DE10332771A1 - Therapeutic hand held irradiation unit has array of pulsed controllable light sources with magnetic field generator coils - Google Patents

Abstract

A therapeutic hand held irradiation unit has a pulsed controllable light array (2) with polarized or coherent individual LED (Light Emitting Diode) sources (21) for different spectra arranged in identical square groups (3) with a controllable pulsed magnetic field generator (4) and a central ultraviolet source fed from flexible circuits.

Description

The The invention relates to a hand-held irradiation device for appli cation of electromagnetic Radiation.

light quanta and magnetic radiation are absorbed by human tissue and can support or stimulate a healing or growth process. It will be the electromagnetic waves from tissue or cells (partially) absorbed and can a corresponding desired Cause reaction.

For different wavelength is there in the human body different absorbers or photoacceptors. Accordingly, the excited cells over the wavelength and thus over the Color of light - at least in the visible frequency spectrum - to be selected. The penetration depth of the photons into the tissue depends on the number of absorbers for the specific wavelength on the way of the light beam through the tissue. Wavelengths of the Near-infrared area penetrate to a few inches deep into the tissue one.

So has tissue just in the near-infrared wavelength range between 700 nanometers (nm) and 900 nm on a good transmission. Below 700 nm there is an intense hemoglobin absorption in the skin and above 900 nm a strong absorption of im Tissue embedded or incorporated into the cells water. Of the Range between 700 and 900 nm is therefore also called bio-optical Window called. Since the proportion of absorption decreases sharply, However, the scattering of electromagnetic waves even at lower Penetration depths remains relatively constant, the light of the near infrared one Penetration depth of up to several centimeters in the tissue reach. Thereby can straight underlying tissue structures by absorption of photons be stimulated.

In order to The treatment successes should come to fruition should every cell be applied with the same light beam composition. This should be so even if several individual light sources with individual Spectra are used, with the individual light sources side by side are arranged.

task The invention is an easily manageable, reliable working and cost-effective To provide irradiation hand-held device to be provided in the electromagnetic Radiation of multiple light sources can be homogeneously delivered.

These The object is achieved by an irradiation hand-held device for the application of electromagnetic Radiation solved according to claim 1.

The Invention proposes an irradiation hand-held device for the application of electromagnetic radiation before, with a Lightwave emitting controllable light source field in which individual Light sources with different emission spectrum each too Groups are grouped, whereby the groups light sources with have different emission spectrum, the different light sources of each group geometric to each other are arranged the same and the groups are repeated next to each other are arranged, the light sources of each group in one Rectangle arranged ("squared Arrangement ") are.

A particularly advantageous and therefore preferred embodiment of the invention provides that a controllable magnetic field source for generating a Magnetic field is provided. By the application of tissue with magnetic fields are complementary or additional produces positive effects in the tissue by stimulation or healing. Even weak magnetic fields improve the absorption of calcium noticeable in bones. Continue to produce bone cells under the Influence of low frequency magnetic fields enhances building blocks for bone growth. Thus, the osteoblasts produce increased collagen, which is the main protein the bone is. This is reinforced after fractures of the bones for healing needed. The production of collagen can thus be increased.

From Advantage are provided as light sources light-emitting diodes. These They are particularly low-loss, durable and maintenance-free, which makes them ideal for this Task is suitable.

A Development of the invention provides that the four different LEDs of a group have an emission wavelength of substantially 660 nm, 680 nm, 730 nm and 880 nm.

Wavelengths of the near infrared are able to accelerate wound healing. Light rays with the wavelengths 680 nm, 730 nm and 880 nm are tested particularly advantageous here Service.

Another selection of light sources is to select LEDs having emission wavelengths of substantially 370 nm, 470 nm, 660 nm, and 680 nm in a square array. This mixture is particularly beneficial for skin diseases, since the short-wave component against infection and bacteria is effective.

The DNA synthesis was performed using LEDs with wavelengths in these areas increased many times over. The special wavelengths will be thereby absorbed and acted by the mitochondria in the body cells there stimulating on the energy metabolism (adenosine triphosphate (ATP) metabolism).

preferably, is centrally located in the square arrangement of light sources further, in particular light from the blue spectrum range or UV light emitting light source arranged.

