SE536325C2 - Device for external medical treatment by means of light with a moving light image - Google Patents

Abstract

SUMMARY The invention relates to a device for medical treatment by means of light for relieving and / or curing various disease states. The device comprises a light emitting means (1) arranged to abut or be held close to the body (10, 11, 12) for it. The light emitting means comprises in an individual and a drive device light emitting means. LEDs or the like (5, 6), which LEDs are of different types and which are arranged to emit light in different directions (10, 11, 12) to emit a wavelength range. The drive device is arranged to control the light emitting means (1) or more lights for one or more predetermined times and arranged to pulsate emit said light according to a predetermined pulse frequency or series of pulse frequencies at said times. The light emitting means further comprises one and one surface (4 ') which supports the LEDs and there is a certain distance between two adjacent LEDs. The invention is characterized in that the diode surface (4 ') has a single-shaped shape for adaptation to the body part (8) which is to be (l5, l6) for sequential or otherwise predetermined control of treated and that an electric driving circuit is the arranged LEDs which driving circuit is connected to a or several (5,6) slacken them so that a moving light image appears over the crooked LED surface (4 '). The diode surface (4 ') of the individual LEDs and arranged to ignite and may be preformed in a single material or built up of a flexible material abutting the body part (8) to be treated, the shape of the diode surface being determined by the outer shape of the body part. h: \ docworkkznsearchstextdoc, 2010-12-03 100233EN

Description

536 325 muscle pain, joint pain, headache, various inflammatory conditions, various skin conditions such as acne, back pain, etc., provided that the candles are emitted in a certain way. In this case, the light treatment has a favorable effect on the healing process for injuries and it relieves and / or cures various diseases.

The device has also been used with great success for special treatment, for example for diabetic foot ulcers and in elderly care and further in aesthetics and equestrian sports.

There is thus an insight that light treatment by emitting certain light in certain frequency series gives a significantly increased effect in the form of shortening the time for a disease to cure or alleviate a disease.

Since the light treatment is assumed to have an effect already at the cellular level, it is desirable to use a dynamic light image and that the entire area of the body to be treated receives an equal amount of light over time.

A problem with the mentioned devices, for example those described in Swedish patent 502 784 above, is that the treating staff, in order to meet the requirement for a dynamic light image and as equal a quantity of light over time as possible, must perform an oscillating movement with the light emitting means, when abutting or held close to the area of the body of the individual to be treated. The reason for this is that the LEDs, which are arranged at the bottom of the light emitting member, have a certain geometric distribution and are of different types, so that there is a certain distance between two nearby LEDs of the same type. Thus, in order for the whole area to be treated to be exposed to as even illumination as possible, the light emitting means must be moved back and forth over the area. 20 25 30 536 325 Since a treatment typically takes about two to ten minutes, it is very burdensome for the staff to perform such a treatment often.

It is therefore previously known to arrange an eccentric device between the housing of the light emitting member and the plate, which in this case the eccentric device comprises a first part, which is fixedly supporting the LEDs, see Swedish patent 515 992. arranged relative to the housing and a second part, which is connected to the LED plate and a spring which prevents rotation of the plate. An electric motor is arranged to drive the eccentric device, whereby the plate with the LEDs performs an oscillating movement.

It is also previously known to arrange an electric motor fixed relative to the housing of the light emitting member and which is connected to the LED plate via a drive shaft, see Swedish patent 515 991. Hereby the plate with the LEDs will perform a rotating movement, whereby it is obtained overall. a more even lighting and increased cellular response in the area to be treated.

A disadvantage of the devices described above in order to achieve the required oscillating or rotating movement is that they are both based on a mechanically generated movement pattern, where expensive and relatively heavy components are built into the device. This in turn leads to higher production costs, increased wear and thus increased costs for maintenance and the risk of complaints. Requests for as friction-free components as possible lead to tight tolerances during manufacture and strict requirements when assembling the moving parts.

A further disadvantage of today's equipment for creating an even illumination is that the mechanically generated movement pattern takes place in one plane and thus limits the geometry of the diode plate to such a plane. If the illuminated surface is also flat, this is not a problem, as even and sufficient illumination is obtained over the surface. But in reality, the surface to be treated is rarely flat. There is therefore a desire to increase the degree of freedom with respect to the geometric shape of the diode plate so that it becomes more adapted to the body part to be treated.

