CZ285581B6 - Therapeutic lamp emitting polarized light for hand-held usage - Google Patents

Abstract

The treatment lamp (1) consists of a housing (2) which is formed by a handle (21) with a fan (4), a central portion (22) and a front portion (23). A light source arrangement (3) consisting of a reflector (36) with a discharge lamp (42), in front of which a Brewster polarizer (33) is provided with a closing plate (37), which consists of a mirror sandwich of thin, planar parallel float glass discs (34) which lie directly and coincidently on one another and which are fixed in the beam (35). An air passageway (26) is formed between the light source arrangement (3) and the inner wall of the housing. The light source arrangement (3) has a pair of hollow tubes (31, 32) connected together, which are cut by a plane between which the Brewster angle is clamped between the normal and the two axes. The reflector (36) is connected to the first tube (31). Slots (25) are provided in the handle (21) to remove air from the interior. Behind the lamp (42), a mounting plate (38) is located laterally on the housing (2) in the cooling air flow

Description

Medical torch for manual use, emitting polarized light

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a therapeutic torch for manual use, emitting polarized light, comprising a housing and a handle formed in one piece. In the housing there is a light source arrangement consisting of a reflector, behind which a fan is placed, and in front of which there is an immediate discharge lamp with an electrical power of not more than 100 W, in front of which is a polarizer arranged in the light beam emitted by the lamp; filtering the ultraviolet spectral components of the emitted light. The polarizer consists of a Brewster polarizer, which consists of a mirror sandwich of thin planar parallel glass discs which are fixed in a beam. The housing has three consecutive and immediately connected parts to define a common interior space, wherein the first part is formed by a tubular handle, the second part is formed by a central part connected at one end to the handle and the third part is formed by a cylindrical front part connected to the other end of the middle part. The longitudinal axis of the front part forms a first obtuse angle with the longitudinal axis of the handle. A gap is formed between the light source arrangement located in the enclosed interior space within the housing and the inner wall of the housing, thereby forming an air passageway around the light source arrangement. The light source arrangement has a pair of hollow tubes connected together, the longitudinal axes of which form a second obtuse angle that is twice greater than the Brewster angle. The tubes are cut off by a plane between which the Brewster angle is formed between the normal and the two axes. The reflector with the lamp are connected to the first tube. A brewster polarizer for deflecting a portion of the light coming from the lamp toward the second tube is located within the light source arrangement. The fan is located in the housing inside the fresh air intake handle through a channel in which slots are provided to remove air from the interior.

BACKGROUND OF THE INVENTION

DE32 20 218 describes a known general biostimulating effect of polarized light. FIG. 5 of this patent shows a treatment lamp using a polarizing filter. The treatment lamp is suitable for producing a light beam of about 55 mm diameter and the lamp power is 150 W. The treatment lamp produces a lot of heat and is cooled by a fan. Much of the power is lost in the form of heat and the efficiency is relatively low, which also causes serious cooling problems. The treatment of this treatment lamp while providing optimal cooling and optimum efficiency is not optimal.

SUMMARY OF THE INVENTION

These drawbacks are largely overcome by a polarized light treatment lamp for manual use consisting of a housing and a handle formed in one piece, with a light source consisting of a reflector, behind which a fan is placed and in front of which is located in the housing. an immediate discharge lamp having an electrical power not exceeding 100 W, preceded by a polarizer arranged in the light beam of the light emitted by the lamp and having a light filter closing plate to filter out ultraviolet spectral components of the light emitted; thin planar parallel glass discs mounted in a beam, the housing having three consecutive and directly connected parts to determine a common interior space and wherein the first portion is formed by a tubular handle, the second portion is formed by a central portion connected at one end to the handle and the third portion is a cylindrical front portion connected to the other end of the central portion, the longitudinal axis