A preferred embodiment of the invention provides that the output from the irradiation handset Light waves are polarized.

the Following is a polarizing filter, in particular in the form of a partially transparent Provided film, by means of which from unpolarized light of the Light sources light waves of substantially one polarization direction selected and be transmitted.

One Variation of the invention provides that the light sources polarized and / or coherent light waves submit.

A Drive circuit is according to an advantageous and preferred development for the light sources and / or the magnetic field source, which the light sources and / or the magnetic field source according to a preselected control pattern on and off.

advantageously, the drive circuit is provided so that the control pattern the Light sources and / or the magnetic field source in pulse groups, respectively drives approx. 20 Hz.

The Drive circuit is preferably provided so that the control pattern the light sources and / or the magnetic field source in pulse groups, respectively about 1200 Hz controls.

From Advantage is the drive circuit provided so that the control pattern the light sources and / or the magnetic field source in pulse groups with about 3 minutes duration.

A preferred embodiment of the invention provides that the drive circuit is provided so that the control pattern, the light sources and / or the magnetic field source in pulse groups with about 20 seconds each Pause between the pulse groups drives.

The Control pattern is according to a development of the invention in one programmable program memory stored after the drive circuit the light sources and / or the magnetic field source drives. That allows the Adaptation of the patterns to later changes.

A advantageous and therefore preferred embodiment of the invention sees in that a sound signal device is provided, by means of which a beep can be issued. This can be an end to a completed treatment will be displayed.

The Magnetic field source having a plurality of turns, substantially annular Coil is formed around the light source field in or parallel is arranged to the plane defined by the light source field.

From Advantage may be the light source field and / or the magnetic field source be disconnected from the drive circuit by means of a detachable connection can, so different groups of selected light sources can be used.

preferably, can a drive circuit a plurality of light source fields and / or magnetic field sources be assigned. For this purpose, multiple plug or the like can be used.

The Light source field and / or the magnetic field source are according to an advantageous Design formed on a flexible, flexible carrier. hereby can be an application around a limb around - for example an arm - done, being the best possible Radiation allows is.

the The following are for supplying the light sources and / or the magnetic field source Foil conductor are formed on the flexible support.

A advantageous development of the invention provides that the emission of the Light source field and / or the magnetic field source through the drive circuit by the current flowing through them or Current duration can be controlled.

Advantageously, the magnetic field is pulsed in pulse groups ( 61 ) is generated with pulses, wherein the magnetic field is generated in a first pulse group in a first direction and then in the subsequent pulse group in the opposite direction.

An advantageous development of the invention provides that the magnetic field is pulsed in pulse groups with pulses generated in one direction, the last pulse of the pulse group in entgegenge set direction, ie with negative amplitude, is generated.

Further Advantages, special features and expedient developments of the invention emerge from the other dependent claims or their sub-combinations.

following the invention will be further explained with reference to the drawing. in the Individual shows the schematic representation in:

1 a view of a light source field according to the invention with a magnetic field source arranged around it,

2 an explanatory illustration about the square arrangement of the light sources of the light source field,

3 an Explanatory illustration of the square arrangement of the light sources of the light source field, wherein a centrally arranged in a group additionally light source is provided,

4 a schematic representation of the emission of the electromagnetic waves,

5 schematic representation of the control pattern with pulse group,

6 schematic representation of the control pattern with pulse group, wherein the last pulse of the pulse group has a negative amplitude,

7 2 a schematic representation of the control device with this associated sound signal device, an exemplary illustrated group of light sources and magnetic field source,

8th a light source field formed on a flexible carrier with a magnetic field source arranged around it in side view,

9 a trained on a flexible support light source field with arranged around magnetic field source in 8th in supervision,

10 a plan view of an inventive irradiation handset, and

11 a sectional view through the irradiation hand-held device according to the invention 10 in the direction XI.

