[Utility model]
Far-infrared nanomagnetic therapy patch? Expired patent
Basic information:
Application number: CN200420058061. 5 Priority: No information yet
Application date: 2004-12-30 Publication/announcement number: CN2782142
Publication/announcement date: 2006-05-24 Application /Patentee: ?Xu Jian
Inventor/Designer: ?Xu Jian Main classification number: ?A61N5/06
Classification number: ?A61N5/06?;?A61F7/03? ;?A61N2/08
Abstract:
Far-infrared nanomagnetic therapy patch is characterized in that it consists of an adhesive layer, a heating layer, a magnet and a synergistic layer. The adhesive layer The adhesive layer (1) is located at the bottom, the heating layer (2) is located above and connected to the adhesive layer, the synergistic layer (4) is located above the heating layer (2), and the magnet (3) is arranged on the synergistic layer (4) ) and the heat-generating layer (2), the synergist layer (4) contains nanometer mineral powder that can generate far-infrared rays and has a particle size of less than 1um and greater than or equal to 100nm. The utility model has the effects of "activating blood circulation and removing blood stasis, reducing swelling and relieving pain, removing wind and dampness, relaxing the meridians and unblocking collaterals"; it is an ideal product for eliminating pain, swelling and dysfunction caused by acute soft tissue injury; it is an ideal product for treating wind-cold-dampness paralysis. It does have good short-term effects on joint pain caused by other diseases; it is especially effective in reducing pain, improving joint dysfunction and local symptoms of chills; it is safe, reliable, and has no side effects.
Sovereign items:
1. Far-infrared nanomagnetic therapy patch, which is characterized in that it consists of an adhesive layer, a heating layer, a magnet and a synergistic layer. The adhesive layer (1) is located at the bottom of Between the heat-generating layer (2) and the heat-generating layer (2), the synergistic layer (4) contains nanometer mineral powder that can generate far-infrared rays and has a particle size of less than 1um and greater than or equal to 100nm.