A first obtuse angle forms with the longitudinal axis of the handle, with a gap being formed between the light source arrangement located in the enclosed interior space within the housing and the inner wall of the housing, thereby forming an air passageway around the light source arrangement; the light source arrangement has a pair of hollow tubes connected together, the longitudinal axes of which form a second obtuse angle which is twice greater than the Brewster angle, the tubes being cut off by a plane between the normal and the two axes of the Brewster angle; a first tube and a Brewster polarizer for deflecting a portion of the light emanating from the lamp toward the second tube is disposed within the light source arrangement, wherein the ventilator is housed within the housing within the handle for sucking fresh air through the HV channel The slots are provided for exhausting air from the interior, characterized in that the discs, which are immediately and coincidently stacked on one another, are made of float glass and the lamp has a mounting plate with electrical elements on the side of the housing in the cooling air stream. an electrical connection line is connected.

According to a preferred embodiment, the discs have an elliptical shape and the disc support beam has the shape of an elliptical tub with an elliptical bottom around which a wall extends along its periphery with locking projections for holding the mirror sandwich.

According to a further preferred embodiment, the lamp consists of a metal vapor lamp connected in series with a dimmer element for the lamp to be heated.

The main advantage of the treatment lamp according to the invention is its simple construction allowing easy manipulation with the treatment lamp. Another advantage of the treatment lamp is its optimal function with respect, for example, to the easy cooling of the mirror sandwich. By sealing the light source arrangement, a longer service life of the treatment lamp is also achieved, as this sealing prevents dust particles from entering the interior thereof. The therapeutic lamp achieves high polarization efficiency.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal cross-sectional view of the treatment lamp; FIG. 2 is a side view of the treatment lamp; FIG. 3 is a front view of the treatment lamp; FIG. Fig. 6 is a cross-sectional view of an enlarged detail of the Brewster polarizer; Fig. 7 is a plan view of the beam; Fig. 8 is a side view of the beam; Fig. 9 is a cross section of the beam according to line AA of Fig. 7; of Fig. 9.

DETAILED DESCRIPTION OF THE INVENTION

The treatment lamp 1 shown in FIG. 1 consists of a housing 2 formed by a handle 21 followed by a domed central portion 22 and a front portion 23, the shape of which can be clearly seen from FIGS. 1-4. of two plastic parts adapted to each other, which form a hollow space for accommodating the other components. The housing 2 and the handle 21 may be formed integrally.

In the middle part 22 and the front part 23 of the housing 2, there is a light source arrangement 3, between which a different gap is formed between the inner wall of the case 2, i.e. the light source arrangement 3 is not perfectly centrally positioned in the case 2. 3, an air passage 26 is formed.

The light source arrangement 3 consists of two mutually welded cylindrical tubes 31, 32 which form a second obtuse angle of about 114 ° to each other, which corresponds to a double Brewster angle.

-2GB 285581 B6

The first tube 31 is disposed in the middle portion 22 of the housing 2 and the second tube 32 is disposed in the front portion 23 of the housing 2. The two tubes 31, 32 are cut at the intersection of the longitudinal axes according to the cutting plane between the normal and the two axes. On the elliptical opening thus formed is a Brewster polarizer 33, which consists of a mirror sandwich placed in a beam 35, which is shown schematically in FIGS. 5 and 6. The mirror sandwich is formed by a plurality of, for example, 5 consecutively arranged, thin, planar parallel, elliptical float glass discs 34 which lie directly one on top of the other, i. without gaps between them. Float glass discs 34 have a high polarization efficiency. Mirror sandwiches formed from float glass discs 34 can be easily cooled because the discs 34 lie directly on top of each other and are not separated from each other by insulating air slots. The disks 34 are therefore in contact with one another which conducts heat well, so that the mirror sandwich can be considered as a one-piece component due to its good heat conducting properties.

Further, by directly adjacent the disks 34, the dust particles cannot get between the disks 34. Thus, the Brewster polarizer 33 gains high efficiency and long life.

