CN201076034Y - Glove using compound sting prevention fabric - Google Patents

Abstract

The utility model discloses a glove which is made from compound stab-resistant fabric, wherein a single layer glove fabric (2) is bonded with coating points (1), the size of a horizontal plane of the coating points (1), which is the distance between random two points is 2-20mm, the thickness is 0.1-2.0 mm, and the gap between the coating points (1) is 0.1-1.0 mm. The glove of the utility model has soft texture, the wear of each finger is flexible, the glove is capable of being suitable for the working environment of fine stickers, the external raised coating points (1) increase the frictional force, when catching, taking and holding fine articles, hands are not thrust by a peak, thereby playing a role of protecting.

Description

Gloves made of composite stab-resistant fabric

technical field

The utility model relates to a soft, light and ultra-thin glove bonded with particle-reinforced composite materials.

Background technique

With the development of society and the continuous improvement of people's living standards, there are more and more types of personal protective equipment. As one of them, stab-resistant clothing and cut-resistant clothing can play a role in protecting personal safety and property safety. For example, the "cut-resistant clothing" introduced in the authorized announcement number CN2606531Y mainly includes a fabric layer, an adhesive layer, a cut-resistant layer, and a lining layer, and the cut-resistant layer uses one or more filaments or blends of ultra-high-strength fibers. Woven. This kind of "cut-resistant clothing" has defects such as many layers and poor air permeability.

There are two main types of anti-stab products on the market: hard and soft. Rigid anti-stab products use rigid materials such as metal wire, metal mesh, metal plate, composite material plate, and ceramic sheet to realize the protective function. Directional anti-stab performance and other disadvantages; lightweight anti-stab products mainly use high-strength and high-modulus aramid fibers and ultra-high molecular weight polyethylene fibers, and fabrics, non-woven fabrics or coated fabrics are composited into fabric layers to play a role in anti-stab. The effect of knife cutting and anti-wear, but its cost is high, and because the thickness of the protective fabric layer is relatively large, generally 12-30mm, it is uncomfortable to wear, poor in concealment, and inconvenient to clean. In addition, this kind of protective equipment can only prevent blades and sharp Cuts at edges and corners, but cannot effectively prevent needle sticks such as sewing needles and pins.

Contents of the invention

The purpose of the utility model is to provide a glove made of a composite anti-stab fabric. The glove is a single-layer glove fabric with coating points of different configuration patterns bonded thereto. The gloves are soft, light, and ultra-thin (0.4-3.5mm), which solves the existing problems in the existing protective equipment, such as non-anti-acupuncture, multi-layer structure, hard texture, uncomfortable wearing, and discomfort. matter of convenience.

A glove made of composite anti-stab fabric of the present utility model is that coating points are bonded on the single-layer glove fabric. 0.1~2.0mm; the gap between the coating point and the coating point is 0.1~1.0mm.

The glove of the utility model has: (1) The coating point 1 structure with higher hardness not only makes the single-layer glove fabric 2 have a very good anti-knife cut and anti-acupuncture ability, but also ensures that the single-layer glove fabric 2 has better Flexible and certain air permeability; (2) The gap between the protective coating points is very small, which has reached the function that the current soft stab-proof clothing is difficult to have; (3) The protective coating points can be made into various patterns, with certain The decorative effect, combined with cloth of different colors and materials, the gloves made are beautiful and generous.

Description of drawings

Fig. 1 is the expanded view that the utility model has the glove of circular coating point.

Figure 2 is a diagram of a structure with elliptical coating spots.

Figure 3 is a diagram of a structure with square coating spots.

Figure 4 is a diagram of a structure with rectangular coating spots.

Figure 5 is a diagram of a structure with triangular coating points.

Figure 6 is a diagram of a structure with diamond-shaped coating points.

Figure 7 is a diagram of a structure with polygonal coating points.

Figure 8 is a diagram of a structure with a barrel-shaped coating point.

Fig. 9 is a structural diagram with rectangular coating points arranged in a staggered manner.

Figure 10 is a structural diagram with a combination of square and rectangular coating points.

Fig. 11 is a structure diagram with staggered arrangement of triangular coating points.