The in the figures, the same reference numerals designate the same or the same acting elements.

1 shows the light source field 2 and the therefore arranged in the same plane E magnetic field source 4 in the form of a coil 41 of an irradiation hand-held device according to the invention ( 10 ) for the application of electromagnetic radiation (B, L ₁ , L ₂ , L ₃ , L ₄ see 4 ). The individual light sources 21 of the light source field 2 have different emission spectra and are grouped 3 arranged.

The exact arrangement of the individual light sources 21 is in 2 explained in more detail.

In order to the entire eliminated light mixture of the different possible homogeneously applied to or in particular human tissue can be in a group each different in the light source field occurring types of light sources summarized.

The example uses light sources 21 in the form of LEDs with emission wavelengths around 660 nm, 680 nm, 730 nm and 880 nm in the light source field 2 arranged. In this case, these four types according to the invention are arranged square. Thus, as shown in Group 3 arranged in the square (The numbers 660, 680, 730 and 880 stand for the arrangement of a light source with a corresponding emission spectrum). This group is arranged symmetrically repeating side by side and with each other. This can be as in the example below 1 3 × 3 or as in 2 5 × 4 or any other surface arrangement. However, always the light sources 21 a group 3 arranged square. This has the consequence that the light is emitted as homogeneously as possible, since only one position (one light source) in the grid is again offset by the arrangement of a square group arranged in the quadrangle 31 results.

LEDs As light sources have the advantage that they produce very little waste heat and a very long service life of approx. 100,000 operating hours exhibit. Furthermore, the selective emission spectrum of LEDs very well suited the mentioned, advantageous emission maxima (660 nm, 680 nm, 730 nm and 880 nm).

A other selection of light sources provides that type 370 LEDs nm, 470 nm, 660 nm and 680 nm are selected in a square arrangement.

For special light beam treatments can central in a square arrangement with the properties described above 3 centrally in each squared group 3 from light sources 21 another light source 22 be provided.

in this connection For example, the centrally provided light source is one, for example LED with a wave spectrum between 370 and 470 nm. This ultraviolet and blue area when applied to human tissue As a result, the generally produced free radicals be reduced. This causes the so-called photoreceptor, the however, it only starts when the body cell briefly irradiated with violet light.

4 shows the arrangement 1 in an oblique view, exemplifying the emitted electromagnetic waves of the magnetic field source 4 and the light source field 2 , So the four different light emissions L ₁ , L ₂ , L ₃ and L ₄ and the magnetic field B are shown.

The magnetic field source 4 and the light source field can also lie in mutually parallel planes and not only, as shown, in a common plane E.

The light source field 2 - And synonymous in the example, the magnetic field source 4 - Is controlled according to a fixed control pattern, so controlled in its output light power / magnetic field power.

In 5 a control pattern of the magnetic field source is explained in more detail.

The magnetic field source is controlled by groups of pulses combined with 20 Hz repetition frequency. Shown is a group with positive impulses 64 over time t.

The Causes a release of a rectified pulsed magnetic field B.

in the Example is also the light source field synchronous with the pulses the magnetic field source is driven.

One other control pattern provides that the pulses with a repetition frequency to be clocked from 1200 Hz. This has another, also positive Effect on the applied tissue.

Between the pulse groups at 20 Hz and 1200 Hz will be paused for 20 seconds provided without light wave and magnetic field emission.

The Groups of pulses at 20 Hz and 1200 Hz each have a time length in each case 3 minutes.

It are natural also other tax patterns conceivable.

In 6 is still an advantageous modification of the control of the magnetic rock source shown. At the end of a pulse group, the last pulse is 65 negative, which last causes a magnetic field pulse in the reverse direction. This is very beneficial to human tissue.

For controlling the magnetic field source 4 and the light sources 21 is the in 7 shown drive circuit 6 intended.

The drive circuit switches the light sources 21 , ( 22 ) and the magnetic field source 4 according to the preselected control pattern (for example, as explained in more detail above) on and off.

