Personalized skin penetrating supporting point positioning device based on 3D printing and manufacturing method thereof
A positioning device and 3D printing technology, applied in the field of medical devices, can solve the problems of affecting acupuncture effects, large errors, and effective positioning of acupoints, and achieve high accuracy, high fit, and good fit
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Embodiment 1
[0044] Taking the positioning device for hand moxibustion as an example, its manufacturing method includes the following steps:
[0045] S1: Use an ultrasonic Doppler blood flow detector to find and mark the fulcrum of skin penetration at the hand position, and mark the visible marks on the body surface of the hand, such as superficial visible veins, skin lines, wrist stripes, fingerprints and palm prints and bone markers, etc.;
[0046] S2: Use mobile devices such as 3D scanners or mobile phones, cameras, etc. to collect data on the above-mentioned marked images and form image data;
[0047] S3: Import the above image data into the 3D modeling software for image data processing. The graphic data processing includes setting skin piercing holes at the marked skin piercing points, and setting resistance between different skin piercing holes. Heat pipes and heat-resistant pipes connect different skin penetrating and branching through holes. After image data processing, a 3D mode...
Embodiment 2
[0053] Taking the positioning device for hand acupuncture as an example, the manufacturing method includes the following steps:
[0054] S1: Use an ultrasonic Doppler blood flow detector to find and mark the fulcrum of skin penetration at the hand position, and mark the visible marks on the body surface of the hand, such as superficial visible veins, skin lines, wrist stripes, fingerprints and palm prints and bone markers, etc.;
[0055] S2: Use mobile devices such as 3D scanners or mobile phones, cameras, etc. to collect data on the above-mentioned marked images and form image data;
[0056] S3: Pour the above-mentioned image data into 3D modeling software for image data processing. Graphic data processing includes setting skin perforator holes at the fulcrum points, and designing perforator holes according to the structures of different parts of the skin perforators and their branch vessels. The oblique direction of the needle passage at the skin-piercing fulcrum, and throu...
Embodiment 3
[0062] Taking the hand vessel structure graphics board as an example, its manufacturing method includes the following steps:
[0063] S1: Use an ultrasonic Doppler blood flow detector to find and mark the fulcrum of skin penetration at the hand position, and mark the visible marks on the body surface of the hand, such as superficial visible veins, skin lines, wrist stripes, fingerprints and palm prints and bone markers, etc.;
[0064] S2: Use mobile devices such as 3D scanners or mobile phones, cameras, etc. to collect data on the above-mentioned marked images and form image data;
[0065] S3: Pour the above image data into the 3D modeling software for image data processing. The graphic data processing includes drawing the vascular structure diagram at the marked skin piercing fulcrum according to the vascular perfusion specimen map, and setting the skin piercing fulcrum at different skin piercing fulcrums. The name of the perforation; the 3D model is established after the im...
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