The present invention solves this problem by giving the diode surface a curved shape and replacing the mechanical rotation with an electronically generated movement pattern. An electronically generated movement pattern provides significantly greater freedom with respect to the desired movement along the body part to be treated and does not include any mechanically moving parts. It provides an opportunity to design the diode plate into a shape which is adapted to the body part to be treated. It also provides an opportunity for a more arbitrary movement along the body part to be treated.

The present invention thus relates to a device for medical treatment externally by means of light. The device comprises a light emitting means arranged to abut or held close to the body of an individual and a drive device for the light emitting means, which light emitting means comprises LEDs or the like which LEDs are arranged to emit light in different wavelength ranges, where the drive device is arranged to control the light emitting means for emitting one or more lights during one or more predetermined times and arranged to pulsate emitting said light according to a predetermined pulse frequency or series of pulse frequencies during said times, the light emitting means comprising a housing and a surface, which supports the LEDs and where the LEDs are applied, for example, in matrix form on said surface, so that there is a certain distance between two adjacent LEDs.

According to the invention, the diode surface has a curved shape for adaptation to the body part to be treated and an electric drive circuit is arranged for sequential or arbitrary control of the LEDs, which drive circuit is connected to one or more of the individual LEDs and arranged to turn on and off. them, so that a moving light image appears over the curved LED surface.

According to an advantageous embodiment, the LEDs are arranged in matrix form in rows and columns on the curved surface.

In the following, an exemplary embodiment of the invention will be described in more detail with reference to the accompanying drawings, in which - Figure 1 shows a previously known light emitting means in a side view, - Figure 2 shows a light emitting means according to the invention in a side view, - Figure 3 schematically shows a block diagram over a device according to the invention - Figure 4 schematically shows some different examples of suitable diode surfaces and - Figure 5 shows an example how the surface-mounted LEDs can be applied Figure 1 shows in general a device for medical external treatment by means of light comprising a light emitting means 1 , arranged to abut against or held close to the body of an individual, for example an arm or a leg 8. The light emitting member is shown in the figure from the side and comprises a housing 2 provided with a transparent disc 3. Below this disc 3 inside the housing there is a surface 4, in which a number of LEDs 5,6 are mounted in matrix form, see figure 3. The LEDs a 5,6 are arranged to emit light through the disc 3 when they are supplied with current via a cable 7. In use, the housing 2 is held so that the disc abuts or near the relevant body part of, for example, a person whose wound injury is to be treated. Furthermore, the device comprises a drive device for the light emitting means, see the block diagram in figure 3, where also the light emitting means 1 is shown from below. The drive device is arranged to control the light emitting means 1 to emit different monochromatic lights of different wavelengths during different predetermined times and to emit said light pulsating according to a predetermined pulse frequency or series of pulse frequencies during said times. The parts of the invention which have been touched upon so far are not described in more detail here, but reference is made to the above-mentioned Swedish patents.

As can be seen from Figure 1, the surface 4 in which the LEDs 5,6 are mounted is substantially flat. This is due to the previously mechanically generated movement pattern. As can be seen from the figure, the lighting will then only be optimal on a small part of the body part in question, indicated by the arrow B. This means that the equipment must be moved frequently around the body part.

By generating the diode movement electronically, it is possible to design the diode surface 4 'curved as shown in Figure 2.

In this way, the diode surface can be adapted more to the body part to be treated. In use, the housing 2 is held so that the curved disc 3 'rests against or close to the relevant body part. Then a larger part of the body part can be illuminated, as indicated by the arrow B '. The drive device for the light emitting means comprises in a known manner a computer 10 for controlling drive circuits 11,12, which drive circuits are supplied with signals from the computer for in turn driving the LEDs via the conductor 7. To the drive device or the computer is connected a keyboard 13, by means of which the operator can key in data in order thereby to control the drive device to control the light emitting means in the desired manner. Conveniently, there is also a display 14 for displaying the settings made by means of the keyboard 13. The device further comprises an electric drive circuit arranged for sequential or otherwise predetermined control of the LEDs, which drive circuit is connected to the individual LEDs and arranged to switch the LEDs on and off, for example in sequence, so that a moving light image appears over the LED matrix. surface. Figure 3 schematically shows this drive circuit connected to the rows and columns of the diode matrix. According to an advantageous embodiment, the drive circuit comprises a separate drive circuit 15 arranged to control one or more rows of LEDs in the matrix and a separate drive circuit 16 for controlling one or more columns of LEDs in the matrix. The drive circuits 15,16 are connected to the computer 10 and a suitable power supply (not shown). The computer processor can, by default, control the drive circuits for rows and columns in the diode array so that a suitable moving light image appears over the surface of the diode array. By turning on and off the individual LEDs in sequence, the light intensity travels across the surface. A light pulse / light image appears and an arbitrary movement, for example a circular motion can be generated, regardless of whether the diode surface is flat or curved. This movement replaces the previously mechanically generated movement of the light emitting member, which for mechanical reasons was limited to flat surfaces.

