardly and downwardly from a top side of the first ceramic plate. The plural second ceramic plates and plural third ceramic plates are lined up separately in a straight line and adjacent to the two sides of the plural first ceramic plates. Each of the second and third ceramic plates comprises at least one symmetric pair of a first lateral face and a second lateral face, and each of the first lateral faces and the second lateral faces of the second and third ceramic plates is an inclined plane extending outwardly and upwardly from a bottom side of the second and third ceramic plates, respectively. And an adhesive is deformably adhered between the first side of the first ceramic plate and the second lateral face of the third ceramic plate and between the second side of the first ceramic plate and the first lateral face of the second ceramic plate.

In implementation, the ceramic guard plate further comprises a barrier layer, which is adhered to the bottom sides of the plural first ceramic plates, the plural second ceramic plates, and the plural third ceramic plates, and the barrier layer is formed by plural laminated bulletproof fiber layers.

In implementation, the first ceramic plates, the second ceramic plates and the third ceramic plates are tetragon plates or hexagon plates.

The present invention will be understood more fully by reference to the detailed description of the drawings and the preferred embodiments below.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic showing a top view of the first embodiment of the present invention.

FIG. 2 is a schematic showing a cross-sectional view along a-a′of FIG. 1.

FIGS. 3 and 4 are schematics showing the first embodiment of the present invention in a using state.

FIG. 5 is a schematic showing a cross-sectional view of the second embodiment of the present invention.

FIGS. 6 and 7 are schematics showing a perspective view of the ceramic plate of the third embodiment of the present invention.

FIG. 8 is a schematic showing a top view of the fourth embodiment of the present invention.

DETAILED DESCRIPTIONS OF PREFERRED EMBODIMENTS

The ceramic guard plate provided by the present invention is covered by a cladding layer. The ceramic guard plate comprises plural first ceramic plates, plural second ceramic plates, and plural third ceramic plates, in which the plural first ceramic plates are lined up in a straight line, and each of the first ceramic plates comprises at least one symmetric pair of a first side and a second side. Each of the first side and the second side is an inclined plane extending outwardly and downwardly from a top side of the first ceramic plate. The plural second ceramic plates and plural third ceramic plates are lined up separately in a straight line and adjacent to the two sides of the plural first ceramic plates. Each of the second and third ceramic plates comprises at least one symmetric pair of a first lateral face and a second lateral face, and each of the first side and the second lateral faces of the second and third ceramic plates is an inclined plane extending outwardly and upwardly from a bottom side of the second and third ceramic plates, respectively. And an adhesive is deformably adhered between the first side of the first ceramic plate and the second lateral face of the third ceramic plate and between the second side of the first ceramic plate and the first lateral face of the second ceramic plate.

As shown in FIGS. 1 and 2, the first embodiment of the ceramic guard plate 1 provided by the present invention is shown, which comprises plural first ceramic plates 2, plural second ceramic plates 3, plural third ceramic plates 4, and an adhesive 5, in which the first ceramic plates 2, the second ceramic plates 3, and the third ceramic plates 4 are tetragon plates.

The plural first ceramic plates 2 are lined up in a straight line. Each of the first ceramic plates 2 comprises at least one symmetric pair of a first side 21 and a second side 22. Each of the first side 21 and the second side 22 is an inclined plane extending outwardly and downwardly from a top side 23 of the first ceramic plate 2. The plural second ceramic plates 3 and plural third ceramic plates 4 are lined up separately in a straight line and adjacent to the two sides of the plural first ceramic plates 4. Each of the second ceramic plates 3 and third ceramic plates 4 comprises at least one symmetric pair of a first lateral faces (31, 41) and a second lateral faces (32, 42), and each of the first lateral faces (31, 41) and the second lateral faces (32, 42) of the second ceramic plates 3 and third ceramic plates 4 is an inclined plane extending outwardly and upwardly from a bottom sides (33, 43) of the second ceramic plates 3 and third ceramic plates 4, respectively. The adhesive 5 is a deformable adhesive such as silicone, and the adhesive 5 is adhered between the first side 21 of the first ceramic plate 2 and the second lateral face 42 of the third ceramic plate 4 and between the second side 22 of the first ceramic plate 2 and the first lateral face 31 of the second ceramic plate 3.

Accordingly, as shown in FIG. 3, for the deformability of the adhesive 5, the second ceramic plate 3 and the third ceramic plates 4 can bind closely to the first side 21 and the second side 22 of the first ceramic plate 2 when being bent downwards from the first ceramic plate 2, and a arc plane is formed to the to fit to the body curves of different uses. Moreover, as shown in FIG. 4, because large enough overlapping regions are provided when the second lateral face 42 of the third ceramic plate 4 and the first lateral face 31 of the second ceramic plate 3 are bent downwards from the first side 21 and the second side 22 of the first ceramic plate 2 respectively, and because the first side 21 and the second side 22 are designed to be inclined planes to mitigate the impact force of shot-in bullets, the effective protection can be maintained.

