DE2937158A1 - Therapeutic radiation lamp unit - has two filters selecting desired waveband and allowing use of conventional incandescent lamp - Google Patents

Abstract

The lamp unit has two infra-red filters (3,4): the first transmits wavelengths lying between 900 and 1100 nm; the second transmits wavelengths between 700 and 900 nm. Each filter has a transmission max. in the region of the other's transmission min. The lamp is a low-voltage halogen lamp. The filters are 350 mm in dia., 30 mm apart, and ground and polished to a thickness of 4.5 mm.. The radiation lamp is simple and cheap. The lamp may be a standard incandescent lamp readily available commercially. The filters only allow radiation within a narrow range of wavelengths to be transmitted.

Description

The invention relates to an irradiation device for human

union body from a lamp arranged in front of a reflector and an infrared filter with a spectral working range of 800 to 1200 nm.

Such an irradiation device is from the German Offenlegungsschrift 28 0i 552 known and consists of a xenon high pressure lamp in front of a reflector is arranged and whose light passes through a colored hard gas filter, a so-called Edge filter, is passed to the radiation up to a wavelength of 800 nm filter away as much as possible.

The purpose of this arrangement is to provide an irradiation device for the human To create bodies that are essentially short-wave infrared rays of type A. whose therapeutic depth effect is known, while lanprellige Infrared rays of types B and C cause skin burns and do not have a deep penetration own.

The disadvantage of this known irradiation device is that a xenon lamp with an electronic control unit is essential to detect infrared rays of the type A using the filter mentioned in the laid-open specification.

Such a Irradiation device is therefore very expensive, so that one general introduction limits are set.

The invention is based on the object of providing an irradiation device To create the type mentioned at the beginning that is easy and inexpensive to use commercially available filament lamps can be produced and only a narrow beam transmits limited wavelength range.

This task is solved by an infrared filter combination of two filters arranged one behind the other in the light outlet area of the lamp, whose one a spectral transmittance maximum from about 900 to 1100 nm and the others have a spectral transmission maximum of about 700 to 900 nm, and each of which is in the range of the maximum transmittance of the other filter has a lower permeability.

Filters with the properties mentioned are available in stores and, when connected in series, cause the maximum permeability of the filter combination lies at the intersection of the transmission curves of both filters.

In this way, there is a narrowly limited, precisely defined maximum permeability the filter combination that precisely matches the wavelength range with the best therapeutic The filter combination is practical on both sides of the maximum permeability impermeable to rays of longer and shorter wavelengths than the maximum permeability, so that neither visible light nor type B and C infrared rays pass through the filter combination get through. This property of the filter combination makes it possible to use conventional Use filament lamps whose rays cover the entire wavelength range from the visible Including light to very long-wave infrared rays, but of which only the aforementioned Area finds therapeutic use.

Filters with the properties according to the invention are known and will be from the company Jenaer-Glas Werk Schott and Comrades under the type designation RG 830 and RG 9.

If these two filter types are combined with each other, that is the case Maxima of negligence at about 875 nm, i.e. exactly in the range of infrared rays des Xps A, while for wavelengths of 800 nm a transmittance of less than 5% and for wavelengths above 1100 nm a transmission of about 50 and less is given.

The irradiation device preferably consists of a hollow one Glass filter reflector, in front of the opening of which the filter combination is arranged and at the focal point there is a filament lamp. Preferably it acts For the lamp there is a low-voltage halogen lamp.

For the best possible use of the quartz lamp without overheating the diameter of the filter is preferably about 350 mm and the filters are in one mutual distance of about 30 mm arranged Another 4measure to a To avoid overheating, there are ventilation openings z ## i # above the filters.

The filters are preferably hardened, polished and ground; she can have a thickness of about 4.5 mm, creating a favorable compromise between mechanical strength and filter effect is achieved.

An embodiment of the invention is hereinafter referred to explained on the drawing.

