Flexible clamping device for orthopedic joint trauma
A joint trauma, flexible clamping technology, applied in fractures, medical science, massage auxiliary products, etc., can solve the problems of restricting the healing and growth of cartilage tissue, not conforming to the biomechanical characteristics of human joint tissue, etc., to improve recovery efficiency, shorten Healing time, small damage effect
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Embodiment 1
[0048] Such as Figure 1-5 As shown, a flexible clamping device for orthopedic joint trauma includes a first clamping block 1 and a second clamping block 2; both the first clamping block 1 and the second clamping block 2 are arc-shaped structures, and the Both the first clamping block 1 and the second clamping block 2 are provided with a hard layer 3 and a flexible layer 4, and the hard layer 3 is arranged on the outside of the flexible layer 4;
[0049] The first clamping block 1 and the second clamping block 2 are provided with a connecting mechanism, and the connecting mechanism includes a plurality of fastening pieces 5, and one end of a plurality of fastening pieces 5 is connected with the first clamping block 1, fastened The sheet 5 is connected to the hard layer 3 of the first clamping block 1; the other end of the fastening sheet 5 is provided with a plurality of adjustment holes 6; the second clamping block 2 is provided with a plurality of threaded holes 7 , a plura...
Embodiment 2
[0055] On the basis of Example 1, as Figure 2-5 As shown, the flexible layer 4 includes an upper base 41 and a lower base, and multiple sets of elastic components 45 are arranged between the upper base 41 and the lower base. Piezoelectric stacks 46 are provided, and the piezoelectric stacks 46 are connected by provided wires, and the piezoelectric stacks 46 are connected to the power head 8 by using a series or parallel circuit.
[0056] The flexible layer 4 also includes an upper flexible electrode 42 and a lower flexible electrode 44, the upper flexible electrode 42 is connected to the upper substrate, and the lower flexible electrode 44 is connected to the upper substrate; the elastic component 45 is arranged on the upper flexible electrode 42 Between the flexible motor and the lower flexible motor, a conductive block 47 is provided in the middle of the elastic component 45, and the conductive block 47 is connected to the piezoelectric stack 46. Conductive blocks 47 are pr...
Embodiment 3
[0060] Such as Figure 6-8 As shown, on the basis of the first embodiment, each of the piezoelectric stack 46 units includes two sets of elastic components 45, and the two sets of elastic components 45 are respectively arranged at both ends of the piezoelectric stack 46, and the two sets of elastic components 45 are connected to the piezoelectric stack 46. The perpendiculars of the electrical stacks 46 are on the same vertical plane, and the conductive block 47 disposed in the middle of each group of elastic components 45 is fixedly connected to the piezoelectric stack 46 .
[0061] Each of the piezoelectric stack 46 units includes four sets of elastic assemblies 45, the four sets of elastic assemblies 45 are respectively arranged on the four sides of the piezoelectric stack 46, and the conductive block 47 arranged in the middle of each set of elastic assemblies 45 is connected to the piezoelectric stack. 46 are fixedly connected, and four sets of spring assemblies form a hexa...
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