FR2555810A1 - Halogen incandescent lamp - Google Patents

Abstract

The invention relates to incandescent lamps. The halogen lamp forming the subject of the invention is of the type comprising a bulb 1 filled with a mixture of inert gas and a halogenated substance, and in the bottom part of which are sealed current inlets 2, an incandescent body 5 mounted rigidly between an upper bridge 3 and a lower bridge 4 which are fixed to the current inlets 2, and a thermal shield 6 arranged between the lower bridge 4 and the sealed connection of the current inlets 2 to the bulb 1, with a spacing with respect to the lateral walls of the bulb 1, and is characterised in that the thermal shield 6 possesses a central hole 7. The invention applies in particular to incandescent lamps including a concentrated incandescent body.

Description

 The present invention relates to electrical engineering and in particular relates to a halogen lamp.

 The invention is applicable in particular to the production of incandescent lamps comprising a concentrated incandescent body, when operating halogen quartz lamps, when taking cinematographic, photographic and color television shots, while practically ensuring a chromaticity and a constant light flux value throughout the lighting period.

 Incandescent lamps are widely known (see, for example, USSR author's certificate NO 523471, cl. HOIK I / 26, 1973) comprising a bulb in the form of a long tube filled with a mixture of gases and a single-glow incandescent body mounted by means of supports along the axis of the bulb. The ends of the working part of the bulb are connected externally using a quartz tube whose diameter is less than that of the bulb. Said quartz tube prevents the separation of the gas mixture, creates a circulation of the convection currents of the filling gas when the halogen lamps are used in vertical position. The presence of a concentration gradient of the halogenated additive in the part high of the bulb of the lamp compared to its concentration in the lower part of the bulb generates in the quartz tube a flow of gas equalizing along the entire height of the bulb of the incandescent lamp the halogen contained in said bulb. In the past, part of this equalization of the halogen concentration is only the part of the convection currents which are in the area of the holes made in the wall of the bulb and connected by the tube. The movement of the other convection currents does not participate in the equalization of the halogen concentration at the ends of the bulb of the lamp, which intensifies the separation of the components of the mixture, causes the darkening of the bulb and decreases the intensity of the luminous flux.

 Halogen incandescent lamps are also widely known (see, for example, the catalog "Incandescent lamps" 1978,09.30.26-78, Editions "Informélektro", p.74) having a cut incandescent body, one or two plans, comprising a bulb filled with a mixture of inert gas and a halogenated substance. At the bottom of the bulb, on the sealed current inputs, are fixed an upper bridge and a lower bridge. The incandescent body sectioned on one plane is rigidly fixed between the upper and lower bridges on the current inputs.

In order to avoid overheating of the sealed seal, vacuum tight, of the current inlet, a thermal screen is provided between the lower deck and the sealed joint of the current inlets and of the bulb, this screen forming a spacing relative to the side walls of the bulb.

 During the operation of the lamp, convection currents of the mixture of inert gas and ha logene are formed, which rise towards the dome of the bulb along the plane of the incandescent body and descend along the wall of the bulb towards the heat shield.

 Thanks to the flat thermal screen, a cold zone is created behind it in the volume of the bulb of the lamp. The halogen moves radially, from the incandescent body towards the wall of the bulb, thanks to thermodiffision, it is driven by the downward convection current and goes partly to the cold area behind the heat shield through the spacing formed between the interior wall of the bulb and the edge of the heat shield. The convection current of the gas mixture, then moving over the heat shield, performs a closed cycle going up along the plane of the glowing body, and so on.

 The halogen thus removed from the regeneration cycle does not intervene in the rest of the process, which causes the bulb to darken and shortens the life of the halogen lamp.

 The object of the present invention is to develop a halogen lamp in which the heat shield is designed so as to increase the life of the lamp by means of intense mixing of the gas mixture.

 This object is achieved by the fact that in the halogen incandescent lamp, of the type comprising a bulb filled with a mixture of inert gas and a halogenated substance and in the lower part of which are sealed current inputs, a body incandescent rigidly mounted between an upper bridge and a lower bridge fixed on the current inputs, and a heat shield arranged between the lower bridge and the sealed connection between the current inputs and the bulb, with a spacing relative to the side walls of according to the invention, the latter has a central hole.