A detailed embodiment of the beam 35 into which the mirror sandwich of the discs 34 is inserted is shown in Figures 7 to 10. The beam 35 is in the form of an elliptical tub with an elliptical bottom 39. A wall 40 is provided around a substantial portion of the bottom 39. protrusions 41 that extend laterally into the mirror sandwich. The wall 40 does not have to extend around the entire elliptical bottom 39, so that, for example, mounting the mirror sandwich beam 35 tightly onto the tubes 31, 32 without striking the beam 35 against the casing 2. Float glass disks 34 therefore lie immediately on the cutting plane of the tubes 31, 32. The discs 34 or the beam 35 are sealed to the cutting plane by means of a gasket.

A reflector 36 is mounted on the free end of the first tube 31, within which a lamp 42, in particular a metal vapor lamp 42, is located. A seal (not shown) is disposed between the end of the first tube 31 and the reflector 36. A yellow sequin closure plate 37 is mounted at the free end of the second tube 32 between which a seal (not shown) is disposed between the free end of the second tube 32. By attaching the reflector 36, the closing plate 37 and the disks 34 to the tubes 31, 32 by means of a seal, an interior space is created inside the tubes 31, 32 which is mechanically sealed so that no dust can be generated into the interior space. . Another purpose of the closure plate 37 is to filter spectral components below approximately 400 to 450 nm from light rays reflected on the Brewster polarizer 33. The light source arrangement 3 is positioned in the central and front portions 22, 23 such that the space between the light source arrangement 3 and the inner wall The housing 2 is larger in the region of the Brewster polarizer 33 than in the region of the reflector 36, thereby achieving an optimum cooling air flow. The brewster polarizer 33 is located in the light beam of the light emitted by the lamp 42. Under the lamp 42, a mounting plate 38 is mounted in the handle 21 of the housing 2, which is attached to the housing 2 by support elements (not shown). An electrical connection line is connected to the mounting plate 38. A fuse and several other electrical components are mounted on the mounting plate 38. Under the lamp 42 and under the mounting plate 38 there is a fan 4 in the handle 21. Under the fan 4, slits 25 are formed in the lower end of the handle 21. An inlet opening 24 is formed between the free end of the front 23 and the free end of the second tube 32. formed in the region between the inner wall of the central portion 22 and the outer surface of the reflector 36. The handle 21 is provided with annular recesses on its outer surface facing away from the inlet 24 so that the treatment lamp 1 can be optimally held and directed to the treatment site, e.g. treated face.

The lamp 42 emits visible polarized and infrared light with a certain intensity and a wavelength axially forward, which impinges on the Brewster polarizer 33 at an angle of 57 ° that deflects a portion of the light coming from the lamp 42 towards the second tube 32. it does not emit at all or only a small amount of ultraviolet light to which it

-3E 285581 B6 must be avoided due to the risk of fire to the occupant and undesirable spot browning. The electrical power of the lamp 42 is approximately 20 W, but in no case may be greater than 80 to 100 W, since the cooling conditions are basically optimal only below this limiting power. In the case of a 20 W metal vapor lamp 42 and a reflector 36 with a diameter of 50 mm, the diameter of the tubes 31, 32 is also chosen to be about 50 mm. This treatment lamp 1 emits parallel, polarized light in a circular beam with a diameter of 50 mm and the light power density is approximately 50 mW / cm ^{1 2} .

The disks 34 reflect light parallel to the longitudinal axis of the second tube 32, the reflected light being linearly polarized. Unreflected light components impinge on the black inner surface of the Brewster polarizer 33 and the heat generated is dissipated by cooling air. The fan 4 draws air into the interior of the housing 2 through the inlet openings 24. Air is discharged from the housing 2 through slots 25. Cooling air flows in the interior of the housing 2 along the entire surface of the housing 3 of the light source arrangement 3. This flow is represented by arrows in FIG. The illustrated shape of the housing 2 in the drawings is not only aesthetically pleasing, but also leads to very favorable cooling. Downstream of the Brewster polarizer 33 and in the region of the upper end of the first tube 31, the volume of the inner space of the housing 2 is greatest due to the vaulting of the central portion 22 and the flow velocity is sufficient to remove heat from the large surface of the Brewster polarizer 33. Consequently, the interior space in the region of the lamp 42 decreases, whereby the air velocity increases substantially. In the duct 26, air flows rapidly through the parabolic surface of the reflector 36, whereby intense cooling occurs here, with the temperature of the lamp 42 not exceeding the permissible values. Even after prolonged operation of the lamp 42, the temperature of the housing 2 is not more than 20 ° C above ambient temperature.

