A tactical belt

Abstract

The utility model discloses a tactical waistband, including body and respectively setting waistband buckle at the both sides of body, the body includes the inside layer of webbing and thermoplastic composite board material outer layer of one side surface interconnect fixed, is equipped with the composite nylon hanging layer on the outer surface of thermoplastic composite board material outer layer, is provided with a plurality of groups first hanging area and second hanging area that go through up and down at interval on the composite nylon hanging layer, is equipped with the adjustable length's connection webbing of waistband buckle connection respectively at the both sides of body. The utility model has the advantages of: high structural strength, convenient and reliable, long time wearing comfort is good.

Description

Technical Field

[0001] This utility model relates to the field of tactical belt technology. Background Technology

[0002] Tactical belts, as essential equipment, are used to carry various tactical gear around the waist and provide necessary protection. They are typically made with nylon webbing as the main body, with buckles at both ends. The length of the belt with the buckles on the belt can be adjusted using the webbing to meet the user's daily operational needs. However, to ensure adequate load-bearing capacity, most tactical belts are made with multiple layers of thickened webbing and nylon material, resulting in a heavy overall structure. Furthermore, to maintain load-bearing functionality, hooks or accessories for attaching equipment are often added to the belt, further increasing its weight and putting significant pressure on the waist. Prolonged wear can lead to decreased comfort. Summary of the Invention

[0003] The purpose of this invention is to provide a tactical belt that is lightweight, highly stable, and comfortable to wear for extended periods.

[0004] The technical solution of this utility model is: a tactical belt, including a body and belt buckles respectively disposed on both sides of the body. The body includes an inner layer of webbing and an outer layer of thermoplastic composite board that are connected and fixed to each other on one side. A composite nylon mounting layer is provided on the outer surface of the thermoplastic composite board. Several sets of first mounting areas and second mounting areas that run vertically through the composite nylon mounting layer are arranged at intervals. Adjustable length connecting webbing that connects to the belt buckles is provided on both sides of the body.

[0005] Thermoplastic composite sheets are lightweight and structurally strong. As a structural component of a tactical belt, they effectively reduce overall weight while ensuring strength. The inner webbing layer, located near the waist, is breathable and quick-drying, effectively wicking away sweat and improving comfort. The composite nylon mounting layer has high elasticity and structural strength, facilitating laser cutting for a neat overall appearance. The continuous mounting area allows for easy attachment of equipment such as bags or tools, while the spaced mounting areas allow for flexible equipment attachment based on mission requirements. The adjustable webbing length allows for easy connection of belt buckles according to user needs. The overall structure is lightweight, stable, and structurally strong, providing good comfort even during extended use.

[0006] Edge binding layers are provided at the top and bottom of the inner layer of the webbing and the outer layer of the thermoplastic composite board. These layers protect the structure of the belt body from the top and bottom, while ensuring the integrity of the upper and lower sides of the belt so as not to affect the mounting of equipment in the mounting area.

[0007] Several X-shaped reinforcing frames are spaced apart on the outer layer of the thermoplastic composite sheet. This limits the deformation of the outer layer and further enhances its structural strength when the equipment is mounted.

[0008] A Velcro layer is provided on the inner surface of the inner layer of the webbing. One end of the connecting webbing is fixed to the body, and a Velcro buckle that mates with the Velcro layer is provided on the other free end. By changing the connection position between the Velcro buckle at the free end of the connecting webbing and the Velcro layer on the inner surface of the inner layer of the webbing, the position of the belt buckle can be adjusted. Furthermore, the free end of the connecting webbing is fixed to the inner layer of the webbing, and the length is further limited by friction to ensure that the belt buckle will not shift.

[0009] Perforations are provided at both ends of the outer layer of the thermoplastic composite sheet. The free end of the connecting webbing passes through the perforations and connects to the Velcro layer. The perforations in the outer layer of the thermoplastic composite sheet are used to fix the connecting webbing and transfer the tension of the connecting webbing to the outer layer of the thermoplastic composite sheet, further improving the connection strength of the belt buckle.

[0010] The inner layer of the webbing, the outer layer of the thermoplastic composite board, the hook and loop fastener layer, and the composite nylon mounting layer are rectangular. The rectangular structure is simple, easy to process, and convenient for cutting and shaping.

[0011] The inner webbing layer, the outer thermoplastic composite board layer, the Velcro layer, and the composite nylon mounting layer are all arc-shaped. After the belt buckle is connected, the entire tactical belt can form a frustum-shaped structure, which makes it easier to match the shape of the waist, increases the bearing area in contact with the waist, reduces the pressure of the tactical belt on the waist, and further improves comfort.

[0012] The advantages of this utility model are: high structural strength, convenient and reliable use, and good comfort when worn for a long time. Attached Figure Description

[0013] Appendix Figure 1 This is a structural schematic diagram of Embodiment 1 of the present utility model (belt buckle omitted);

[0014] Appendix Figure 2 for Figure 1 Sectional view along line AA;

[0015] Appendix Figure 3 This is an exploded view of each layer of Embodiment 1 of the present invention;

[0016] Appendix Figure 4 This is an exploded view of each layer of Embodiment 2 of the present invention;

[0017] 1. Body, 2. Inner layer of webbing, 3. Outer layer of thermoplastic composite board, 4. Composite nylon mounting layer, 5. First mounting area, 6. Second mounting area, 7. Connecting webbing, 8. Edge binding layer, 9. Velcro layer, 10. Velcro buckle, 11. Reinforcing frame, 12. Perforation. Detailed Implementation Example 1

[0018] See Figure 1-3 A tactical belt includes a body 1 and belt buckles (not shown in the figure) respectively disposed on both sides of the body 1. The body 1 includes an inner webbing layer 2 and a thermoplastic composite board outer layer 3 that are connected and fixed to each other on one side. A composite nylon mounting layer 4 is provided on the outer surface of the thermoplastic composite board outer layer 3. Several sets of first mounting areas 5 and second mounting areas 6 that are connected vertically are arranged at intervals on the composite nylon mounting layer 4. Adjustable length connecting webbing 7 that is connected to the belt buckles is provided on both sides of the body 1.