 It is advantageous, in order to attenuate the influence of the vortex currents on the mixing of the gas mixture, to use a heat shield in the form of a truncated cone, the aforementioned central hole being formed in the upper base of that -this.

 It is advantageous, in order to standardize the concentration of the halogen, to place in the cold zone of the lamp a tube rigidly fixed under the heat shield, and whose upper end is oriented towards the central hole of the screen, while its lower end is disposed near the sealed connection of the current input to the bulb.

 It is advantageous for the tube to have a cross-section which decreases towards its upper end.

 It is advantageous, in order to increase the speed of movement of the gas mixture and to standardize the concentration of the halogen, that the cross-sectional area of the upper end of the tube is 2 to 5 times smaller than that from the central hole of the heat shield.

 It is also advantageous for the tube to be rigidly fixed using a spiral tightly embracing the middle part of the tube and the straight end of which is connected to the current inlet.

 The application of the proposed invention ensures participation in the regeneration cycle, taking place in the interior volume of the bulb of the halogen lamp, of all the halogen contained in the volume of the lamp, which increases the life of the lamp.

The invention will be better understood and other objects, details and advantages thereof will appear better in the light of the explanatory description which will follow of different embodiments given solely by way of nonlimiting examples with references to the single drawing. annexed in which
- Figure 1 shows a halogen lamp (side view, partially cut away) according to the invention;
- Figure 2 shows another embodiment of the halogen lamp (side view, partially cut away), according to the invention;
- Figure 3 shows a third embodiment of the halogen lamp (side view, partially cut away), according to the invention.

 The halogen lamp comprises a bulb 1 (Figure 1) containing a mixture of inert gas and halogenated substance. In the lower part of 11 bulb 1 are sealed current inputs 2. On the current inputs 2 are rigidly fixed an upper bridge 3 and a lower bridge 4. Between the bridge 3 and the bridge 4 is rigidly mounted an incandescent body 5. The lamp also contains a heat shield 6 disposed between the lower deck 4 and the sealed connection of the current inputs 2 to the bulb 1 in its lower part. In the middle part of the heat shield 6 is made a hole 7 allowing the most intense possible mixing of the gas mixture.

 In order to use the rising gas flow more efficiently through the central hole 7 of the heat shield 6 and to reduce the resistance to the gas flow, the heat shield 6 (FIG. 2) has a projection 8 in the form of a truncated cone oriented towards the incandescent body 5. The hole 7 is produced in the upper base of the cone formed by the projection 8.

 According to another embodiment, the halogen lamp comprises a tube 9 (FIG. 3) made of quartz glass, rigidly fixed under the heat shield 6. The upper end of the tube 9 is oriented towards the central hole 7 of the heat shield 6. The lower end of the tube 9 is located near the sealed connection of the current inputs 2 to the bulb 1.

 The tube 9 can also be frustoconical when the heat shield 6 has a projection 8.

 In order to increase the flow speed of the gaseous mixture (with high halogen content) from the current inlets 2 to the incandescent body 5, the tube 9 has a cross section decreasing towards its upper end oriented towards the central hole 7 of heat shield 6.

 The cross-sectional area of the upper end of the tube 9 is 2 to 5 times smaller than the area of the central hole 7 of the heat shield 6, and is determined by the operating temperature regime of the quartz lamp halogen, by the distribution of the temperature according to the height of the bulb 1 of the lamp.

 The rigid fixing of the tube 9 in the bulb 1 is done using a spiral 10 tightly embracing the middle part of the tube 9. The straight end of the spiral 10 is connected to the current input 2.

 The operating principle of the halogen lamp is as follows.

 When the halogen lamp is on, convection currents of the gas mixture form in the volume of the bulb 1 (FIG. 1), these currents rising along the incandescent body 5 towards the dome of the bulb 1 and descending along the wall of the bulb 1 towards the heat shield 6. The halogenated substance decomposes under the action of the high temperature, releasing the halogen which will participate in the regeneration cycle. The halogen directs itself by thermo-diffusion towards the coldest zone, located behind the thermal screen, its concentration in the working volume, in the zone of the incandescent body 5, becomes insufficient, which can cause a blackening of the walls of the bulb 1 due to the deposition of tungsten, the light flux becomes less intense, the lifetime decreases. But the gas mixture currents rising along the incandescent body 5 suck the mixture of gases with a high halogen content at through the central hole 7 of the heat shield 6. Consequently, an intense mixing of the gas mixture in the working volume takes place with the gas mixture coming from the cold zone situated behind the heat shield 6, which uniformizes the concentration of halogen in the entire volume of bulb 1 of the lamp, and therefore, prevents blackening of the walls of bulb 1.

