BG62433B1 - Therapeutical lamp - Google Patents

Abstract

A therapeutical lamp is disclosed for biostimulation withpolarised light. The object of the invention is to develop such atherapeutical lamp with a design that on the one hand makes iteasy to handle and on the other hand allows an optimum operation,for example as far as cooling is concerned. This object isachieved by the design of the lamp housing (3,4), the design andmounting of the Brewster polariser (5), including the glass frame(6), by a special arrangement of ring transformer (19), reflector(1) and ventilator (10), and by a special cooling air guidance.7 claims, 7 figures

Description

Technical field

The invention relates to a therapeutic lamp for biostimulation with polarized light, or more specifically to a therapeutic lamp that emits polarized light of a given intensity and wavelength, while simultaneously covering a certain area of the surface.

BACKGROUND OF THE INVENTION

DE 3220218 describes the general biostimulating effect of polarized light. In particular, Figure 5 shows a therapeutic lamp using a polarizing filter. The lamp is suitable for creating a light beam with a diameter of about 50 mm, and the power of the lamp is 150 W. The lamp emits a lot of light and is cooled by a fan. However, for a number of applications, it is advisable to illuminate a transverse surface larger than 100 to 300 cm, thus increasing the lamp power by six more times, which would cause serious problems with cooling and convenient use of the lamp due to the extremely difficult electrical installation to provide the required power.

WO 89 03236 describes a therapeutic lamp with biostimulating effect on polarized light. According to the invention, the therapeutic lamp shown in FIG. 7 is composed of a light source shaped like a point emitter, a rotating parabolic reflector that defines a focus and is located behind the light source so that the focus coincides with the point emitter in order to reflect the main part of the light emitted from the source forward in parallel motion of the beams, a light filter plate, an integral housing consisting of a first tubular part with a first axis and perpendicular to the first axis of the end of the base and one second edge portion with a second axis forming an axis with a first angle which is double the angle of Brewster. The tubular elements have the same and circular cross-sections and are fixed to each other, and the reflector is fixed in the first tubular part so that a tight connection is made between them. The first and second tubular portions are cut along a plane that is perpendicular to the plane including the first and second axes so that the plane reflects the whole transverse profile of the two tubular portions and the plane of the slice making the same angle with the first and with the second axis, which outlines an opening with an elliptical contour line. The opening is closed by a Brewster polarizer, a glass holder made of heat-conducting material, and an enlarged heat-dividing back. The filter plate is located at the anterior end of the second tube portion, closing its inner space and a annular toroidal transformer to supply the light source to the first tube portion located below the reflector. The first tubular portion has a rectangular hollow element extending along its front zone and terminating to the second tubular portion. The electronic circuits for actuating the light source are located in the cavity of the rectangular hollow element of the first tube portion. The patent does not disclose the inventive solution of a Brewster polarizer and does not offer effective cooling of the therapeutic lamp.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a therapeutic lamp that is, on the one hand, with a user-friendly construction and, on the other, capable of providing optimum function, for example with regard to cooling.

The problem is solved by a polarized light biostimulation therapeutic lamp consisting of a light source formed essentially as a point emitter with a power between 30 W and 300 W. The lamp has a rotating parabolic reflector that defines a single focus and is located behind the light source. so that the focus coincides with the point emitter in order to reflect the main part of the light emitted from the source forward in parallel motion of the beams; from a filter plate transparent to components with wavelengths exceeding 400 ps at 450 nm, an integral housing predominantly of plastic material consisting of a first tubular portion with a first axis and perpendicular to the first axis of the base end and a second tubular portion with a second axis concluding with the first axis an angle which is a double Brewster angle, i. e. about 114 °. The tubular elements have uniform and circular cross-sections and are fixed to each other. The reflector is fixed in the first tubular part so that a tight connection is made between them. The first and second tubular portions are cut along one plane perpendicular to the plane joining the first and second axes so that the plane reflects the entire transverse profile of the two tubular portions. The plane of the section concludes the same angle with the first and second axes, forming an opening with an elliptical contour line. The opening is closed by a Brewster polarizer having a minimum cross-section of at least 100 cm, a glass holder made of heat-conducting material and an enlarged heat-distributing back. The filter plate is located at the front end of the second tube portion, closing its inner space. An annular toroidal transformer for supplying the light source is located below the reflector. The first tubular portion has a rectangular hollow element extending along its front zone and terminating to the second tubular portion. Electronic circuits for actuating the light source as well as a fan are located in the cavity of the rectangular hollow element. The Brewster polarizer consists of a multilayer reflector ("mirror sandwich") of multiple thin flat-parallel float glass plates, lying directly and evenly on top of one another, covered by a glass holder formed by channels for cooling air flow. In the cavity of the rectangular hollow element of the first tubular portion is further a fan whose suction portion is exposed to ambient air, whose cooling air runs along the reflector and exits again through the cooling air channels of the Brewster polarizer. The first circular cooling air duct is located around the annular toroidal transformer through which a portion of the fan-generated cooling air stream is discharged. A second annular cooling air duct is formed between the rear of ref. '433 speaker and the toroid transformer. The toroid transformer is connected directly to the thermally conductive contact with the 5 base plate of the therapeutic lamp, which has cooling fins on the inner side of the housing pointing toward it. In the housing of the therapeutic lamp in the area of the outer perimeter of the foundation plate 10, a cooling air outlet is formed to the base of the cooling fins. The base plate has cooling ducts on its outer side facing the surrounding space.

