RU195360U1 - SPOTLIGHT LIGHT INSTRUMENT - Google Patents

Abstract

The utility model relates to lighting technology and can be used in a portable, portable long-range floodlight with a xenon short-arc lamp. The light device contains a heat-conducting body, a paraboloid reflector, a xenon short-arc lamp, a protective glass, a linear stepper motor, a base of heat-conducting material with two guide bars, a movable carriage of heat-conducting material with a socket for fixing the lamp base (anode) and a guide bush for installing the reflector axially axis of the lamp. On the opposite side of the carriage there are elements for attaching it to the axis of a linear stepper motor fixed to the base. The movable carriage is pressed to the base with elastic elements. The base is attached to the outside of the housing. The lamp base, carriage, base and housing have good thermal contact between them to provide conductive heat transfer in order to cool the lamp anode. The technical result of the utility model is to improve the thermal regime of the lamp and, accordingly, increase its service life while simplifying the assembly process, maintenance. 4 s.p. f-ly, 3 ill.

Description

The proposed utility model relates to lighting technology and can be used in a portable portable long-range spotlight with a xenon short-arc lamp.

The need to create a utility model is due to the requirements of efficient lamp cooling during operation, to ensure ease of assembly and maintenance of the spotlight.

Known light device [SU 1719767 A1, IPC ⁵ F21V 29/00, publ. 03/15/1992] containing a housing, a reflector, a gas discharge arc lamp, a filter and elements for cooling the lamp [1].

The disadvantage of an analogue is the complicated scheme of air cooling of the lamp. Its design is intended for use in stationary conditions.

Known Spotlight [US 5072347, Int. Cl. ⁵ F21L 7/00, date of patent 10.12.1991], adopted for the prototype of the proposed utility model, comprising a housing, a paraboloid reflector, a xenon short-arc lamp, a protective glass, fastening and focusing elements of the lamp [2].

The disadvantage of the prototype is the use of only a convective cooling circuit of the lamp, which can cause it to overheat and reduce its service life. The design of the lamp mounting device with numerous movable alignment elements does not provide sufficient thermal contact of the lamp base with the housing of the device, which eliminates the use of effective conductive heat exchange between the lamp and the environment through the elements of the device.

The disadvantage of the prototype is also the presence of alignment elements, which complicates the design and the process of assembly and maintenance of the device.

The technical result of the utility model is to improve the thermal regime of the lamp and, accordingly, increase its service life while simplifying the assembly and maintenance process.

The essence of the proposed solution is that in a light device containing a housing of heat-conducting material with an outlet, a flange, a protective glass and a paraboloid reflector, a xenon short-arc lamp with a socle (anode) is fixed in the clip of the heat-conducting carriage mounted movably on a heat-conducting base mounted on a heat-conducting base the outer side of the housing, which ensures conductive heat exchange of the lamp with the environment.

The carriage is pressed to the base by elastic elements, for example, made in the form of cylindrical springs, and has freedom of movement along the axis of the lamp along the guide bars fixed to the base. The free ends of the elastic elements rest on a bracket fixed to the base.

The axis of the linear stepper motor is attached to the carriage from the side opposite to the lamp, which is fixed to the base with a support and provides focusing of the light beam.

A guide sleeve axial to the lamp axis and mating with a hole on the top of the paraboloid reflector, which has freedom of movement in the housing in the direction perpendicular to the lamp axis, is installed on the carriage on the lamp side, which ensures the alignment of the lamp axis and the reflector axis during assembly and eliminates the need for additional alignment.

The clamp on the carriage for attaching the lamp has two spring tabs with oblique guides, on which two clamps are installed with a tightening screw, access to the head of which is provided with the housing outlet open.

On the outside of the case, heat-removing fins are made, and the contact surfaces of the case, base and carriage are coated with heat-conducting grease.

The paraboloid reflector is made of a heat-conducting material, for example, nickel-cobalt alloy.

The device of the light device is shown in the drawings.

FIG. 1 Light fixture. General view with a partial section.

FIG. 2 Elements for fastening and controlling the position of the lamp relative to the focus of the reflector.

