DE202008004438U1 - Irradiation device especially for light therapy - Google Patents

Abstract

irradiator especially for light therapy with a source of radiation containing radiation head whose distance from the irradiated Area is changeable and the one with the distance measurement serving device, characterized in that the distance measuring device at least two sides and symmetrical has radiators (12 ', 12' ') provided for the light source (11), which each generate a tightly focused light beam (13) and are arranged on the irradiation head (10) such that their Radiation (13) on the irradiation surface (21) in one Cross point when the irradiation head (10) in the given Distance (a2) from the irradiation surface (21) is located.

Description

The The invention relates to an irradiation device in the preamble of claim 1 type.

With Such irradiation devices are z. B. patients with Skin diseases, eg. As with psoriasis, irradiation with UV light or light with other wavelengths depending on the type of Therapy irradiated. In these irradiations is the administration the right dose, eg. As the UV light energy, of decisive Importance. The dose administered depends on the duration of irradiation and the incident light energy, the latter in turn from the Distance of the light source depends on the irradiation surface. Because the light intensity is square with the distance of the Light source decreases from the irradiation surface, is a as accurate as possible adjustment of the distance of the light source from the irradiation area for administration an exact dose necessary condition.

The Maintaining a predetermined distance in whole body irradiation of the human body is because of its arched shape Hard to keep.

Easier this is at a Teilkörperbestrahlung, in which the Irradiation is restricted to a smaller area, which can be considered as a first approximation as a level. In this case, the distance measurement z. B. with a tape measure or be performed the same distance gauge.

Radiation equipment, integrated in the irradiation head such a distance gauge is known. These are usually the dose of radiation not by changing the distance of the light source from the irradiation surface, but by the irradiation time varied. Consequently, first the irradiation head with the light source are brought into a certain position. in this connection However, the distance measurement with mechanical gauges is cumbersome and time consuming.

So The present invention is based on the object, an irradiation device with a non-contact device for distance measurement to accomplish.

In various fields of technology measuring devices already operating with distance measuring sensors are known which operate on the transit time principle. Such as In DE 198 04 958 A1 explained, such devices require relatively expensive electronics because of the high speed of light, especially at short distances.

at Irradiation equipment in which only a predetermined distance to adjust and a distance measurement is not required are such devices unnecessarily complex.

In This task is considerably simpler in the case of the irradiation device the type mentioned in the preamble with those in the characterizing part of the claim 1 specified means solved.

To This proposal is a distance measuring device is provided, which at least two bilateral and symmetrical to the light source provided Emitter has, each one closely bundled Generate light beam. These emitters are at the radiation head arranged their rays on the irradiation surface then intersect at a point when the irradiation head in the given Distance from the irradiation surface is located.

Of the Consequently, the user needs to set the necessary distance only to adjust the radiation head until the rays on the irradiation surface at one point.

to Generation of tightly focused light rays are suitable, as proposed in claim 2, particularly good laser modules.

In Typically, these laser modules can be at a fixed angle be mounted on the irradiation head, since the dose of radiation through Changing the irradiation time is determined.

in principle However, it is also possible to influence the irradiation dose the angular position of the spotlights and thus the distance to be set to change the light source from the irradiation surface. However, it is advisable to synchronize the angular positions of the spotlights to change, so that the position of the intersection not changed with respect to the light source.

So it is another advantage that with the invention Distance measuring device optimally positioned the irradiation source can be. By means of the same device, the radiation meter, with which determines the existing radiation intensity or the skin tester to determine skin sensitivity be positioned.

A Further improvement of the operating comfort will be according to the proposal according to claim 4 achieved in that the radiator, in the embodiment, the laser modules, in process the irradiation head turned on and after a predetermined After-run time can be switched off automatically.

Of the The invention is based on a in the drawings schematically illustrated embodiment explained in detail.

In show the drawings

1 partially sectioned side view of an irradiation head above an irradiation area with marked beams of the laser modules in a first position,

1a Partial supervision of the irradiation area 20 in 1 .

2 Arrangement according to 1 in a second position,

2a Supervision of the irradiation area according to 2 .