Figure 12 is a structural diagram with a combination of square and pentagonal coating points.

Fig. 13 is a structure diagram with polygonal coating points staggered.

In the figure: 1. Coating point 1-1.A coating point 1-2.B coating point 1-3.C coating point 2. Single-layer glove fabric 3. Oval coating point 4. Square coating Point 5. Rectangular coating point 6. Triangular coating point 6-1. Inverted triangular coating point 7. Rhombus coating point 8. Polygonal coating point 9. Barrel coating point 10. Pentagonal coating point

Detailed ways

The utility model will be described in further detail below in conjunction with the accompanying drawings.

The utility model is a soft, light and ultra-thin glove bonded with particle-reinforced composite materials, as shown in Fig. 1, a coating point 1 is bonded on a single-layer glove fabric 2, so The horizontal dimension of coating point 1 is that the distance between any two points is 2-20 mm, and the thickness is 0.1-2.0 mm; the gap between coating points is 0.1-1.0 mm (that is, A coating point 1- The gap between 1 and B coating point 1-2 is 0.1~1.0mm, the gap between B coating point 1-2 and C coating point 1-3 is 0.1~1.0mm). The single-layer glove fabric 2 can be one or two or more fabrics (which can be woven or woven) of chemical fiber, wool, cotton, linen and silk, or can be selected from existing Conventional production of cold-proof clothing fabrics; or use spandex cloth, polyester cloth, burlap, blended cloth, etc.

In the present utility model, the coating point 1 material is a mixed protective material composed of reinforcing particles and a binder, and the amount of the reinforcing particles is 40 to 300 parts by weight in 100 parts by weight of the binder;

The reinforcing particles are one or a combination of two or three of corundum, quartz sand, aluminum oxide, silicon carbide, titanium carbide, silicon nitride, tungsten carbide and titanium nitride with a particle size of 10-200 μm;

The binder is one or a combination of two or three of polyurethane, polyacrylic resin, epoxy resin, phenolic resin, unsaturated resin and vinyl resin.

In the present utility model, the shape of coating point 1 (namely A coating point 1-1, B coating point 1-2, C coating point 1-3) is circle, ellipse, square, rectangle, triangle , rhombus, pentagon or polygon; or a combination of two or more of circle, ellipse, square, rectangle, triangle, rhombus, pentagon and polygon. The multiple coating points 1 can be arranged and combined in matrix, dislocation, multi-shape, multi-size, multi-shape and multi-size to form different configurations. Please refer to Figures 2 to 13 for different figures of the configurations listed above.

Referring to Figure 2, a composite stab-resistant fabric with oval coating points 3, in the figure, oval coating points 3 are evenly distributed on the front of the fabric 2, and the gap between every two oval coating points 3 is 0.1 ~1mm.

Referring to Figure 3, the composite anti-stab fabric with square coating points 4, in the figure, the square coating points 4 are evenly distributed on the front of the fabric 2, and the gap between every two square coating points 4 is 0.1-1 mm. Referring to Figure 12, a composite anti-stab fabric with a combination of square coating points 4 and pentagonal coating points 10, in the figure, eight pentagonal coating points 10 are bonded around a square coating point 4 .

Referring to Figure 4, the composite anti-stab fabric with rectangular coating points 5, in the figure, the rectangular coating points 5 are evenly distributed on the front of the fabric 2, and the gap between every two rectangular coating points 5 is 0.1-1mm. Referring to Figure 9, the composite anti-stab fabric with rectangular coating points 5 arranged in a staggered manner, in the figure, the rectangular coating points 5 are misplaced and arranged on the front of the fabric 2, and the gap between every two rectangular coating points 5 is 0.1～ 1mm. Referring to Figure 10, a composite stab-resistant fabric with a combination of rectangular coating points 5 and square coating points 4, in the figure, rectangular coating points 5 and square coating points 4 are arranged alternately on the front of the fabric 2, through the rectangular The layout transformation of the coating point 5 and the square coating point 4 can construct a variety of composite anti-stab fabrics with different configuration diagrams.

