CZ103396A3 - Therapeutic lamp - Google Patents

Abstract

A therapeutical lamp is disclosed for biostimulation with polarised light. The object of the invention is to develop such a therapeutical lamp with a design that on the one hand makes it easy to handle and on the other hand allows an optimum operation, for example as far as cooling is concerned. This object is achieved by the design of the lamp housing (3, 4), the design and mounting of the Brewster polariser (5), including the glass frame (6), by a special arrangement of ring transformer (19), reflector (17) and ventilator (10), and by a special cooling air guidance.

Description

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Therapeutic lamp

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a polarized light biostimulation therapeutic lamp comprising an integral housing, in particular a plastic material, which is formed by a first pipe and a second pipe. A light source having a power of between 30W and 300W is formed in the housing, formed as a point source that is located at the focal point of the rotationally parabolic reflector to reflect the major portion of the light that is coupled with the light source in the first tube so as to form between them. sealed connection. A light filter plate transparent to wavelength components over 400 nm to 450 nm is mounted at the upper end of the second tube. The first central axis of the first tube forms an obtuse angle of about 114 ° with the second central axis of the second tube, which corresponds to the double Brewster angle. The tubes have the same circular cross-sections and are cut according to a cutting plane that forms the same angle with the first and second central axes and extends vertically to the plane containing the central axes, thereby forming an opening bounded by an elliptical contour line. The Brewster polarizer opening with a beam having a cross-section of at least 100 cm 2 is closed by a thermally conductive material and an enlarged heat-dissipating back side. In the first tube, a toroidal transformer is placed under the reflector for supplying the light source, and a rectangular hollow portion ends up on the front region of the first tube and ends on the second tube. In the rectangular inner space of the rectangular hollow part there are placed electrical switching circuits for the operation of the light source and the Brewster polarizer (5) consists of a mirror sandwich made of planar parallel glass discs.

DE 32 20 218 discloses a known general biostimulating effect of polarized light. FIG. 5 shows a therapeutic lamp using a polarizing filter. The therapy lamp is suitable for 2 light beams with a diameter of about 55 mm and bulb power of 150 W. The bulb produces a lot of heat and is cooled by a fan. For many applications, however, it is worthwhile to irradiate a larger average area than 100 to 300 cm, whereby, for example, the power of the light bulb would have to be up to six times, causing serious cooling problems and problems with handling the lamp due to very heavy wiring for the desired performance.

SUMMARY OF THE INVENTION

These drawbacks are largely eliminated by a polarized light biostimulation therapy lamp consisting of an integral housing, in particular of plastic material, which is formed by a first pipe and a second pipe, with a light source having a power output of between 30W and 300W, formed as a point source. which is located at the focal point of a rotationally parabolic reflector for reflecting a major portion of the light forward, which, together with the light source, is fixed in the first tube so that a sealed connection is formed between them, and a light filter plate transparent to the components is fixed at the upper end of the second tube wavelengths above 400nm to 450nm, wherein the first central axis of the first tube forms an obtuse angle of about 114 ° with the second central axis of the second tube, which corresponds to the double Brewster angle, the tubes having the same circular cross-sections and being cut according to the cutting plane y, which forms the same angle with the first and second central axes, and which extends vertically to the plane containing the central axes, thereby forming an aperture bounded by an elliptic contour line, the bore of the Brewster polarizer having a beam having a cross-section of at least 100 cm is closed thermally with a conductive material and an enlarged heat-distributing rear side, wherein a toroidal transformer is placed under the reflector in the first tube for supplying the light source and a rectangular hollow portion extending up to the second tube adjoins the front tube of the first tube, electrical circuitry for light source operation and Brewster polarizer consists of a 3-plane planar disk mirror sandwich

the glass of which the Brewster Polarizer consists of float glass discs which are immediately and coincident and are fixed in a beam in which channels are provided for flowing cooling air into the free space. In a rectangular inner space of the rectangular hollow portion of the housing, a fan with a suction side exposed to ambient air is placed in the region of the light source and the transformer connected to the electrical switching circuits, and for conveying cooling air around the reflector surface and through the channels to the free space.