[0019] The thermoplastic composite sheet layer 3 is a sheet-like structural layer made of high-strength, high-temperature resistant engineering plastics such as polyetheretherketone (PEEK) and polyphenylene sulfide (PPS) combined with high-strength, high-modulus glass fiber, carbon fiber, or aramid fiber. It is lightweight and has high structural strength. As a structural component of the tactical belt, it can effectively reduce the overall structural weight while ensuring sufficient structural strength. The inner webbing layer 2, as a structural component close to the waist, is breathable and quick-drying, which can effectively wick away sweat from the waist and improve wearing comfort. The composite nylon mounting layer 4 has high elasticity and structural strength, is easy to laser cut, and has a neat overall visual effect. The vertically connected mounting area can easily attach mounted equipment, such as bags or tools. The spaced mounting areas allow for flexible attachment of equipment according to mission needs. The connecting webbing 7 is adjustable in length, making it easy to connect belt buckles according to user needs. The overall structure is lightweight, stable, and has high structural strength, providing good comfort for long-term use.

[0020] Edge-binding layers 8 are provided at the top and bottom of the inner webbing layer 2 and the outer thermoplastic composite board layer 3, respectively. These layers protect the structure of the waist belt body from the top and bottom, while ensuring the integrity of the upper and lower sides of the waist belt, so as not to affect the mounting of equipment in the mounting area.

[0021] Several X-shaped reinforcing frames 11 are spaced apart on the outer layer 3 of the thermoplastic composite sheet. The reinforcing frames 11 can be made of carbon fiber or aramid fiber limiting protrusions, which can limit the deformation of the surface of the outer layer 3 of the thermoplastic composite sheet and further enhance the structural strength of the outer layer when the equipment is mounted.

[0022] A Velcro layer 9 is provided on the inner surface of the inner layer 2 of the webbing. One end of the connecting webbing 7 is fixed to the body, and a Velcro buckle 10 that cooperates with the Velcro layer 9 is provided on the other free end. By changing the connection position between the Velcro buckle at the free end of the connecting webbing 7 and the Velcro layer 9 on the inner surface of the inner layer 2 of the webbing, the position of the belt buckle can be adjusted. Furthermore, the free end of the connecting webbing 7 is fixed to the inner layer 2 of the webbing, and the length is further limited by friction to ensure that the belt buckle will not shift.

[0023] Perforations 12 are provided at both ends of the outer layer 3 of the thermoplastic composite sheet. The free end of the connecting webbing 7 passes through the perforations 12 and connects to the Velcro layer 9. The connecting webbing 7 is fixed by the perforations 12 of the outer layer 3 of the thermoplastic composite sheet, and the tension of the connecting webbing 7 is transmitted to the outer layer 3 of the thermoplastic composite sheet, further improving the connection strength of the belt buckle.

[0024] The inner webbing layer 2, the outer thermoplastic composite board layer 3, the Velcro layer 9, and the composite nylon support layer 4 are rectangular. The structure is simple, easy to process, and convenient for cutting and shaping. Example 2

[0025] See Figure 4 This is another type of tactical belt, differing from Embodiment 1 in that the inner webbing layer 2, the outer thermoplastic composite board layer 3, the Velcro layer 9, and the composite nylon support layer 4 are arc-shaped. After the belt buckle is connected, the entire tactical belt can form a frustum-shaped structure, making it easier to match the shape of the waist, increasing the bearing area in contact with the waist, reducing the pressure of the tactical belt on the waist, and further improving comfort. Other technical features are the same as in Embodiment 1 and will not be repeated here.

Claims

1. A tactical belt, comprising a body and belt buckles respectively disposed on both sides of the body, characterized in that: The main body includes an inner layer of webbing and an outer layer of thermoplastic composite board that are connected and fixed to each other on one side. A composite nylon mounting layer is provided on the outer surface of the thermoplastic composite board. Several sets of first mounting areas and second mounting areas that run vertically through each other are arranged at intervals on the composite nylon mounting layer. Adjustable length connecting webbing that connects to the belt buckle is provided on both sides of the main body.

2. A tactical belt according to claim 1, characterized in that: An edge-binding layer is provided at the top and bottom of the inner layer of the webbing and the outer layer of the thermoplastic composite board.

3. A tactical belt according to claim 2, characterized in that: Several X-shaped reinforcing frames are spaced apart on the outer layer of the thermoplastic composite board.

4. A tactical belt according to claim 2, characterized in that: A Velcro layer is provided on the inner surface of the inner layer of the webbing. One end of the connecting webbing is fixed in the body, and a Velcro buckle that cooperates with the Velcro layer is provided on the other free end.

5. A tactical belt according to claim 4, characterized in that: The thermoplastic composite board has perforations at both ends of its outer layer, and the free end of the connecting webbing passes through the perforations to connect the Velcro layer.

6. A tactical belt according to claim 1, 2, 3, 4 or 5, characterized in that: The inner layer of the webbing, the outer layer of the thermoplastic composite board, the Velcro layer, and the composite nylon mounting layer are rectangular.

7. A tactical belt according to claim 1, 2, 3, 4 or 5, characterized in that: The inner layer of the webbing, the outer layer of the thermoplastic composite board, the Velcro layer, and the composite nylon mounting layer are all arc-shaped.

Images