In particular, the use of a Brewster polarizer with directly floating glass plates on top of one another results in a high efficiency of the polarizer, while on the other hand 20 cooling of the multilayer reflector made up of float glass plates is achieved, as the glass plates do not have an insulating air gap, and the glass holder is shaped so that directly through it my25 stream of cooling air, which thus reaches the multilayer reflector.

In addition, float glass plates are placed on top of one another to prevent contamination of the fields30 of the hopper. This increases the duration of use of the lamp.

According to a further embodiment of the invention, the light source is a metal halogen lamp, and 35 around the toroidal transformer is a first annular cooling air duct through which a portion of the fan-produced air flow passes. In a particularly suitable manner, a second annular cavity for cooling air is located between the rear of the reflector and the toroid transformer. In this way, not only the Brewster type 45 polarizer is cooled with the cooling air stream, but also all the heat-producing parts, ie. both the reflector and the toroid transformer.

One advantage is the direct connection of the toroidal transformer, such as a 50 heat conductor, to a base plate of the therapy lamp, which has cooling fins internally to the inside of the lamp3 body, such as in the body of the lamp in the area of the outer surface of the foundation plate near the base of the cooling fins is a shaped opening for the cooling air to escape. Thanks to 5 this constructive feature, the cooling air jet on the one hand necessarily flows around the reflector and the toroid transformer, and on the other hand passes through the cooling lamps inside the housing 10 inside, thus achieving even greater removal. of heat through the base plate thus constructed. In addition, one or more openings may be provided for cooling air in the vicinity of the outer perimeter of the foundation plate 15, and thus in the housing along its lower outer perimeter. For even better heat dissipation, cooling ducts may be formed on the exterior side 20 of the base plate. Thus, a better transfer of heat from the base plate to the surrounding space is achieved by radiation or convection because 25 ambient air flows around the base plate on its outside.

For even better use of the therapy lamp, the housing is conveniently provided with a pair of legs spaced 30- to 30-feet apart and extending substantially parallel to the first axis of the second tube and extending from horizontal supports, with a horizontal hollow portion extending from the base of the rectangular hollow portion to absorb the edges of the horizontal supports. On the one hand, these supports increase the stability of the lamp as a whole, because they reinforce the double-folded Brewster body, while also playing the role of large handles for comfortable handling of the lamp or for attaching it to a holder.

According to another advantageous refinement, during operation the lamp does not overheat and operates at a color temperature of 3000 K ° 45 to 3200 K °. This extends the life of the lamp.

A favorable solution is the ability to connect the electronic circuits to devices for setting time intervals for adjusting the periods of illumination from the light source, as well as to a circuit for delayed increase of the current flowing through the light source.

Explanations of the annexed figures

The invention is further explained by way of examples of preferred embodiments with reference to the figures, of which:

Figure 1 shows a sectional side elevation of an embodiment of a therapeutic lamp;

FIG. 2 is a front view of the embodiment of the therapeutic lamp of FIG. 1;

Figure 3 is a top plan view of the glass holder carrying the multilayer reflector;

Figure 4 is a front view of the glass holder of Figure 3;

Figure 5 is a side view of an element of the base that closes the housing of the therapy lamp at one end thereof;

Figure 6 is a top plan view of the base member shown in Figure 5;

Figure 7 is a sectional view as in Figure 1, with the main jets of cooling air being schematically shown.

Examples of carrying out the invention

The therapeutic lamp 1 is generally depicted in Figures 1 and 2. The lamp 1 has a housing or casing 2 which can be made of two matching halves of plastic or foam plastic, the two halves being connected together in one body. The housing 2 comprises one vertical tubular portion 3 and a shorter, tubularly extending tubular portion 4, with the median axes 31, 32 of the two tubular portions 3 and 4 concluding an angle twice greater than the Brewster angle, i. 114 °. The two tube parts 3 and 4 are cut into a common plane and the Brewster 5 polarizer is attached to the cutting surface. The Brewster 5 polarizer consists of a set of uniformly overlapping and floating glass plates lying directly over each other and is secured in a support glass holder 6, which is described in more detail below. The set of evenly coated floating glass plates lying on top of one another is also called a "mirror sandwich" (multilayer reflector).

