Abstract
An ordering conditioner includes: a seat body, having a connection portion, one end of the connection portion in connection with a front end of the seat body, another end of the connection portion a rear end thereof, and the connection portion also including a laser LED element and power element and a light emitting face of the laser LED element facing the front end of the seat body; a first bowl, configured on the front end of the seat body, a first magnetic element configured on an inner bottom of the first bowl, the first magnetic element having an N pole and S pole; a second bowl, configured on the rear end of the seat body, a second magnetic element configured on an inner bottom of the second bowl, the second magnetic element having an N pole and S pole; and optical fibers, extended outside a filler.
Claims
1. An ordering conditioner, comprising: a seat body, having a connection portion, one end of said connection portion in connection with a front end of said seat body, another end of said connection portion a rear end thereof, and said connection portion being slightly narrower than said front and rear ends of said seat body, said connection portion further comprising a laser LED element and a power element, said laser LED element in electric connection with said power element, and a light emitting face of said laser LED facing said front end of said seat body; a first bowl, configured on said front end of said seat body, a first magnetic element configured on an inner bottom of said first bowl, a first filler configured between an inner side wall of said first bowl and a side of said first magnetic element, said first magnetic element having an N pole and S pole, said S pole of said first magnetic element in connection with said inner bottom of said first bowl; a second bowl, configured on said rear end of said seat body, a second magnetic element configured on an inner bottom of said second bowl, a second filler configured between an inner side wall of said second bowl and a side of said second magnetic element, said second magnetic element having an N pole and S pole, said N pole of said second magnetic element in connection with said inner bottom of said second bowl; and a plurality of optical fibers, extended from said light emitting face of said laser LED element to an exposed surface of said first filler.
2. The ordering conditioner according to claim 1, wherein an outer side of said first bowl is covered with an isolation layer.
3. The ordering conditioner according to claim 1, wherein an outer side of said second bowl is covered with an isolation layer.
4. The ordering conditioner according to claim 1, wherein said first filler is made of far infrared material.
5. The ordering conditioner according to claim 1, wherein said second filler is made of far infrared material.
6. The ordering conditioner according to claim 1, wherein said connection portion is made of non-magnetic material.
7. The ordering conditioner according to claim 1, wherein said first bowl is made of magnetic material.
8. The ordering conditioner according to claim 1, wherein said second bowl is made of magnetic material.
9. The ordering conditioner according to claim 1, wherein the magnetic flux of said first magnetic element and the one of said second magnetic element respectively are larger than 5000 Gauss.
10. The ordering conditioner according to claim 1, wherein the size of said front end of said seat body is larger than the one of said rear end thereof.
11. The ordering conditioner according to claim 1, wherein the laser LED element has an emission wavelength in the red range of 600 nm to 700 nm.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
[0019] FIG. 1 is a perspective view of the present invention;
[0020] FIG. 2 is a cross-sectional view of a preferred embodiment according to the present invention; and
[0021] FIG. 3 is a cross-sectional view of another preferred embodiment according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0022] Referring to FIGS. 1 and 2, in a preferred embodiment, an ordering conditioner of the present invention includes: a seat body 1 having a connection portion 100, one end of which is in connection with the front end of the seat body 1, and another end of which the rear end thereof, with the connection portion 100 being slightly smaller than the front and rear ends of the seat body 1 in width; the connection portion 100 also includes a laser LED element 3 and power element 30, where the laser LED element 3 is in electric connection with the power element 30, and the light emitting face of the laser LED element faces the front end of the seat body 1; the connection portion 100 may be coupled pivotally with a openable cover plate 32, allowing the power element 30 to be replaceable, and the laser LED element 3 has an emission wavelength in the red range of 600 nm to 700 nm; a first bowl 10, configured on the front end of the seat body 1, a first magnetic element 11 being configured on the inner bottom of the first bowl 10, a first filler 12 being configured between the inner side wall of the first bowl 10 and the side of the first magnetic element, and the first magnetic element 11 having an N pole and S pole, with the S pole there of being in connection with the inner bottom of the first bowl 10; and a second bowl 20, configured on the rear end of the seat body 1, configured on the rear end of the seat body 1, a second magnetic element 21 being configured on the inner bottom of the second bowl 20, a second filler 22 being configured between the inner side wall of the second