The drive circuit 6 apply to them in groups 3 arranged light sources 21 (Exemplary are the light sources in the form of LEDs 21 a group 3 shown) and as a coil 41 trained magnetic field source 4 with electricity.

The drive circuit 6 is still a sound signal device 63 assigned, by means of which a signal tone, for example after completion of the control pattern, can be delivered.

The drive circuit 6 also has a programmable program memory 62 on, in which the control pattern is stored. The program memory can be designed fixed or reprogrammable, so that the predetermined control pattern can still be varied.

In 8th (Side view) and 9 (Top view) an advantageous modification of the invention is shown. The light sources (SMD LEDs) are 21 and the magnetic field source 4 as a printed circuit with individual turns 41 on a flexible carrier 23 educated.

The has the advantage that the radiation handset around a body part, for example an arm, can be placed. A fixation on the spot can be used for Example with a Velcro tape closure done.

The supply of electricity on the flexible support by means of foil conductor which also on the flexible support 23 are formed.

10 shows a view of a complete hand-held irradiation device 1 , where the light source field 2 with an annular magnetic field coil 41 in one of the fuselage part 72 separable headboard 71 is provided. The body part is connected to the head part via an electrical plug connection for power supply.

The radiation handheld device 1 is over the switch 73 , in the fuselage 72 is provided, operable. The drive circuit 6 is in the trunk part 72 ,

The attached headboard 71 can also rotate on the fuselage 72 to be appropriate.

At the Head or torso part can also be a receptacle for a tripod or the like be provided so that the hand-held irradiation device does not need to be kept constantly.

The Body part is designed to have several different head parts can be connected to it. Likewise several headboards over a double plug or a T-piece connected at the same time become.

The Headboards can different shapes and light source field sizes for different Application sites on or in the human or animal body. For example, an oral cavity applicator conceivable with only one group of LEDs, again a small one Coil can be arranged around the light source field around.

When Power source can be provided in the body part battery supply or an external power supply may be provided.

11 shows a cross section through the head part 71 out 10 in the direction XI.

So that no pollution gets inside the transparent cover 5 provided, which may be a polarizing filter at the same time, so that polarized light is emitted.

Likewise, the light sources 21 be selected as polarized light emitting sources.

In cross section they are on a board 24 soldered light sources 21 to see around which the annular air-core coil 41 is arranged.

As articles for concentrated or focused application of the light waves, it is also possible to provide the emitted light-collecting and focusing lens or prism attachments which are located above the light source field 2 to be ordered.

1

Irradiation handset

B

magnetic field

L ₁

light waves

L ₂

light waves

L ₃

light waves

L ₄

light waves

e

level

2

Light source box

21

Light source led

22

Light source led

23

flexible carrier

24

circuit board

3

group

31

identical group

4

magnetic field source

41

Kitchen sink

5

Polarizer

6

drive circuit

61

pulse group

62

program memory

63

Sound signaling device

64

Pulse, positive

65

Pulse, negative

71

headboard

72

body part

73

switch

Claims (23)