According to a preferred embodiment, the light source is a halogen metal discharge lamp. A first circular channel is formed around the toroidal transformer to conduct a portion of the cooling air from the fan.

According to another preferred embodiment, a second cooling air channel is formed between the reflector surface and the toroidal transformer.

According to a further preferred embodiment, the toroidal transformer is thermally conductively connected directly to the bottom plate which is fixed at the lower end of the first tube and which is provided with cooling fins on its inner side facing the inside of the housing. A cooling air outlet is provided in the housing in the region of the outer periphery of the lower plate at the foot of the cooling fins.

According to a further preferred embodiment, the lower plate is provided with second cooling grooves on its outer side facing the free space.

According to a further preferred embodiment, the housing is provided with a pair of vertical legs spaced apart from each other, which extend from the front region of the second tube parallel to the first central axis and are connected to each other at their lower end by a horizontal bar. A horizontal projection is provided at the lower end of the rectangular hollow portion for receiving the ends of the horizontal bar.

According to a further preferred embodiment, the lamp is connected in series with the attenuator for heating the lamp below 100% and for producing a color temperature between 3000 and 3200 ° K.

According to a further preferred embodiment, the electric switching circuits are provided with a timer for adjusting the duration of the lamp illumination period 4 and the circuit to delay the increase of the lamp current.

The main advantage of the therapeutic lamp according to the invention is its simple construction allowing easy handling of the therapeutic lamp. Another advantage of the therapeutic lamp is to achieve its optimal function, for example with regard to the easy cooling of the mirror sandwich. Because the inner space is sealed and the discs are placed directly on top of each other, a longer lifetime of the therapeutic lamp with which high polarization efficiency is achieved is also achieved. By using horizontal bars, the stability of the entire therapeutic lamp is increased, while the horizontal bars simultaneously represent large handles suitable for handling or attaching the therapeutic lamp. Overview of the drawing

FIG. 1 is a longitudinal section through the therapeutic lamp; FIG. 2 is a front view of the therapeutic lamp; FIG. 3 is a plan view of the beam; FIG. 4 is a cross-sectional view of the beam; FIG. Fig. 6 is a top plan view of the bottom plate; and Fig. 7 is a longitudinal sectional view of the therapeutic lamp of Fig. 1 with the main cooling air streams. EXAMPLES OF THE INVENTION

The polarized light biostimulation light 1 with a certain intensity and wavelength, shown in Figures 1 and 2, consists of an integral housing 2, in particular of plastic material, which is formed by a vertical first pipe 3, on which a shorter, obliquely oriented second pipe is connected. The sleeve 2 is made of two mutually matched halves of plastic or foamed plastic material, the two tubes 3, 4 being formed in one piece.

First center axis J31. of the first tube 3 forms a blunt angle of about 114 ° with the second central axis 32 of the second tube 4, which corresponds to the double Brewster angle. The two tubes 3, 4 have the same circular cross-sections and are cut at the intersection of the center lines 3, 32, 5 - C r - r C frrrrtrr < - rr according to the cutting plane which forms the same angle with the center axes 21, 32, and which extends vertically to a plane containing the central axes 21, 22, thereby forming an opening bounded by an elliptical contour line having a cross section of at least 100 cm 2. The Brewster polarizer 5, which consists of a mirror sandwich placed in the beam 6, is located on the cutting plane. The mirror sandwich consists of a plurality of planar parallel identical float glass disks which lie immediately on each other, i.e.. without gaps between them. A plurality of channels 26 are provided in the beam 6 for flowing cooling air. On the outside of the beam 6, first cooling grooves 30 are formed.

The first tube 2 is formed essentially of a hollow cylinder with a cylindrical inner space adjoining a rectangular inner space formed in the rectangular hollow portion 8 / adjoining the first tube 2 in the front part and extending vertically upwards to the front part of the second tube 4, by which it supports and increases the overall stiffness of the therapeutic lamp 1. In the upper part of the rectangular interior of the rectangular hollow part 8 there are electric switching circuits 9, and in its lower part a fan 10 is placed with the suction side exposed to the ambient air, which is on its lower side on the outer side of the rectangular hollow part 8 there are control elements 27 formed by switching and / or pointing elements which act directly on the electrical switching circuits 9. , po they are powered by them. Thus, the optimal operation of the therapy lamp 1 can be achieved. The electrical switching circuits 9 are provided with a timer to adjust the duration of the illumination period of the lamp 16 and the circuit to delay the increase of the current flowing through the lamp 16.