Referring to Figure 5, the composite anti-stab fabric with triangular coating points 6, in the figure, the triangular coating points 6 are evenly distributed on the front of the fabric 2, and the gap between every two triangular coating points 6 is 0.1-1mm. Referring to Figure 11, a composite stab-resistant fabric with a combination of triangular coating points 6 and inverted triangular coating points 6-1, in the figure, triangular coating points 6 and inverted triangular coating points 6-1 are arranged alternately on fabric 2 On the front side, through the layout transformation of the triangle coating point 6 and the inverted triangle coating point 6-1, the composite stab-resistant fabric of multiple different configurations can be constructed, such as the diagonal configuration (the sharp corners of the four triangles relatively placed).

Referring to Figure 6, the composite anti-stab fabric with diamond-shaped coating points 7, in the figure, the diamond-shaped coating points 7 are evenly distributed on the front of the fabric 2, and the gap between every two diamond-shaped coating points 7 is 0.1-1 mm.

Referring to Figure 7, the composite anti-stab fabric with polygonal coating points 8, in the figure, the polygonal coating points 8 are evenly distributed on the front of the fabric 2, and the gap between every two polygonal coating points 8 is 0.1-1 mm. Referring to Figure 13, a composite stab-resistant fabric with multiple polygonal coating points 8 staggered, a typical honeycomb configuration diagram is shown in the figure, and multiple polygonal coating points 8 are staggered on the front of the fabric 2 .

Referring to Fig. 8, a composite anti-stab fabric with barrel-shaped coating points 9, in the figure, the barrel-shaped coating points 9 are evenly distributed on the front of the fabric 2, every two barrel-shaped coating points 9 The gap is 0.1 ~ 1mm.

The coating points of different configurations described above are generally processed on the single-layer glove fabric by a combined printing and heating process, and then the gloves are sewn by general sewing techniques.

Example 1: Gloves with circular coating spots

Referring to shown in Fig. 1, the workpiece of glove adopts general sewing technology to sew. In the figure, the coating point 1 designed according to a certain gap of 0.2 mm is circular, the radius of the circular coating point is 0.8 mm, and the height of the circular coating point is 0.15 mm.

Materials for coating point 1: composed of 100 parts by weight of unsaturated resin (binder) and 130 parts by weight of silicon nitride powder (made of reinforcing particles) with a particle size of 150 μm.

Single-layer glove fabric 2: acrylic cloth, one layer.

The glove of the utility model can be applied to the working environment with small and sharp objects, and the external protrusions (coating points) increase the friction force, which is beneficial to grasping, holding, and holding small objects without being stabbed by the sharp parts. Thereby play a protective role.

Claims (5)

1. gloves that adopt composite anti-stabbing lining to make, it is characterized in that: be bonded with coating point (1) on the individual layer gloves lining (2), the distance that the horizontal plane of described coating point (1) is of a size of any point-to-point transmission is 2～20mm, and thickness is 0.1～2.0mm; The gap is 0.1～1.0mm between coating point and the coating point.

2. gloves according to claim 1 is characterized in that: described coating point (1) material is for strengthening the hybrid protective material that particle and binding agent are formed, and the consumption of described enhancing particle is that 40～300 weight portions are arranged in the 100 weight portion binding agents;

The combination of one or both in diamond dust, quartz sand, aluminium oxide, carborundum, titanium carbide, silicon nitride, tungsten carbide and the titanium nitride that described enhancing particle is particle diameter 10～200 μ m or three kinds;

Described binding agent is the combination of one or both or three kinds in polyurethane, polyacrylic resin, epoxy resin, phenolic resins, unsaturated-resin and the vinylite.

3. gloves according to claim 1 is characterized in that: described coating point (1) be shaped as circle, ellipse, square, rectangle, triangle, rhombus, regular pentagon or polygon.

4. gloves according to claim 1 is characterized in that: described coating point (1) be shaped as two or more permutation and combination in circle, ellipse, square, rectangle, triangle, rhombus, regular pentagon and the polygon.

5. gloves according to claim 1 is characterized in that: described individual layer gloves lining (2) is one or both or the two or more fabric in chemical fibre, hair, cotton, fiber crops and the silk.

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