The longitudinal axis of the handle 21 is oriented slightly obliquely with respect to the longitudinal axis of the front panel 23 so that a light beam extending from the treatment lamp 1 forms a first obtuse angle of 105-120 °, in particular 105-110 °, with the longitudinal axis of the handle. This direction of the beams allows a very comfortable holding of the treatment lamp 1 and a comfortable treatment.

It is very advantageous if an electric attenuator is provided in series with the lamp 42, by means of which the lamp 42 is heated. This glow of the lamp 42 increases both its lifetime and shifts the spectral distribution of the emitted light towards the infrared region by reducing the effective light temperature, thereby increasing the penetration depth of the beams. It is also possible that such spectral distribution is more favorable to biostimulation. Reducing light temperature also reduces power consumption. Less incandescence of the lamp 42 can also be achieved by reducing the supply voltage. If the rated voltage of the lamp 42 is, for example, 12 V, the lamp power transformer 42 may be sized to supply approximately 11 to 11.4 V.

PATENT CLAIMS

Claims (3)

A medical torch for manual use, emitting polarized light, comprising a housing (2) and a handle (21) formed integrally, the housing (2) accommodating a light source arrangement (3) formed by a reflector (36) ), followed by a fan (4) and immediately upstream of which a lamp (42) having an electrical power of not more than 100 W is placed, upstream of which is a polarizer arranged in the light beam emitted by the lamp (42) and provided with a closing plate (37) a light filter for filtering the ultraviolet spectral components of the emitted light, the polarizer being a Brewster polarizer (33) consisting of a mirror sandwich of thin planar parallel discs (34) of glass, which are mounted in a beam (35), the housing (2) having three consecutive and immediately connected parts to determine the common interior; whom you space, wherein the first portion is formed by a tubular handle (21), the second part being formed by the central part (22) connected at one end 285581 B6 with the handle (21) and the third portion being a cylindrical front portion (23) connected to the second end of the middle portion (22), the longitudinal axis of the front portion (23) forming a first obtuse angle with the longitudinal axis of the handle (21) wherein a gap is formed between the light source arrangement (3) located in the enclosed interior space within the housing (2) and the inner wall of the housing (2), thereby forming an air passageway (26) around the light source arrangement (3), the light source arrangement (3) has a pair of hollow tubes (31, 32) connected together, the longitudinal axes of which form a second obtuse angle that is twice greater than the Brewster angle, the tubes (31, 32) being cut by a plane between normal and both a brewster angle is formed by the axes, the reflector (36) with the lamp (42) being connected to the first tube (31) and the brewster polarizer (33) to deflect a portion of the world The pressure exiting the lamp (42) towards the second tube (32) is located within the light source arrangement (3), the fan (4) in the housing (2) being located inside the handle (21) for sucking fresh air through the channel (26) in which slots (25) are provided for extracting air from the interior space, characterized in that the discs (34), which are immediately and coincidently stacked on one another, are formed of float glass and behind the lamp (42) are laterally on the housing (2) ) a mounting plate (38) with electrical elements is placed in the cooling air flow to which the electrical connection line is connected. The medical lantern according to claim 1, characterized in that the discs (34) have an elliptical shape and the support (35) for receiving the discs (34) has the shape of an elliptical tub with an elliptical bottom (39) around which the wall (40) runs. which is provided along its circumference with locking lugs (41) for holding the mirror sandwich. The medical lantern according to claim 1, characterized in that the lamp (42) is formed by a metal vapor lamp (42) connected in series with a dimmer element for the lamp (42) to glow.