 As the heat shield 6 is generally made of a fine material, the hole 7 offers a certain resistance to the directed movement of the jet of gas mixture. The decrease in the value of this resistance, the elimination of the vortices of the gas jet and its more precise orientation towards the incandescent body 5 are ensured by the presence of the conical projection 8 (FIG. 2) directed towards the incandescent body 5 and comprising hole 7 in its upper base.

 The halogen content of the gas mixture in the cold zone behind the thermal screen 6 varies according to the height because of the temperature gradient, that is to say that near the thermal screen 6 its concentration is slightly lower than its concentration in the current input area 2.

 The tube 9 (Figure 3) mounted between the sealed connection of the current inputs 2 to the bulb 1 and the heat shield 6 and coaxial with the hole 7 thereof, allows the convection currents of the gas mixture circulating in the lamp working area to draw through this area the mixture of gases having the highest halogen content from the coldest area of the lamp bulb, because the lower end of the tube 9 found in the od zone the concentration of halogen is the highest. Even more intense mixing of the gas mixture is ensured by the fact that the cross-sectional area of the tube 9 is more than twice as small as the area of the hole 7.

 This variation in the reports of cross-sectional areas. of the tube 9 and of the hole 7 causes an increase in the speed of movement of the gas mixture through the tube 9.

 The proper functioning of a halogen lamp requires that the average temperature of the gas mixture be of the order of 6000C, and that of the current inputs, of the order of 3000C. Taking into account the conditions of continuity of the gas jet and the concentration of halogen according to the height of the volume of the bulb 1 behind the heat shield 6, it is necessary to ensure the most efficient suction of the gas mixture in the working area, to increase by at least twice the speed of the gas flow, which is obtained by reducing by at least half the area of the outlet hole of the upper end of the tube 9 compared to that of the hole 7 heat shield 6.

 By reducing the cross-sectional area of the upper end of the tube 9 by more than 5 times, the resistance of the gas jet is increased and the heavy component of the gas mixture (halogen) does not reach through the tube 9 , but essentially passes through the hole 7 of the heat shield 6.

 The application of the proposed halogen lamp makes it possible to obtain a high stability, greater than 98%, of the light flow, which ensures a stable quality of the shots and images of the filmed reportage films and color television. and during demonstrations. The intense mixing of the gas mixture in the volume of the lamp prevents the darkening of the walls of the bulb and ensures an increase of more than 50% in the life of the lamp.

Claims (6)

 1. Halogen lamp comprising a bulb (1) filled with a mixture of inert gas and halogenated substance and in the lower part of which are sealed current inlets (2), an incandescent body (5) rigidly mounted between a upper bridge (3) and a lower bridge (4) fixed on the current inputs (2), and a heat shield (6) disposed between the lower bridge (4) and the sealed connection of the current inputs (2) to the bulb (1), with a spacing relative to the side walls of the bulb (1), characterized in that the heat shield (6) has a central hole (7).  2. Halogen lamp according to claim 1, characterized in that the heat shield (6) has a projection (8) oriented towards the incandescent body (5), and being in the form of a truncated cone in the upper base from which the central hole (7) is made.  3. Halogen lamp according to one of claims 1 and 2, characterized in that it comprises a tube (9) rigidly fixed under the heat shield (6), the upper end of this tube being oriented towards the central hole (7) of the heat shield (6), and its lower end being located near the sealed connection of the current input (2) to the bulb (1).  4. Halogen lamp according to one of claims 1, 2 and 3, characterized in that the cross section of the tube (9) decreases towards its upper end.  5. Halogen lamp according to claim 4, characterized in that the cross section of the upper end of the tube (9) is 2 to 5 times smaller than the area of the hole (7) of the heat shield (6) .  6. Halogen lamp according to one of claims 3 to 5, characterized in that the tube (9) is rigidly fixed using a spiral (10) closely embracing the middle part of the tube (9), the straight end of this spiral being connected to the current inputs (2).