The tubular portion 4 is provided with a filter plate 7, which mechanically and hermetically seals the tube portion 4 from the front outlet for light, by mechanically and dust-tightly closing the inner space of the therapeutic lamp 1. In particular, the filter filter 7 transmitting only light components with a wavelength exceeding 400 ps to 450 nm.

The vertical tubular portion 3 is essentially a hollow cylinder, but with a front rectangular hollow portion 8 which restricts the corresponding rectangular interior space associated with the cylindrical inner space of the vertical tubular portion 3. The rectangular hollow portion 8 extends vertically upward to the front tubular portion 4 and thus supports it. Thus, the rectangular hollow element 8 contributes to the overall increase in the strength of the therapy lamp 1, and its hollow internal volume is used to install the switching circuits 9 and the fan 10, described in more detail below.

The housing consists of a circular support and mounting plate 11, which covers the upper half of the front tubular portion 4, thus forming a monolithic portion of this tubular element. As can be seen from the drawing, this support and mounting plate 11 downstream exits the front tubular portion 4 and extends downwards in the form of two vertical legs 12 and 13, which at their lower ends are connected to each other by a horizontal rod 14, and which are fixed to the forward projection 15 of the rectangular hollow element 8. This type of housing construction 2 is preferable because the lamp thus maintains the stable position shown in FIG. 1, wherein the opening of the tubular portion 4 is slightly inclined upwards, and at use for cosmetic purposes is in OPPORTUNITIES face Lamp usage person, usually the most common case, to illuminate directly nayudobna him pose. In another convenient position, the therapeutic lamp may be supported on a glass holder 6, wherein the second tube portion 4 is pointed obliquely upwards, thereby illuminating the desired part of the body, such as the face.

Another advantage is the presence of the two vertical legs 12, 13, spaced apart, by which 5 the lamp can be conveniently held, or to which a positioning device can be attached. In addition, the circular circuit board 11 gives the aesthetic appearance of the housing.

Another important element for the operation of the 10 spot lamp 1 is the metal halogen lamp 16, which is located in the focus of the parabolic reflector 17. The parabolic reflector 17 has a reflecting surface 18 in paraboloid shape and from its free 15 reflecting end is supported by the axial annular ring dust penetration ring. The metal halogen lamp is electrically powered by a toroidal transformer 19 disposed 20 below the reflector 17. In turn, the toroidal transformer 19 is electrically connected to the switching circuits 9. The halogen lamp is designed so that there is a small fraction of ul25 grass in the emitted light. rays - UVA and UVB.

A first annular channel 30 or space for cooling air 20 is formed between the outer surrounding surface of the toroidal transformer 19 and the inner surrounding surface of the vertical tubular portion 3. At its lower end, the first annular channel for cooling air 20 is limited by the base plate 21, which is bounded by the base plate 21. fitted with cooling fins 25 and explained in more detail35 but below. On the upper side, the first annular cooling air duct 20 is limited by a circular washer 22. An outlet opening for the cooling air 23 is formed at the lower end of the vertical tubular element 3.

Above the circular washer 22, a second annular space or cooling air duct 24 is formed, which is limited by the lower surface of the reflector 17, by the surfaces of the inner wall of the vertical tubular portion 3, by the circular washer 22 and the rectangular hollow element 8. the cooling air provided by the fan 10 is divided into two cooling air streams, the first of which, as shown in FIG. 7, penetrates directly into the first annular space for cooling air 20, flows around the toroidal transformer 19 and cools the delivery fins 25 of the foundation plate 21 and finally exits through the outlet openings 23.

The second cooling air stream, also depicted in FIG. 7, passes from the fan directly into the second annular cooling air space 24 below the reflector 17 and then through the channels provided in the vertical pipe element 3 (not shown in FIG. the figure) penetrates the glass holder 6, which has a plurality of channels for passage of cooling air. Thereafter, a second stream of cooling air exits from the upper end of the glass holder 6, i. near the tube element 4.

FIG. 2 shows a particularly right angular hollow element 8 arranged vertically and supporting at the upper end of the tubular portion 4. From the rectangular hollow element 8, switching and / or indicator elements 27 acting directly on the contact 20 electrical circuits protrude outwards. 9, respectively powered by them. This provides convenient servicing and handling of the lamp.

On the underside, fan 10 is enclosed by a screen 28 with a filter to avoid the risk of injury or suction of dust particles.

