SU1527452A1 - Lighting device for operation under repeated impacts and vibration - Google Patents

Abstract

The invention relates to luminaires for operation with repeated shocks and vibrations, and may find application in lighting technology. The purpose of the invention is to increase the reliability of the device. The luminaire comprises a housing 1, in which a lamp 2 with a cartridge 3 and a reflector 4 are placed. installed between the housing 1 and the bottom of the cartridge 3. The presence of compression springs 8 and tension 6 prevents the spontaneous unscrewing of the lamp 2 from the cartridge 3 and reduce the vibration and shock loads on the lamp 2. 1 Il.

Description

The invention relates to lighting engineering, in particular to luminaires, which are used under conditions of repeated shocks and vibrations.

The purpose of the invention is to increase the reliability of work by attaching a lamp with a cartridge at two points and eliminating the possibility of unscrewing the lamp from the holder.

The drawing shows a luminaire for operation with repeated shocks and vibrations.

The luminaire comprises a housing 1 in which a lamp 2 with a cartridge 3 and a reflector k are placed. The bulb of the lamp 2 is enclosed by a ring-shaped collar 5, fixed to it with at least three cushioning tension springs 6, the free ends of which are attached to the mounting cylinder 7 placed in the reflector. In addition, the luminaire is provided with one shock-absorbing compression spring 8, which is installed between the bottom of the cartridge 3 and the housing 1 and may have a conical shape.

The lamp works as follows.

During operation, the blows to the housing 1 of the lamp are transmitted to the lamp 2 through the springs 6 and 8 compressing it, therefore the block - cartridge 3 with the lamp 2, having a substantial mass, at the moment of the impact keeps the inertia at rest and the springs start for example, the cone 8 and the cylindrical 6, simultaneously stretching when axially striking the body 1 in the direction from the cartridge 3 to the lamp 2. The simultaneous compression of the springs occurs upon impact from the opposite side. Unlike axial shocks, shocks in different directions in the vertical plane and in intermediate planes force the springs 6 and 8 to make complex movements in all directions, but the conical spring 8 works as a flexible cantilever beam, and the extension springs 6 can They are simultaneously stretched to varying degrees depending on the direction and impact force on housing 1. Since all the springs are closed on the lamp unit 2 from the cartridge 3 and work only together, the damping spring system is quasi-elastic, i.e. shots on the body of the luminaire

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in any direction, the springs dampening the blow at the moment of its application deform accordingly. In this case, lamp 2 obtains the initial speed of movement much more smoothly than it could have been with a direct impact on it. Similarly, the cartridge unit 3 is returned with the lamp 2 to the initial state, due to which the service life of the latter significantly increases.

The luminaire is assembled in the following order. The cartridge is fixed on the small diameter of the conical spring 8, which in turn is mounted on the housing 1 of the lamp. The lamp 2 is wrapped in a cartridge 3.

A mounting cylinder 7 with a collar 5 and extension springs 6 assembly is progressively inserted into the reflector k up to the stop. At the time of insertion of the installation cylinder 7 into the reflector 1, the conical support spring 8 is compressed, and the cylindrical springs 6 are expanded, creating a counter axial force

After the installation cylinder 7 reaches the end position in the reflector, and the cone 8 and cylindrical 6 springs are deformed to their ultimate state, the cylinder 7 is locked at a small angle in the working position, for example, with a bayonet lock. The cartridge unit 3 with the lamp 2 is suspended between the springs 8 and 6 of the damping system.

Claims (1)

The application of the proposed solution allows the use of lighting devices in conditions of repeated shocks and vibrations (for example, on drilling rigs, excavators, cranes, vehicles) and significantly increases the service life of light sources, and also eliminates the need for additional means of depreciation during transportation. In addition, the combination of compression and expansion springs into a single shock-absorbing unit makes it possible to eliminate the possibility of spontaneous unscrewing of the lamp from the cartridge, even in the case of significant vibration and shock loads. Invention Formula A luminaire for multiple shocks and vibrations, containing 51527 4526 housing with a lamp placed in it and at least three shock absorbers with a cartridge, reflector and damping extension springs, while the compression spring is mounted on the lamp between the bottom of the chuck and the housing, with the help of tension springs, one characterized in that the end of each of which is fixed in order to increase the reliability of work, on the collar, and the other - on the body, the core is equipped with a collar of the ring form.