Figure 4 schematically shows some examples of suitable surface geometries adapted for the treatment of different body parts: single curved surface in figure 4a, double curved surface in figure 4b, tubular surface in figure 4c and flexible, body-shaped surface in figure 4d .

The surfaces can be built up of a preformed, rigid material, but they can also advantageously be built up of a flexible material. In the latter case, the lighting device can be in contact with the body part in question and the shape of the diode surface is determined by the external shape of the body part. In the case of preformed, rigid diode surface, this is kept at a suitable distance from the body part during the treatment.

Figure 5 shows an example of how the surface-mounted LEDs 5,6 can be applied in a flexible “light mat” 17 with a shape which is adapted to the current body part. The material consists, for example, of a soft plastic material, which has a certain "stretch". The LEDs can be equipped with built-in optical lenses to provide the desired light image for the individual LEDs compared to the scattering angle they have in them. The LEDs with optics are molded in a translucent material 18, soft plastic material, such as polyethylene or the like, which acts as a spacer element so that a suitable distance between the LEDs / optics and the current body part is maintained. In this way, the LED mat, the cushion 17, can be easily laid against or clamped to the body. The LEDs are connected to the drive circuits via flexible PCB, flexible printed circuit board, so-called flexiboard 19.

Thanks to the increased degree of freedom with regard to the shape of the diode plate, a treatment equipment can be provided with several different lighting fixtures for different applications. The equipment may, for example, comprise a number of fixed, predetermined shapes in case one does not want physical contact with the body during the treatment operation and one or more flexible diode mats, of model sock, belt, armband, bandage, blanket, for the case that the body part in question can determine the shape through contact. The invention is not limited to the above-mentioned embodiments but can be varied within the scope of the appended claims. The invention is thus not limited to the diode shapes described above but can be applied to all kinds of preformed or flexible bandages and bandages for medical treatment externally. The invention is also not limited to any special layout or any specific movement pattern for the surface-mounted LEDs. It is further understood that the LEDs may be distributed over the entire curved diode surface or only over a part thereof.

Claims (7)

20 25 30 536 325 10 PATENT REQUIREMENTS A device for medical treatment externally by means of light comprising a light emitting means (1) arranged to abut or held close to the body of an individual and a drive device (10, 11, l2) for the light emitting means, which light emitting means comprises LEDs or the like (5,6), which LEDs are arranged to emit light in different wavelength ranges, wherein the drive device (10, 11, l2) is arranged to control the light emitting means (1) to emit one or more lights during one or more several predetermined times and arranged to pulsed emit said light according to a predetermined pulse frequency or series of pulse frequencies during said times, which light emitting means comprises a housing (2) (4 '), the LEDs are arranged so that there is a certain distance. and a diode surface carrying the LEDs and standing between two adjacent LEDs, wherein a driving circuit is connected to one or more of the individual LEDs (5, 6), characterized by the combination that the diode surface (4 ') is built up of a flexible material for abutment against (8), is determined by the outer shape of the body part (8) which is to (l5, l6) is arranged for sequential or otherwise predetermined controlled body part to be treated, wherein the shape of the diode surface is treated and that said electric drive circuit of the LEDs and arranged to turn on and off them so that a moving light image appears over the LED surface (4 ') to achieve a moving light pattern for light treatment. Device according to Claim 1, characterized in that the LEDs (5, 6) are arranged in matrix form in rows and columns on the curved surface (4 '). 20 25 30 536 325 11 Device according to claim 1, characterized in that the diode surface (4 ') is preformed in a rigid material. Device according to claim 1, 2 or 3, characterized in that the surface-mounted LEDs (5, 6) are applied in a flexible "light mat" (17), which is arranged in whole or in part to enclose the body part in question. Device according to claim 1, 2, 3 or 4, characterized in that the surface-mounted LEDs (5,6) are provided with optical lenses to provide the desired light image for the individual LEDs compared to the scattering angle they have in them. Device according to claim 5, characterized in that the LEDs with optics are cast in a translucent material (18), which acts as a spacer element so that a suitable distance between the LEDs / optics and the current body part is maintained. Device according to one of the preceding claims, characterized in that the LEDs are connected to the drive circuits via flexible PCB, flexible printed circuit board or the like. dyl., s.k. flexiboard (19).