FIG. 3 shows a glass holder 6 carrying a multilayer reflector with float glass plates. 30

The glass holder 6 has a plurality of channels for passage of cooling air 26 into which, as already described in FIG. 7, the incoming cooling air enters the second annular space 24, and which subsequently exits from the other end of the glass holder 6 in the vicinity to the second pipe element 4.

On the outside of the glass holder 6, as well as on the base plate 21, cooling channels 30 can be formed.

Figures 5 and 6 depict the base plate 21 with its cooling fins 25. On the outside of the base plate 21 there are cooling channels 29 to facilitate heat release.

Figure 6 shows a top view of the base plate 21, which shows that the location of the cooling fins is not uniform to provide the space required for mounting the fasteners, respectively, of the toroid transformer.

Claims (7)

CLAIMS 1. A polarized light biostimulation therapeutic lamp consisting of a light source (16) formed essentially as a point emitter with a power predominantly between 30W and 300W; a rotating parabolic reflector (17) that defines a focus and is located behind the light source so that the focus is substantially aligned with the point emitter in order to reflect the main portion of the light emitted from the source forward in parallel motion of the beams; a light filter plate (7) which is transparent to components with wavelengths exceeding 400 nm up to 450 nm; integral housing (2) predominantly of plastic material consisting of a first tubular part (3) with a first axis (31) and perpendicular to the first axis (31) of the base end and a second tubular part (4) with a second axis (32) ) concluding with the first axis (31) an angle which is a double Brewster angle, i. about 114 °, with the tubular elements (3, 4) having the same and circular cross-sections and secured to each other, and the reflector (17) fixed in the first tubular portion (3) so that a tight connection is made between them, at the first (3) and second (4) tubular portions being cut along one plane perpendicular to the plane including the first (31) and second (32) axes so that the plane cuts the entire transverse profile of the two tubular portions ( 3, 4) and the plane of the section concludes the same angle with the first (31) and the second (32) axes, where it is drawn by pellet with an elliptical contour line, the opening being closed by a Brewster polarizer (5) having a minimum cross section of at least 100 cm, a glass holder (6) made of heat-conducting material, and an enlarged heat-distributing back side, and the filter plate (7 ) is located at the anterior end of the second tube portion (4), closing its inner space; and having a annular toroidal transformer (19) for supplying the light source in the first tube portion (3) located below the reflector (17), the first tube portion (3) having a rectangular hollow element (8) extending along its front zone and terminating to the second tubular portion (4), the electronic circuits (9) for actuating the light source (16) are located in the cavity of the rectangular hollow element (8) of the first tubular portion (3), that the Brewster polarizer (5) is composed of a multilayer reflector ("mirror sandwich" ") From a plurality of thin flat-parallel float glass plates, lying directly and evenly on top of one another and enclosed in a glass holder (6) formed by channels for flowing cooling air, whereby in the cavity of the rectangular hollow element (8) of the first tube part (3) is further provided with a fan (10), the suction portion of the fan (10) is exposed to ambient air whose cooling air runs along the reflector (17) and through the cooling air flow channels (26) of the Brewster polarizer "(5) goes out again; the first annular cooling air duct (20) is arranged around the annular toroidal transformer (19) through which a portion of the cooling air stream produced by the fan (10) is discharged; a second annular cooling air duct (24) is formed between the rear of the reflector (17) and the toroidal transformer (19); and the toroidal transformer (19) is connected directly to the thermally conductive contact with the base plate (21) of the therapeutic lamp, which has cooling fins (25) on the inner side of the housing (2), such as in the housing (2) of the therapeutic transformer. a lamp in the area of the outer perimeter of the foundation plate (21) to the base of the cooling fins (25) is provided with a vent for cooling air (23). A therapeutic lamp according to claim 1, characterized in that the light source is a metal halogen lamp (16). A therapeutic lamp according to claim 1. 5, characterized in that the base plate (21) has cooling ducts (29) on its outer face and faces the surrounding space. A therapeutic lamp according to claim 10, characterized in that the housing (2) has a pair of legs (12, 13) spaced apart from each other extending from the front sector of the second tubular portion (4) parallel to the first axis 15 (31), and extended by horizontal supports (14), leaving a horizontal projection (15) from the base of the rectangular hollow element (8) to absorb the edges of the horizontal openings (14). 20 The therapeutic lamp according to claim 1, characterized in that the color temperature of the lamp (16) during operation is in the order of 3000 ° K to 3200 ° K. A therapeutic lamp according to claim 25, characterized in that the electronic circuits (9) comprise a device for determining the length of time intervals for illumination from the light source (16) and a delayed magnification scheme for the current 30 through the light source. A therapeutic lamp according to any of claims 1 to 6, characterized in that the first annular groove (20) is confined to its upper surface by a circular sheath- 35 ba (22).