In the vertical first tube 3, a rotationally parabolic reflector 17 with a paraboloidal reflector surface 12 / is mounted in a dust ring by means of a sealing ring, the light source of which is comprised of a halogen lamp 12 with metal pairs having an output of 30W to 300W. The lamp 16 is designed so that the proportion of UVA and UVB light emitted is at most small. The lamp 16 is connected in series with the attenuator for incandescent lamp 16 below 100% and to produce a color temperature of 6 between 3000 and 3200 ° K. Below the reflector 17 is a toroidal transformer 19 for supplying the therapy lamp 1 with an electrical current that is electrically connected to the switching circuits 9. At the lower end of the first tube 1, a lower plate 21 is mounted perpendicular to the first central axis 11, which is on its inner on the side facing the housing 2, provided with cooling ribs 25 supported by the transformer 19. between which a circular disk 22 is disposed between the reflector 7. Thus, the torch converter 19 is thermally conductively connected directly to the bottom plate 21. on the lower plate 21 is formed evenly, since a corresponding structural space is required for the fasteners or for the (transformer 19). The lower plate 21 is provided with second cooling grooves 29 on its outer side facing the free space to facilitate the transfer of heat to the outside. 19. is between its outer peripheral surface, a first circular cooling air channel 20 is formed by the inner peripheral wall of the first pipe 1, the circular disk 22 and the lower plate 21. At the lower end of the first tube 3, at least one aperture 23 is provided in the region of the outer periphery of the lower plate 21 and at the base of the cooling ribs 25. Between the circular disk 22, the reflector 17, the inner wall there is a cooling air outlet from the first circular channel 20. a second circular channel 24 for cooling air is formed by the rectangular hollow part 6. In the upper end of the second tube 4, a light filter plate 7 is fixed by means of a seal, which mechanically and tightly closes the front opening of the second light outlet tube 4. The fastening of the light filter plate 7 and the reflector 7 through the gasket results in an interior space inside the therapeutic light 1 which is mechanically and dust-tight. In particular, the light filter plate 7 is designed as a yellow filter which only transmits light components above a wavelength of about 400 to 450nm.

The housing 2 has a round support and mounting rod H, which surrounds the upper half of the second pipe 1. The mounting rod 11, together with the second pipe 4, is formed in one piece. In addition, the mounting rod 11 imparts an aesthetically pleasing shape to the housing. Downwardly, the mounting bar 11 exits the second pipe 4 and extends downwardly in the form of a first vertical leg 12 and a second vertical leg 11. The vertical legs 12, 13 are connected at their lower end to a - 7 rf 'horizontal bar 14 and are fixed on a protrusion 15 of the rectangular hollow portion 8, which is oriented towards the front. Such a construction of the housing 2 is advantageous because the therapeutic light 1 can assume a stable position in FIG. 1, in which the opening of the second pipe 4 is inclined slightly upward. For cosmetic use, the most common goal is to illuminate the face of the person being treated, which can be directly illuminated so that a person can enjoy a comfortable sitting. According to another advantageous position, the therapeutic light 1 may lie on the beam 6, whereby the second tube 4 is directed upwards and thus may illuminate the desired body part, for example the face. Since the vertical legs 13, 14 are spaced apart, the therapeutic light 1 can be conveniently held or a positioning device can be attached to the vertical legs 13., 14.

The total cooling air flow that is generated by the JLO is divided into two cooling air streams, the first of which, as shown in FIG.

the first circular channel 20, the transformer 19 and the cooling ribs 25 of the lower plate 21 are blown and finally flow through the opening 22 for the cooling air to enter the free space.

