RU39679U1 - EXTERIOR LIGHTING LAMP - Google Patents

Abstract

The utility model relates to outdoor lighting fixtures. A distinctive feature of the proposed design is that the light-optical block of the lamp is made in the form of a non-separable sealed module. The proposed design makes the luminaire maintenance-free within a service life of up to 20,000 hours.

Description

The utility model relates to lighting engineering, in particular to the lighting technique of open spaces, and can be used in upper-side street lighting systems based on direct lighting devices with wide asymmetric light distribution.

The lighting characteristics of any light device are determined by its light-optical scheme, i.e. joint work of an electric light source and a light distribution optical device. The effectiveness of their combined action depends primarily on the properties of the actual light source - an electric lamp. For the successful use of electric lamps in fixtures, an intermediary between them to the objects of their application is needed. Firstly, during operation, the lamp must be firmly fixed and be in a strictly defined working position. Secondly, it is necessary to redistribute the light flux from the lamp so that its main part is directed in the right direction, and the losses would be minimal. Thirdly, the lamp should be protected from environmental influences.

In the review (1), aimed at identifying development trends for the design of luminaires for outdoor lighting, information is given on the design features and parameters of luminaires of a number of leading foreign companies. It is noted that, without exception, all outdoor lighting fixtures contain a light-optical unit installed in the lamp housing, which includes a mirror reflector in a lamp with a round-symmetrical bulb and a light-distributing optical device. In (1), data are presented on a decrease in the light guide-flux of outdoor lighting fixtures during operation, depending on the degree of environmental pollution.

It is shown that the ingress of dust with conventional flows into the inner space of the light-optic unit will lead to its subsidence on the horizontal internal surfaces and, as a result, to a significant decrease in the lighting characteristics of the lamp and an increase in operating costs associated with the need to open (dismantle) the light-optical unit to clean it within the life of the light source.

That is why the creation of reliable protection of the light-optical unit from environmental influences is currently being achieved by developing closed luminaires, the design of which provides: the greatest ease of maintenance. The design of such luminaires usually contains a large number of articulated detachable assemblies with seals, locks, devices for tilting, hanging optical and electrical units to provide access to elements requiring replacement or cleaning, while at the same time sealing the light-optical unit according to the outline of the light opening of the lamp.

Such luminaires provide a reduction in individual acts of access to them for the purpose of maintenance within the life of the light source, but have a rather complicated structure and require certain time-consuming maintenance for them both within the life of the light source - the lamp, and when replacing it.

The problem the utility model aims to solve is to create an outdoor lighting fixture with a high degree of operational reliability and not requiring maintenance within the life of the light source.

This task is achieved through the use of a sealed, one-piece light-optic unit in outdoor lighting fixtures. The proposed design of the lamp is essentially directly opposite to the designs of detachable light-optical units, which are designed to provide the greatest ease of maintenance, as discussed above. The claimed fixture uses a functional design method. The elements of the light-optical block form a single non-separable block, the elements of which are inextricably linked functionally and constructively. The proposed design makes the light-optical unit unattended within the life of the light source and it must be replaced when the light source fails.

The declared lamp of external lighting, like all. a device for a similar purpose, contains a light-optical unit, the difference of which is that it is made in the form of a sealed non-separable module, which is used as a high-pressure sodium lamp (NLVD) with an asymmetric multifocus mirror reflector on the inner surface of the outer bulb, the plane of the light guide window of which is parallel longitudinal axis of the burner. Mirror NLVD is installed in the lamp so that the planes of the light hole of the lamp and the light-output window of the NLVD are combined. The installation of mirror NLVD in the lamp housing, its spatial orientation and fixation in the working position is carried out by one of the methods known in lighting engineering practice.

Figure 1 shows a schematic illustration of a variant of the inventive lamp outdoor lighting (cross section).

The luminaire contains a mirror NLVD 1 installed in the housing of the luminaire 2, and their relative spatial orientation (using a standard device for fixing the spatial position, which is not shown in Fig. 1), is made so that the plane of the light-emitting window 3 of the NLVD 1 is aligned with the plane of the light hole 4 lamp. To connect NLVD 1 to the power supply network, the lamp is equipped with standard electrical devices and fittings (not shown in Fig. 1).

The principle of operation of the inventive lamp is based on the conversion of electrical energy into light radiation with its subsequent redistribution in the surrounding space. The proposed design prevents a decrease in the luminous flux of the luminaire in a highly polluted environment, in addition, the light-optic unit within the service life (20,000 hours) is maintenance-free, which significantly increases the reliability of the luminaire. Indeed, the reliability of the product is characterized by the availability factor (K), determined from the ratio:

where, T - MTBF (service life),

T _In - the average recovery time of the product.

Since the claimed design can significantly reduce the average recovery time of the lamp (T _B ) due to the refusal to clean the inner surface of the light-optical block from pollution, and in

in the event of a failure of the mirror NLVD and its quick replacement, which does not require additional measures related to access to the lighting unit, the value of the availability factor (K) increases.

In this particular case, a Reflux Reflex (2) type NLVD is used. The industrial applicability of the claimed solution is confirmed by the possibility of its multiple reproduction in the manufacturing process. The lamp is designed for serial production using standard equipment, modern technologies and equipment.

Literature:

1. E.P. Elovich, T.L. Flodina “Lamps for utilitarian outdoor lighting”, “Lighting Engineering”, No. 4, pp. 47-53, 2003

2. High-pressure discharge lamps, sodium type DNaT, DNaMt, Dna3 / Reflux. Specifications TU 3467-001-40330569-98.

Claims (2)

1. An outdoor lighting lamp comprising a light-optical unit, characterized in that the light-optical unit is made in the form of a non-separable sealed module, which is used as a high-pressure sodium lamp with an internal asymmetric multi-focus mirror reflector, the plane of the light guide window of which is parallel to the longitudinal axis of the burner installed so that the planes of the light hole of the lamp and the light guide window of the lamp are aligned. 2. The outdoor lighting lamp according to claim 1, characterized in that the light-optical unit is equipped with a device for fixing its spatial position, made in the form of two interconnected detachable elements, in one of which, combined with the base of the high-pressure sodium lamp, a bayonet protrusion is made, and in another - a bayonet groove.