The irradiation device according to the invention consists of a hollow one Glass filter reflector 1, which is designed as a parapoloid or ellipsoid, and in the focal point of which a commercially available filament lamp 2 is arranged. The lamp 2 is axially adjustable and therefore focusable, so that the generated by the lamp If necessary, beam with the aid of a diaphragm, not shown Have a small or a larger area of the human body straightened. In order to only type A infrared rays emanating from the lamp are in the exit aperture of the reflector 1 two infrared filters 3.4 arranged at a distance from each other.

The inner filter 3 facing the filament lamp 2 is an edge filter of the company Jenaer-Glas Werk Schott and comrades of the type RG 830 and the outer filter 4 is an edge filter from the same company of the type RG 9. The transparency curves Both of these filters run in such a way that the RG 830 filter has the maximum permeability is around 1000 nm, while the RG 9 filter has the maximum permeability is at 800 nm. For the two filters connected in series, this means that the maximum transmission for both is about 875 nm, while in direction smaller and larger wavelengths the transmittance drops very quickly. Consequently only type A infrared rays pass through this filter combination, while Short-wave rays, especially visible light and long-wave infrared rays of types B and C are completely filtered out.

Infrared rays A have the property of penetrating the skin with selenium r and to apply heat to greater depths of the tissue. The irradiation device according to the invention is intended for the healing of rheumatism, sciatica and isolated tumors. Short wave Type A infrared rays do not heat the epidermis, but are released from it absorb and pass through the human body. The internal warming reaches temperatures up to about 430C. The application of infrared rays from the Type A with a wavelength of 800 to 1000 nm on the human skin with a power density from 6 to 10 x 10 2 W / cm2 is considered harmless. For comparison: have sun rays a radiation density of approx. 1.35 x 10 2 W / cm2.

On the circumference of the reflector 1 are in the area between the filters 3.4 ventilation slots 5 arranged, which serve to dissipate the radiant heat. Corresponding ventilation slots can also be in the reflector 1 are located in front of the filter 3. The reflector 1 is by means of a ball joint 6 attached to a stand. The stand has an upper stand tube 7, the Slidably guided in a lower stand tube 13 and by means of a Kle-mmutver 14 can be determined. The lower stand tube 13 rests on a three-pillar foot 8 with Rollers 9. A transformer 10 is arranged in the area of the three-pillar base 8, the one hand via a connecting cable 11 and a plug 12 with a normal Voltage source of 110 volts or 220 volts is connected and on the other hand serves to to generate a low voltage of about 24 volts for the incandescent lamp 2.

The irradiation device according to the invention is very light and can be produce inexpensive because of the simple components. As a result of the invention Use of the filters 3, 4 with coordinated permeability curves it is possible to use a completely normal filament lamp 2, reducing the manufacturing costs are favorably influenced. L e r s e i t e

Claims (6)

"Irradiation device" claims: 1. Irradiation device from a lamp arranged in front of a reflector and an infrared filter with a spectral Working lever from 800 to 1200 nm g e -k e n n n z e i n e t d u r c h an infrared filter combination of two one behind the other in the light exit area of the lamp (1,2) Filters (3, 4), one of which has a maximum spectral transmission of 900 to 1100 nm and the others have a spectral transmission maximum of 700 to 900 nm and each of which is one in the region of the maximum permeability of the other filter has low permeability. 2. Irradiation device according to claim 1 g e k e n n z e i c h -n e t through a hollow-shaped flat filter reflector (1), arranged in front of its opening Filter (3, 4) and a filament lamp (2) arranged approximately at the focal point. 3. Irradiation device according to claim 2 g e k e n n z e i c hn e t d u r c h the use of a low-voltage halogen quartz lamp (2). 4. Irradiation device according to one or more of claims 1 to 4, the filter (3, 4) has a diameter of 350 mm and a mutual distance of 30 mm. 5. Irradiation device according to claim 4 g e k e n n z e i c h -n e t d u r c h arranged in the reflector (1), in particular in the area between the filters (3, 4) Ventilation openings (5). 6. Irradiation device according to one or more of claims 1 to 5, g e k e k e n n n z e i c h n e t d u r c h hardened, polished and ground filters (j> #, i #) with a thickness of 4.5 mm.