RU96107480A

RU96107480A - THERAPEUTIC LAMP

Info

Publication number: RU96107480A
Application number: RU96107480/14A
Authority: RU
Inventors: Хейнц Боллетер
Original assignee: Биоптрон АГ
Priority date: 1994-08-12
Filing date: 1995-08-14
Publication date: 1998-07-10

Claims

1. Therapeutic lamp for biostimulation by polarized light, containing mainly made as a point light source with a power of mainly from 30 to 300 W, a reflector (17) in the form of a paraboloid of revolution with a certain focus, which is located behind the light source so that the focus basically coincides with a point source to reflect the bulk of the light emitted forward in the form of a parallel beam of rays; Brewster’s polarizer (5), which is located in the beam to create polarized light at the exit, which propagates in a certain direction and has a cross section of at least 100 cm ² ; a light filter (7), which is permeable to components with a wavelength of more than 400 - 450 nm; a composite body (2), which is mainly made of synthetic material and is formed by the first tubular part (3) with the first axis (31) and the base normal to the first axis (31) and the second tubular part (4) with the second axis (32), which makes the angle corresponding to the double Brewster angle with the first axis (31), i.e. approximately 114 ^° , and the tubular parts (3, 4) basically have the same circular cross sections and are attached to each other, the reflector (17) with a light source fixed on the first tubular part (3) so that between them has one hundred sealed connection, and the first and second tubular parts (4) are cut off along a plane that runs normally to a plane containing the first and second axes (32), so that the plane basically cuts the total cross section of both tubular parts (3, 4), and the section plane basically forms the same angles with the first and second axes (32), as a result of which the hole is limited by an elliptical contour, and the hole is closed by a polarizer (5), as well as a glass holder (6) of a heat-conducting material with an increased heat-conducting material side, and the filter (7) is located in the front section of the second tubular part (4), closing its inner space, and a toroidal transformer (19) to power the light source in the first tubular part (3), which is located under the reflector (17), moreover, the first tubular part (3) has a rectangular hollow part (8), which extends along the front surface of the latter and ends in the second tubular part (4), and the electrical circuits for operating the light source are located in the cavity of the rectangular hollow part (8) of the first pipe part (3), and the Brewster’s polarizer (5) is composed of a mirror sandwich of a large number of thin plane-parallel polarizing glass plates, which are directly and congruently superimposed on each other and fixed in a glass holder (6), which is equipped with channels (26) for cooling air , while in the cavity of the rectangular hollow part (8) of the first tubular part (3), a fan (10) is additionally located, which sucks the flow of cooling air from the surrounding space and drives it past the reflector (1 7) and through the channels (26) for the cooling air of the Brewster polarizer (5) back out.

2. The therapeutic lamp according to claim 1, characterized in that the light source is a metal halide lamp (16) and around the circumference of the toroidal transformer (19) there is a first annular channel (20) for cooling air through which a part of the stream created by the fan (10) is passed cooling air.

3. The therapeutic lamp according to claims 1 and 2, characterized in that between the rear side of the reflector (17) and the toroidal transformer (19) a second annular channel (24) for cooling air is formed.

4. The therapeutic lamp according to claims 2 and 3, characterized in that the toroidal transformer (19) is directly connected with the possibility of heat transfer to the base (21) of the therapeutic lamp, which is equipped with cooling fins (25) on its inner side facing the lamp housing (2) ), and the hole (23) for the release of cooling air is made in the lamp housing (2) in the region of the outer perimeter of the base (21) in the region of the bases of the cooling fins (25).

5. The therapeutic lamp according to claim 1, characterized in that the base (21) is provided with cooling grooves (29) on its outward facing outer side.

6. Therapeutic lamp according to claims 1 to 5, characterized in that the housing (2) has several legs (12, 13) located at a distance from each other, which extend from the front region of the second tubular part (4) mainly parallel to the first axis (31) and which continue with a horizontal rod (14), and from the base of the rectangular hollow part (8) a horizontal protrusion (15) extends to secure the ends of the horizontal rod (14).

7. The therapeutic lamp according to claim 1, characterized in that the lamp (16) during operation burns with a lack of temperature, so that the color temperature during operation lies between 3000 and 3200K.

8. The therapeutic lamp according to claims 1 to 7, characterized in that the electronic circuits contain a timer for setting the duration of the lighting periods and a circuit for the slow rise of the current flowing through the light source.