Laminating surface cold compress rehabilitation device based on 3D printing system

Abstract

The invention discloses a laminating surface cold compress rehabilitation device based on a 3D printing system. The laminating surface cold compress rehabilitation device comprises a cold compress body, wherein the cold compress body is of a thin-walled hollow container structure, the cold compress body is internally filled with a cold compress solution, the cross section of the cold compress bodyis of a fan-shaped structure, the inner side of the cold compress body is a cold compress curved surface closely fitted with a cold compress part, both ends of the inner side of the cold compress body are correspondingly provided with fixing belts, the side, away from the cold compress curved surface, of the cold compress body is evenly provided with a plurality of pits in an arranged mode, the inner parts of the pits are provided with cold source small balls, the top end of the cold compress body is provided with irrigation inlets, the top end of the cold compress body and one sides locatedat the irrigation inlets are provided with plugs matched with the irrigation inlets, and the inner side of the cold compress body and the end away from the fixing belts are provided with locking mechanisms matched with the fixing belts. The laminating surface cold compress rehabilitation device based on the 3D printing system has the beneficial effect that the cold compress body is wearable, has various use modes and is more convenient.

Description

technical field [0001] The invention relates to the technical field of 3D printing, in particular to a 3D printing system-based cold compress rehabilitation device. Background technique [0002] 3D printing (additive manufacturing) is a type of rapid prototyping technology, based on mathematical model files, using bondable materials such as powdered metal or plastic, and using heat sources such as lasers to manufacture products. The process methods of 3D printing can be divided into FDM (fused deposition), SLS (selective laser sintering), SLM (selective laser melting molding) and other types. [0003] Among them, SLS uses laser to melt powder in a specific area for powder materials to directly manufacture products. The process is similar: use CAD software to model a specific object, and then slice the model through the slicing software. The section data of the model obtained by slicing is sent to the control system, and the control system controls a certain power laser beam...

AI Technical Summary

Problems solved by technology

[0006] 1) Ice cubes are solid, not easy to disperse, uneven cold compress, improper operation, easy to frostbite and cause secondary injury;

[0007] 2) The ice cubes are solid, and it is easy to puncture the ice pack, resulting in liquid leakage;

[0008] 3) The ice pack can bear less pressure and has no massage effect, and it is easy to form venous thrombosis if the cold compress is used for a long time;

[0009] 4) Ice cubes or ice packs are hard and have poor fit, which greatly reduces the effect of cold compresses;

[0010] 5) The ice cube or ice bag liquid is not separated, and the use is labor-intensive;

[0011] 6) Ice cubes or ice packs are troublesome to use and cannot be worn

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