bowl 20 and the side of the second magnetic element 21, and the second magnetic element 21 having an N pole and S pole, with the N pole of the second magnetic element 21 being in connection with the inner bottom of the second bowl 20; a plurality of optical fibers 31 is extended from the light emitting face of the laser LED element 3 to the exposed surface of the first filler 12, and each of the optical fibers 31 is adapted to guide the laser light emitted from the laser LED element 3 to the front end of the seat body 1 to irradiate a patient, where the connection portion 100 is made of non-magnetic material, the first bowl 10 magnetic material, and second bowl 20 magnetic material, the first filler 12 and second filler 22 being respectively made of far infrared material. Furthermore, the magnetic flux of the first magnetic element 11 and the one of the second magnetic element 21 are respectively larger than 5000 Gauss so that the ordering conditioning effect can be achieved quickly, and the front end size of the seat body 1 is larger than the rear end size thereof, allowing an operator to quickly distinguish whether the current magnetic pole used is a N pole or S pole. The present invention provides medical personnel for patients' physical conditioning, and allows the magnetic pole currently used to be switched immediately to the N pole or S pole according to the different acupoints to be conditioned to enforce or reduce the orderly energy and achieve the effect of medical auxiliary conditioning. Because the N pole is more often used for conditioning human body's acupoints, the laser LED element 3 is installed only in the direction facing the front end of the seat body 1, but each of the optical fibers 32 may be extended to the rear end of the seat body 1 to carry out conditioning with the pole S depending on requirements.
[0023] Furthermore, referring to FIG. 3, in another preferred embodiment, an ordering conditioner of the present invention includes: a seat body 1 having a connection portion 100, one end of which is in connection with the front end of the seat body 1, and another end of which the rear end thereof, with the connection portion 100 being slightly smaller than the front and rear ends of the seat body 1 in width; the connection portion 100 also includes a laser LED element 3 and power element 30, where the laser LED element 3 is in electric connection with the power element 30, and the light emitting face of the laser LED element faces the front end of the seat body 1; the connection pole 100 may be coupled pivotally with an openable cover plate 32, allowing the power element 30 to be replaceable, and the laser LED element 3 has an emission wavelength in the red range of 600 nm to 700 nm; a first bowl 10, configured on the front end of the seat body 1, a first magnetic element 11 being configured on the inner bottom of the first bowl 10, a first filler 12 being configured between the inner side wall of the first bowl 10 and the side of the first magnetic element, the first magnetic element 11 having an N pole and S pole, with the S pole there of being in connection with the inner bottom of the first bowl 10, and the outer side of the first bowl 10 being further covered with an isolation layer 13; and a second bowl 20, configured on the rear end of the seat body 1, configured on the rear end of the seat body 1, a second magnetic element 21 being configured on the inner bottom of the second bowl 20, a second filler 22 being configured between the inner side wall of the second bowl 20 and the side of the second magnetic element 21, the second magnetic element 21 having an N pole and S pole, with the N pole of the second magnetic element 21 being in connection with the inner bottom of the second bowl 20, and the outer side of the second bowl 20 being further covered with an isolation layer 23; a plurality of optical fibers 31 is extended from the light emitting face of the laser LED element 3 to the exposed surface of the first filler 12, and each of the optical fibers 31 is adapted to guide the laser light emitted from the laser LED element 3 to the front end of the seat body 1 to irradiate a patent, where the connection portion 100 is made of non-magnetic material, the first and second bowls 10, 20 respectively are made of magnetic material, and the first filler 12, 22 respectively far infrared material. Furthermore, the magnetic flux of the first magnetic element 11 and the one of the second magnetic element 21 are respectively larger than 5000 Gauss so that the ordering conditioning effect can be quickly achieved, and the front end size of the seat body 1 is larger than the rear end size thereof, allowing an operator to quickly distinguish whether the magnetic pole currently used is a N pole or S pole. The present invention provides medical personnel for patients' physical conditioning through the magnetic energy of the first magnetic element 11 and second magnetic element 21 and the optical energy of the laser LED element 3, and allows the magnetic pole currently used to be switched immediately to the N pole or S pole according to different acupoints to be conditioned so as to supplement or extract orderly energy to achieve the effects of auxiliary medical conditioning. Because the N pole is more often used for conditioning human body's acupoints, the laser LED element 3 is installed only in the direction facing the front end of the seat body 1, but each of the optical fibers 32 may be extended to the rear end of the seat body 1 to carry out conditioning with the pole S depending on requirements.