3 Arrangement according to 1 in a third position and

3a Supervision of the irradiation area according to 3 ,

Of the inventively embodied radiation device, which serves the light therapy of patients with skin diseases, is in the 1 to 3 only the radiation head 10 shown. Inside the downwardly open housing 15 are as light sources fluorescent lamps 11 arranged, which in the direction of the irradiation surface 21 of the irradiation object 20 Emit UV light. Both sides of the fluorescent lamps 11 are symmetrical to each other and to the fluorescent lamps 11 laser modules 12 ' and 12 '' arranged, which in the direction of the irradiation object 20 , in the direction of a patient, rays 13 submit.

In arrangement according to 1 in which the irradiation head 10 a distance a1 to the irradiation surface 21 takes, intersect by the laser modules 12 ' and 12 '' emitted rays 13 above the surface 21 of the irradiation object 20 , That leads to how in 1a indicated that on the irradiation surface 21 spaced two points of light 22 ' and 22 '' be imaged. For the operator of the irradiation device, this is an indication that the irradiation head 10 not yet the given distance to the irradiation surface 21 occupies. The radiation head is for correct positioning 10 in the direction of the arrow b down to the position according to 2 to proceed. In this position the radiation head has 10 the predetermined distance for a correct dosage a2. The of the laser modules 12 ' and 12 '' emitted rays 13 intersect in one on the irradiation surface 21 located point 22 , so that only one point of light is imaged on this.

Will the radiation head 10 in the direction of arrow b further down, the distance a3 from the irradiation surface 21 takes, the move from the rays 13 on the irradiation surface 21 generated light spot 22 ' and 22 '' apart again, as with the 3 and 3a is illustrated.

Basically, the angular position of the laser modules is required 12 ' and 12 '' not to be changed if only the irradiation time is to be changed to adjust the dosage.

However, it is also possible in principle, the angle of the laser modules 12 ' and 12 '' and thus the on the irradiation surface 21 impinging rays 13 to change to set a different distance a2 at which the rays 13 in one point 22 on the irradiation surface 21 to meet. To change the angle of the rays 13 can the laser modules 12 ' and 12 '' are each pivoted about an axis perpendicular to the plane extending clockwise or counterclockwise axis. In the desired position they are by means of an adjusting screw 14 set.

Another advantage of the invention with the irradiation head 10 provided laser modules 12 ' and 12 '' is that of the rays 13 generated light spot 22 the exact center of the irradiation area 21 indicates incident radiation. Thus, the therapist operating the irradiation device can use the irradiation head 10 also position exactly in the horizontal direction.

10

irradiation or lamp head

11

fluorescent lamps

12 ' 12 ''

laser modules

13

radiate

14

adjusting screw

15

casing

20

irradiation object

21

irradiation area

22 22 ', 22' '

points of light

a1 to a3

vertical distance of the irradiation head 10 from the irradiation area 21

b

Direction of movement of the irradiation head 10

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19804958 A1 [0007]

Claims (4)

Irradiation device, in particular for light therapy with an irradiation head containing the irradiation source, whose distance from the surface to be irradiated is variable and which is combined with a distance measuring device, characterized in that the distance measuring device at least two sides and symmetrical to the light source ( 11 ) provided emitters ( 12 ' . 12 '' ) each having a narrow beam of light ( 13 ) and thus at the irradiation head ( 10 ) are arranged so that their rays ( 13 ) on the irradiation surface ( 21 ) at a point when the irradiation head ( 10 ) at the predetermined distance (a2) from the irradiation surface ( 21 ) is located. Irradiation device according to claim 1, characterized in that the radiator laser modules ( 12 ' . 12 '' ) are. Irradiation device according to claim 1 or 2, characterized in that the angular positions of the radiator ( 12 ' . 12 '' ) with respect to the irradiation area ( 21 ) are synchronously changeable. Irradiation device according to claim 1, 2 or 3, in particular with an electrically height-adjustable irradiation head, characterized in that the radiators, in particular the laser modules ( 12 ' . 12 '' ), in procedures of the irradiation head ( 10 ) are turned on and off automatically after a predetermined delay time.