The second flow of cooling air, also seen in FIG. 7, flows directly from the fan 10 into the second annular channel 24 around the reflector 17 and then passes through the channels (not shown) formed in the vertical first tube 3 into the beam. which has a plurality of channels 26 for cooling air flow. At the upper end of the beam 6, ie. in the vicinity of the second pipe 4, a second flow of cooling air flows into the free space.

Claims (8)

- 8 - 8 f r r r r t > - 7? <? *** -? < PATENT CLAIMS 1. Biostimulation therapy lamp (1) comprising polarized light, consisting of an integral housing (2), in particular of plastic material, which is formed by a first tube (3) and a second tube (4), wherein a light source having an output power of between 30W and 300W, formed as a point source that is located in the focus of a rotationally parabolic reflector (17) to reflect a major portion of the light that is coupled with the light source in the first tube (3) so that it is between a sealed connection is formed therethrough, wherein a light filter plate (7) transparent to the wavelength components over 400nm to 450nm is fixed at the upper end of the second tube (4), the first central axis (31) of the first tube (3) forming with the second central axis ( 32) of the second tube (4) an obtuse angle of about 114 ° corresponding to the double Brewster angle, the tubes (3, 4) having the same circular cross-sections and are cut according to a cutting plane that forms the same angle with the first and second central axes (31, 32) and extends vertically to a plane containing the central axes (31, 32), thereby forming an opening delimited by the elliptical contour line, a Brewster polarizer opening (5) with a beam (6) having a cross-section of at least 100 cm 2 is closed by a thermally conductive material and an enlarged heat-distributing rear side, wherein a toroidal transformer (19) is placed under the reflector (17) in the first tube (3) a rectangular hollow portion (8) adjoins the power supply for the light source and on the front region of the first tube (3), and the electrical switching circuits (9) are located in the rectangular interior of the rectangular hollow portion (8) for the operation of a light source and the Brewster Polarizer (5) consists of a mirror planar plate sandwich made of glass, characterized by in that the Brewster Polarizer (5) consists of float glass thin discs which lie immediately and coincidently in a beam (6) in which channels (26) are formed for flowing cooling air into the free space wherein a fan (9) is located in the rectangular interior of the rectangular hollow portion (8) of the housing (2) in the region of the light source and τ / s rc-y-9 -phosphor (19) connected to the electrical switching circuits (9). 10) with the suction side exposed to ambient air and for conveying cooling air around the surface (18) of the reflector (17) and through the channels (26) to the free space. Therapeutic lamp according to claim 1, characterized in that the light source is a metal-halogen halogen lamp (16), wherein a first annular channel (20) is formed around the toroidal transformer (19) for guiding a portion of the cooling air from the fan (10). ). Therapeutic lamp according to one of Claims 1 and 2, characterized in that a second cooling air channel (24) is provided between the reflector surface (18) and the toroidal transformer (19). Therapeutic lamp according to one of Claims 1 to 3, characterized in that the toroidal transformer (19) is thermally conductively connected directly to the bottom plate (21) which is fixed at the lower end of the first tube (3) and which is provided with cooling fins (25) in the inner side facing the inside of the housing (2), and a cooling air outlet (23) is provided in the housing (2) in the region of the outer periphery of the lower plate (21) at the base of the cooling fins (25). Therapeutic lamp according to claim 4, characterized in that the lower plate (21) is provided with second cooling grooves (29) on its outer face facing the free space. Therapeutic lamp according to one of Claims 1 and 4, characterized in that the housing (2) is provided with a pair of vertical legs (12, 13) arranged at a distance therebetween which extend from the front region of the second tube (4) in parallel with the first central axis (31) and are connected at their lower end by a horizontal bar (14), wherein a horizontal projection (15) is provided at the lower end of the rectangular hollow part (8) to hold the ends of the horizontal bar (14). 7 ~ 7Z c t t r r. - - c r f f - 10 - Therapeutic lamp according to claim 2, characterized in that the discharge lamp (16) is connected in series with the attenuator for heating the lamp (16) below 100% and for producing a color temperature between 3000 and 3200 ° K. Therapeutic lamp according to claim 1, characterized in that the electrical switching circuits (9) are provided with a timer for adjusting the duration of the lamp illumination periods (16) and the circuit to delay the current flowing through the lamp (16).