FIG. 3 Clip for lamp base.

Shown in FIG. 1, the light device contains a housing 1, the outlet opening of which closes the protective glass 2 with sealing elements 4 and fixed by a flange 3. Inside the housing 1 there is a paraboloid reflector 5 with an opening at the top, on the optical axis of which a xenon short-arc lamp 6 is mounted, fixed by a base (anode) in the carriage clamp 7.

A guide sleeve 8 is mounted on the carriage 7, axial to the axis of the lamp and movably mating with the hole in the reflector 5.

In FIG. 2 shows a base 9 on which two guide strips 10, a bracket 11 and a support 16 are mounted. A carriage 7 is movably mounted on the base 9 between the two strips 10, which is pressed against the base 9 by two elastic elements 12, the free ends of which rest on the bracket 11. On support 16 is installed linear stepper motor 17, the axis of which is fixed in the socket of the carriage 7 with the washer 13, the sleeve 18 and the locking screw 15.

The lamp is ignited and powered through connector 14.

In FIG. 3 shows a clip for a lamp base. The carriage 7 has two spring tabs 19 with oblique guides, on which clamps 20 are mounted with a tightening screw 21.

The functioning of the model is as follows.

Heat is removed from the anode of the lamp 6 to the environment due to conductive heat exchange between the carriage 7, the base 9 and the housing 1.

The cooling of the cathode, lamp bulb 6, is provided by convective heat exchange between the lamp 6, the reflector 5 and the housing 1.

Focusing is provided by moving the lamp 6 (its luminous body) along the optical axis of the reflector 5 relative to its focus. The movement of the lamp 6 is carried out by a linear stepper motor 17. The simplification of the assembly process of the light device, as well as the process of replacing the lamp 6, the spent resource, is provided by the design of the clamp for the lamp base 6. When removed: flange 3, protective glass 2 and reflector 5, release or fix the base the lamps 6 are provided by rotation of the tightening screw 21. The guide sleeve 8 when installing the reflector 5 ensures the axiality of the optical axis of the reflector 5 and the axis of the lamp 6.

The proposed light device is applied and tested in a portable wearable floodlight "Electron-PN1" with a positive result.

The temperature of the lamp base does not exceed 80 ° C at a maximum temperature of 230 ° C allowed by lamp manufacturers.

Literature:

1. SU 1719767 A1, IPC ⁵ F21V 29/00. Light device / A.G. Rakviashvili, B.G. Kapanadze, G.L. Gugulashvili, E.A. Mukhigulashvili. No. 4825615; declared 05/14/1990; publ. 03/15/1992, Bull. No. 10.

2. US 5072347, Int. Cl. ⁵ F21L 7/00. Search light / Robert L. Brunson. No. 351149, appl. 05/12/1989; date of patent 12/10/1991.

Claims (5)

1. A searchlight lighting device comprising a heat-conducting body, a paraboloid reflector, a xenon short-arc lamp, a flange, a protective glass, characterized in that the xenon short-arc lamp with a socle (anode) is fixed in the clip of the heat-conducting carriage mounted movably on a heat-conducting base mounted on the outside of the heat-conducting case, while the carriage is pressed against the base by elastic elements and has freedom of movement along the axis of the lamp along the guide bars fixed on the base, and on it lamps mounted on the side of the guide sleeve, the axial axis of the lamp and slidably mating with an opening at the top of the paraboloidal reflector, and on the opposite side from the lamp, is connected axis linear stepper motor, which is fixed to the base by means of support. 2. The light fixture of the searchlight according to claim 1, characterized in that the clip for attaching the lamp has two spring tabs with oblique guides on which two clamps are installed with a tightening screw. 3. The spotlight lighting device according to claim 1, characterized in that the housing has cooling ribs on the outside, and the contact surfaces of the housing, base and carriage are coated with heat-conducting grease. 4. The illuminator of the searchlight according to claim 1, characterized in that the paraboloid reflector is made of heat-conducting material. 5. The illuminator of the searchlight according to claim 1, characterized in that the elastic elements pressing the carriage to the base are made in the form of coil springs.

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