RU2122873C1 - Laser therapy device - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has power supply unit, microprocessor control unit connected to the latter and optical unit with semiconductor laser diodes connected to microprocessor control unit. Radiation of laser diodes is combined by means of fiber-optical transducer for introduction into input of changeable fiber-optical instrument. The latter is designed to irradiate cutaneous coverings and internal organs both transcutaneously and endoscopically. Semiconductor laser diodes radiate on wave lengths of 635-670 and 810-840 nm, respectively, which corresponds to visible and infrared sections of spectrum. EFFECT: improved design. 1 dwg

Description

 The invention relates to medicine, more specifically to medical equipment, and can be used for therapeutic treatment of various diseases by irradiating the desired area with laser radiation.

 A device for laser therapy containing a serially connected power supply, a microprocessor control unit and an optical unit with semiconductor laser sources emitting in the visible and IR (infrared) spectral regions, and a replaceable fiber-optic instrument (AZOR-2K, Universal laser therapeutic apparatus, AZOR LLP, prospectus of the company, M., 1996).

 A disadvantage of the known device for laser therapy is the impossibility of a wide variation of radiation parameters due to the pulsed operation of radiation sources.

 The technical result achieved in the invention is to enable combined (alternate) or combined (joint) exposure to laser radiation of the visible and infrared regions of the spectrum.

 The essence of the invention is to achieve the aforementioned technical result in a device for laser therapy containing a serially connected power supply unit, a microprocessor control unit and an optical unit with semiconductor laser sources emitting in the visible and infrared regions of the spectrum, and a replaceable fiber-optic instrument, which is equipped with a fiber an optical converter for converting the radiation of sources made in the form of semiconductor laser diodes, the output of which is connected to the input of the interchangeable th fiber-optical instrument, wherein the microprocessor control unit is configured to provide separate or joint operation of laser diode at various parameters of the radiation in the visible and infrared regions of the spectrum: the duration of the power and modulation frequency.

 The invention is illustrated in the drawing, which shows a block diagram of a device for laser therapy.

The device for laser therapy contains a power supply unit (PSU) 1, a microprocessor control unit (MBU) 2 connected to it, to which an optical unit (OB) 3 is connected with semiconductor laser diodes (LD ₁ and LD ₂ ) 4, 5. Radiation of laser diodes 4 and 5 with the help of a fiber-optic converter (BOP) 6 is brought together for input to the input of a replaceable fiber-optic instrument (SVI) 7. A replaceable fiber tool is made for irradiation of the skin and internal organs with both transcutaneous and endoscopic methods.

 Semiconductor laser diodes 4 and 5 emit at wavelengths of 635-670 nm and 810-840 nm, respectively, which corresponds to the visible and infrared regions of the spectrum.

The microprocessor control unit provides the following operating modes:
IR Channel:
power at the output of the light guide tool - 1 - 99 mW
radiation mode - continuous or modulated
radiation modulation frequency range - 1 - 99 Hz
Visible spectrum diode channel:
power at the output of the light guide tool - 1 - 20 mW
radiation mode - continuous
General characteristics:
discreteness of medium power installation - 1 mW
irradiation time range - 0.1 - 9.9 min
power supply - 220 V, 50 Hz
The microprocessor control unit provides the selected radiation power at the output of the light guide tool throughout the entire operating time, which eliminates the need for an additional power meter.

 Blocks 1, 2, 3, 4, 5, and 6 of the apparatus are placed in a single compact casing, on the front panel of which indicators of irradiation modes are located, including: a digital indicator of the frequency of the modulation of power, a digital indicator of the power of laser radiation, an indicator of the inclusion of laser radiation, an indicator power, an indicator of activation of the irradiation mode with a frequency of 635-670 nm, and means for setting radiation parameters, including: a button for setting tens of Hz, buttons for setting tens, units and tenths of a minute, buttons for setting tens and units of mW, and start work. All of the above buttons and indicators are associated with the corresponding elements of the microprocessor control unit.

 The device operates as follows: after connecting the power, the operator sets the radiation parameters selected for a particular patient using the appropriate buttons, after which, by pressing the start button, the radiation session begins.

 Since the device is equipped with an emitter of the visible wavelength range, the treatment procedure with an infrared emitter is accompanied by visualization of the exposure zone with radiation with a wavelength of 635-670 nm.

 In addition, since laser irradiation in the visible wavelength range itself has a therapeutic effect, the procedure, in fact, is carried out simultaneously at two wavelengths with different radiation parameters in the IR and visible range, which increases the effectiveness of the effect.

 The use of a replaceable fiber-optic instrument allows the apparatus to be used in otorhinolaryngology, gastroenterology, reflexology, sports medicine, pulmanology, gynecology, general surgery, dentistry, orthopedics and traumatology.

Claims (1)

 A laser therapy device comprising a serially connected power supply unit, a microprocessor control unit and an optical unit with semiconductor laser sources emitting in the visible and IR spectral regions, and a replaceable fiber-optic instrument, characterized in that it is equipped with a fiber-optic converter for converting radiation sources made in the form of semiconductor laser diodes, the output of which is connected to the input of a replaceable fiber-optic instrument, while microprocessor the control unit is configured to provide separate or joint operation of the laser diodes, the output of which is connected to the input of a replaceable fiber-optic instrument, while the microprocessor control unit is configured to provide separate or joint operation of the laser diodes at various radiation parameters in the visible and IR spectral regions: duration, power and modulation frequency.