Customization: | Available |
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Theory: | Electrotherapeutics |
Certification: | CE |
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Magnetic Induction Intensity | 6T |
Frequency | 0.01Hz ~ 100Hz |
Pulse Continuous Time | ≥340μs (±20μs) |
Magnetic Induction Intensity Maximum Change Rate | ≥40kT/s ~ 80kT/s |
Cooling System | Air Cooling |
Package Size | 116cm*56cm*53cm(aluminum box) |
G. W. | 52KGS |
Voltage | AC 110V/220V; 50-60Hz |
Theory
According to the principle of Faraday electromagnetic induction, a large amount of energy is quickly discharged from large-capacity storage capacitors to the coil. The coil is stimulated by strong current to produce pulse magnetic field, it can penetrate clothing, bones and other tissues, generate inductive electric fields in stimulating parts, causing excitement/suppression activities of nerve cells, and then generate a series of physiological biochemical reactions.
Magneto Therapy pulses a magnetic field into the body, creating an extraordinary healing effect. The results are less pain, reduction in swelling, and increased range of motion in the affected areas.
It can be divided into low-frequency TMS (<=1Hz) and high-frequency TMS (>=5Hz) according to different frequencies.
Different frequency TMS is different in regulating the sports cortex:
high-frequency TMS: Increase the excitement of the cortex;
low-frequency TMS: decrease the excitement of the cortex.
TMS is divided into sTMS, pTMS, and rTMS according to the stimulus mode.
sTMS: A single-time magnetic field with a non-fixed frequency is used to observe the instantaneous effect, and it is mostly used for conventional electrical physiological examinations.
pTMS: Based on a specific time interval and intensity, 2 stimuli is given to one specific area or two different parts, which are mostly used to study the easilyization and inhibitory effects of the nerves.
rTMS: During a certain area, the magnetic field is changed at a certain frequency. When the stimulus stops, there is still a continuous biological effect. It is a powerful tool for brain function research and clinical treatment.
Application
It uses magnetic field to stimulate muscle tissue and nerves through clothes and skin without decaying, so that it generates inductive current, a non-invasive, painless stimulus to tissue and peripheral nerves, which can accelerate metabolism and blood circulation, enhance the body immunity, soothe pain, reduce muscle soreness, restore damaged cells to normal health, regulate and improve physical function.
(1) Muscle pathology (contracture, muscle tears, bruises and swelling).
(2) Bone injuries, osteoarticular distractions and wear of the joints (shoulder, hips, knees, ankle joints).
(3) Pathology of the elbow, wrist and arms (epicondylitis, tendinitis, carpal tunnel syndrome).
(4) Thoracic vertebral pathology.
(5) Inflammation and damage to the Achilles tendon and ligament.
(6) Tendonitis in the shoulder joint area and chronic edema.
Q & A
(1) Is there any radiation damage from magnetic stimulation?
No. People confuse ionizing radiation with electromagnetic radiation. X-rays, CT, etc. produce ionizing radiation, which can cause harm to living beings; and electromagnetic radiation is everywhere, such as mobile phones, microwave ovens, induction cookers, TVs, microphones, etc. Magnetic stimulators generate electromagnetic radiation just like mobile TVs, so they will not cause radiation damage. Therefore, you can accept the treatment with no worry.
(2) Why is there noise during treatment?
The noise generated during treatment is caused by the expansion and impact of the wires in the coil when the power is turned on, which is unavoidable.
(3) How is the cooling system?
Excellent. After continuous improvement, the magnetic stimulator has been able to work continuously at room temperature of 26°C.
(4) How does magnetic stimulation work?
According to Faraday's theorem of electromagnetic induction, a time-varying magnetic field can induce an electric field. When an excitable tissue is in a time-varying magnetic field, an induced electric field and an induced current are generated in the tissue. When the inductive current exceeds the tissue's excitement threshold, it causes the cell membrane to exfoliate and excite the tissue.
(5) What is the difference between the induced current produced by magnetic stimulation and the current produced by electrical stimulation?
The same point: all excitable tissues such as nerves and muscles are stimulated by electric current.
Differences: Electrical stimulation requires electrodes to be in contact with the skin, mucous membranes, etc., to conduct current to the target tissue; while magnetic stimulation does not require electrodes and does not need to be in contact with the skin or mucous membranes, it is a time-varying magnetic field generated by a stimulation coil that induces an electric current in the body.