As shown in FIG. 5, the second embodiment of the ceramic guard plate 1 provided by the present invention is shown. The difference between the second and the first embodiments is that a barrier layer 9 is adhered to the bottom sides of the plural first ceramic plates 2, the plural second ceramic plates 3, and the plural third ceramic plates 4, and the barrier layer 9 is formed by plural laminated bulletproof fiber layers to enhance the protection effect.

As shown in FIGS. 6 and 7, the third embodiment of the ceramic guard plate 1 provided by the present invention is shown. The difference between the third and the first embodiments is that each of the first ceramic plates 2 comprises two sets of symmetric pair of first sides (21, 21′) and second sides (22, 22′). Each of the four sides of the tetragonal first ceramic plate 2 is an inclined plane extending outwardly and downwardly from the top side 23 of the first ceramic plate 2. Each of the second ceramic plates 3 and third ceramic plates 4 comprises two sets of symmetric pair of first lateral faces (31, 31′, 41, 41′) and second lateral faces (32, 32′, 42, 42′), and each of the four sides of the tetragonal second and third ceramic plates is an inclined plane extending outwardly and upwardly from a bottom sides (33, 43) of the second ceramic plates 3 and third ceramic plates 4, respectively. The adjacent first ceramic plates 2, second ceramic plates 3, and third ceramic plates 4 can be bent relatively based on this structure, so that the bending curvature can be varied much more widely.

Moreover, FIG. 8 shows the fourth embodiment of the ceramic guard plate 1 provided by the present invention, in which the first ceramic plates 6, the second ceramic plates 7, and the third ceramic plates 8 are hexagon plates. Each of the first ceramic plates 6 comprises two sets of symmetric pair of first sides (61, 61′) and second sides (62, 62′). Each of the second ceramic plates 7 and third ceramic plates 8 comprises two sets of symmetric pair of first lateral faces (71, 71′, 81, 81′) and second lateral faces (72, 72′, 82, 82′). The second ceramic plates 7 and third ceramic plates 8 can be bent downwardly from the first ceramic plates 6 as well to form an arc plane.

The present invention therefore has the following advantages:

1. The present invention arranges the adjacent ceramic plates with their sides in a staggered fashion, so that the adjacent ceramic plates can be bent relatively to form an arc or a curved plane, which can fit to the body curves of different uses and enlarge the body protection area.2. The present invention arranges the adjacent ceramic plates with their sides in a staggered fashion, so that large enough overlapping regions can still be provided when the adjacent ceramic plates are bent relatively, and by designing the first side and the second side to be inclined planes, the impact force of shot-in bullets can be mitigated, and thus the effective protection can be achieved.

To sum up, according the above disclosure, the present invention can indeed get its anticipated objectives to provide a ceramic guard plate which can be bent to form an arc or a curved plane to fit to the body curves of different users, and to prevent the shot in bullets penetrating through the seam between adjacent ceramic plates to accomplish the bulletproof function.

Claims

1. A ceramic guard plate, covered by a cladding layer, and the ceramic guard plate comprising: plural first ceramic plates lined up in a straight line, each of the first ceramic plates comprising at least one symmetric pair of a first side and a second side, and each of the first side and the second side being an inclined plane extending outwardly from a top side of the first ceramic plate;plural second ceramic plates and plural third ceramic plates lined up separately in a straight line and adjacent to the two sides of the plural first ceramic plates, each of the second and third ceramic plates comprising at least one symmetric pair of a first lateral face and a second lateral face, and each of the first lateral faces and the second lateral faces of the second and third ceramic plates being an inclined plane extending outwardly from a bottom side of the second and third ceramic plates, respectively; andan adhesive, deformably adhered between the first side of the first ceramic plate and the second lateral face of the third ceramic plate and between the second side of the first ceramic plate and the first lateral face of the second ceramic plate.

2. The ceramic guard plate according to claim 1, further comprising a barrier layer, wherein the barrier layer is adhered to the bottom sides of the plural first ceramic plates, the plural second ceramic plates, and the plural third ceramic plates, and the barrier layer is formed by plural laminated bulletproof fiber layers.

3. The ceramic guard plate according to claim 2, wherein the first ceramic plates, the second ceramic plates, and the third ceramic plates are tetragon plates.

4. The ceramic guard plate according to claim 2, wherein the first ceramic plates, the second ceramic plates, and the third ceramic plates are hexagon plates.

5. The ceramic guard plate according to claim 1, wherein the first ceramic plates, the second ceramic plates, and the third ceramic plates are tetragon plates.

6. The ceramic guard plate according to claim 1, wherein the first ceramic plates, the second ceramic plates, and the third ceramic plates are hexagon plates.