Dynamic biological-function leg protective tool
A functional and protective technology, applied in protective clothing, sports accessories, clothing, etc., can solve problems such as inability to provide protection, easy accumulation of sweat, decreased comfort, etc. The effect of muscle groups
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no. 1 example
[0082] refer to Image 6 , is a schematic structural view of the first embodiment of the dynamic biofunctional leg brace of the present invention.
[0083] In the first embodiment, the structure and position of each protective band can refer to the above-mentioned figure 2 The introduction will not be repeated here. In this embodiment, the patellar tendon protective band A-2 specifically includes a left and right protective band starting from the lower edge of the patella, and both protective bands extend upward along both sides of the cruciate ligament protective band A-1 to strengthen the pressure on the patellar tendon.
[0084] Knitted materials with different elastic modulus under different deformation conditions are prepared by using the existing invention technology and used in the leg protector of this design. The material properties of each area are specifically shown in Table 1 below. In this embodiment, individual The materials corresponding to the regions are st...
no. 2 example
[0090] refer to Figure 7 , the second embodiment and the first embodiment can be different strapping methods of the same leg protector. 3 On the basis of the first embodiment, one is added repeatedly to strengthen the pressure of the protective belt, thereby strengthening the fastening force and supporting force of this part. In addition, the patellar tendon protection band A-2 specifically includes two protection bands on the left and right starting from the lower edge of the patella, and the four protection bands extend upward along both sides of the cruciate ligament protection band A-1 to strengthen the pressure on the patellar tendon.
no. 3 example
[0092] refer to Figure 8 , in this embodiment, the combination of the fabric with dynamic unidirectional water-conducting function in the thermal comfort zone B and the composite material with glue is used to realize the function of strengthening the resilience. The method of pressing glue is used on each protective belt to strengthen the pressure of the protective belt, thereby strengthening the fastening force and supporting force of this part. For the patellar tendon protective belt A-2, it includes three protective belts starting from the lower edge of the patella on the left and right, and six protective belts starting from the lower edge of the patella. The protective belts extend upward along both sides of the cruciate ligament protective belt A-1 to strengthen the patella. Tendon stress.
[0093] The material characteristics of the adhesive are that the unit weight is 250g / m2, the thickness is less than 1.1mm, the air resistance is 0.03kPa.s / m, the heat insulation is...
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