Irradiation handheld device ( 1 ) for the application of electromagnetic radiation (B, L ₁ , L ₂ , L ₃ , L ₄ ), with a light wave emitting controllable light source field ( 2 ), in which individual light sources ( 21 ) with different emission spectrum in each case into groups ( 3 ), the groups ( 3 ) Light sources ( 21 ) with mutually different emission spectrum, the different light sources ( 21 ) of each group ( 3 ) are arranged identically to one another geometrically and the groups are arranged next to one another repeatedly, the light sources ( 21 ) of each group ( 3 ) are arranged in a quadrangle ("square array"). Irradiation hand-held device according to claim 1, characterized in that a controllable magnetic field source ( 4 ) is provided for generating a magnetic field (B). Irradiation hand-held device according to claim 1 or 2, characterized in that as light sources ( 21 ) Light emitting diodes (LED) are provided. Irradiation hand-held device according to claim 3, characterized in that the four different light emitting diodes as light sources ( 21 ) of a group ( 3 ) each have an emission wavelength of substantially 660 nm, 680 nm, 730 nm and 880 nm or 370 nm, 470 nm, 660 nm and 680 nm. Irradiation hand-held device according to one of claims 1 to 4, characterized in that centrally in the square arrangement of the light sources ( 21 ) a further, in particular light from the blue spectrum range or UV light emitting light source ( 22 ) is arranged. Irradiation hand-held device according to one of claims 1 to 5, characterized in that the radiation from the hand-held device ( 1 ) emitted light waves are polarized. Irradiation hand-held device according to one of claims 1 to 6, characterized in that a polarizing filter ( 5 ), in particular in the form of a partially transparent film, by means of which unpolarized light of the light sources ( 21 . 22 ) Light waves of substantially one polarization direction are selected and transmitted. Irradiation hand-held device according to one of claims 1 to 6, characterized in that the light sources ( 21 . 22 ) emit polarized and / or coherent light waves. Irradiation hand-held device according to one of the preceding claims, characterized in that a drive circuit ( 6 ) for the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) is provided, which the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) turns on and off according to a preselected control pattern. Irradiation hand-held device according to claim 9, characterized in that the drive circuit ( 6 ) is provided so that the control pattern the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) in pulse groups ( 61 ) with 20 Hz each. Irradiation hand-held device according to claim 9 or 10, characterized in that the drive circuit ( 6 ) is provided so that the control pattern the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) in pulse groups ( 61 ) with 1200 Hz each. Irradiation hand-held device according to one of claims 9 to 11, characterized in that the drive circuit ( 6 ) is provided so that the control pattern the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) in pulse groups ( 61 ) with 3 minutes duration. Irradiation hand-held device according to one of claims 9 to 12, characterized in that the drive circuit ( 6 ) is provided so that the control pattern the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) in pulse groups ( 61 ) with a pause of 20 seconds between the pulse groups. Irradiation hand-held device according to one of claims 9 to 13, characterized in that the control pattern in a programmable program memory ( 62 ) is stored after the drive circuit ( 6 ) the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ). Irradiation hand-held device according to one of the preceding claims, characterized in that a sound signaling device ( 63 ) is provided, by means of which a signal tone can be issued. Irradiation hand-held device according to one of the preceding claims, characterized in that the magnetic field source ( 4 ) as a plurality of windings substantially annular coil ( 41 ) formed around the light source field ( 2 ) is arranged in or parallel to the plane defined by the light source field plane (E). Irradiation hand-held device according to one of the preceding claims, characterized in that the light source field ( 2 ) and / or the magnetic field source ( 4 ) from the drive circuit ( 6 ) can be separated by means of a detachable connection, so that groups of different composition ( 3 ) of preselected light sources ( 21 . 22 ) can be used. Irradiation hand-held device according to one of the preceding claims, characterized in that a drive circuit ( 6 ) several light source fields ( 2 ) and / or magnetic field sources ( 4 ) can be assigned. Irradiation hand-held device according to one of the preceding claims, characterized in that the light source field ( 2 ) and / or the magnetic field source ( 4 ) on a flexible, flexible support ( 23 ) are formed. Irradiation hand-held device according to one of the preceding claims, characterized in that for supplying the light sources ( 21 . 22 ) and / or the magnetic field source ( 4 ) Foil conductor on the flexible support ( 23 ) are formed. Irradiation hand-held device according to one of the preceding claims, characterized in that the emission intensity of the light source field ( 2 ) and / or the magnetic field source ( 4 ) by the drive circuit ( 6 ) can be controlled by the current flowing through this or current duration. Irradiation hand-held device according to one of the preceding claims, characterized in that the magnetic field (B) pulsed in pulse groups ( 61 ) with pulses ( 64 ) is generated, wherein the magnetic field in a first pulse group in a first direction and then in the subsequent pulse group ( 61 ) is generated in the opposite direction. Irradiation handset after one of the before hergehenden claims, characterized in that the magnetic field (B) pulsed in pulse groups ( 61 ) with pulses ( 64 ) is generated in one direction, the last pulse ( 65 ) of the pulse group ( 61 ) is generated in the opposite direction, ie with negative amplitude.