RU2453763C2 - Lighting set (versions) - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: lighting set comprised of a base, an air bag fixed to the above base and provided with an electrical lamp inside and in the upper part of the bag. The internal volume of the air bag is linked with an air pump installed in the base. The electrical lamp is installed in the socket connected with a plate, which is connected with the internal flange of a bag fixture by means of dampers. According to the second version, the technical result is achieved by electrical lamp installation in the socket which is connected with the internal flange of the bag fixture. In addition, an enclosure is fixed on the internal flange of the bag fixture where electrical lamp is placed. A ring or plate is placed in the lower part of enclosure and provided with a central opening and electrical lamp is located in the ring or in the plate opening. The ring or plate are made rigid or elastic and connected with enclosure by springs and elastic elements.

EFFECT: improved reliability.

4 cl, 6 dwg

Description

The technical solution relates to means of lighting areas mainly in emergency conditions. It is intended for use in cases of power outages in accidents and disasters, as well as in cases of construction or repair, or search and rescue operations at night.

Inflatable lighting installations are known (RU 2192581 C1, publ. 02.26.2001; RU 2286510 C9, publ. 10.04.2006), each of which has an inflatable flexible shell, which is a support for an electric lamp, which is fixed to the support by means of flanges.

A significant drawback of the known lighting systems is that when they are folded into the transport position, air is released from the inflatable shell, it loses its hardness and stability and is folded, while its upper part, together with the electric lamp, falls to the ground. In cases of untrained personnel using the installation, the electric lamp breaks, which significantly reduces the reliability of the lighting installation. Also, during loading, unloading and transportation of the lighting system, both dynamic and random impact loads act on the light bulb, which also leads to damage to the light bulb. It should be noted that the reliability of the installation in extreme conditions associated with the readiness of the electric lamp for work is very significant.

The technical result of the invention is to increase the reliability of the lighting installation.

The technical result is obtained by a lighting installation, characterized in that it contains a base fixed to the base of the inflatable casing with an electric lamp inside the casing in its upper part. The inner cavity of the inflatable shell is in communication with an air blower installed in the base. An electric lamp is mounted in a cartridge connected to a plate, which is connected to the inner flange of the shell fastening by means of shock absorbers.

Each shock absorber is made in the form of a pin located in the spring, one end of which is passed into the plate hole and has a head abutting against the mounting plate of the lamp holder on the opposite side of the spring, and the second end of the pin is passed into the hole of the inner shell mounting flange and fixed on the inner flange with opposite side of the spring.

In a separate embodiment of the lighting installation, each shock absorber is made in the form of an elastic, flexible rod with heat resistance and resilience connecting the plate of the lamp holder with the inner flange of the shell.

The technical result was also obtained by the second version of the lighting installation, characterized in that it contains a base and an inflatable shell fixed to the base with an electric lamp inside the shell in its upper part. The inner cavity of the inflatable shell is in communication with an air blower installed in the base. An electric lamp is installed in a cartridge associated with the inner shell mounting flange, while a fence is mounted on the inner shell mounting flange, in which the electric lamp is located. In the lower part of the enclosure there is a ring or plate with a central hole made in it, and an electric lamp is located in the ring or in the hole of the plate. The ring or plate is made rigid or elastic and they are connected to the fence by springs or elastic elements.

Figure 1 shows a lighting installation;

figure 2 is a diagram of the mounting of an electric lamp to an inflatable shell (the first version of the lighting installation);

figure 3 - arrangement of an electric lamp in its enclosure (the second version of the lighting installation);

figure 4 is a variant of the location of the lamp in its enclosure;

figure 5 is a view a in figure 4;

Fig.6 is a variant of the connection of the bulb holder with the flange.

The lighting installation contains a base 1 (figure 1), fixed on the base of the inflatable shell 2 with an electric lamp 3 inside the shell in its upper part. The inner cavity 4 of the inflatable shell is in communication with an air blower 5 installed in the base 1. The air blower is a fan impeller connected to its rotation drive (drive not shown). The electric lamp 3 is connected with the inner flange 6 (figure 2) of the fastening of the shell 2 by means of shock absorbers 7, each of which is made in the form of a pin 9 located in the spring 8. One end of the pin 9 has a head 10 abutting against the plate 11 of the cartridge holder 12 of the electric lamp 3 s the opposite side from the spring 8, and the second end of the pin 9 is freely missed in the hole 13 of the flange 6 and fixed on the flange on the opposite side of the spring 8. Fixing can be carried out by means of a threaded connection with a nut 14, as well as by rivet bonding, welding or gluing. The pin 9 is movably mounted in the hole 15 of the plate 11. The spring is precompressed by a nut 14. Around the lamp there are several shock absorbers 7, preferably three shock absorbers.

In another embodiment of the lighting installation, each shock absorber is made of an elastic, flexible rod 16 having heat resistance and elasticity (Fig.6). The ends of the rod 16 are fixed in the indicated holes of the plate 11 and the inner flange 6. Each rod 16 connects the plate 11 for attaching the bulb holder to the inner flange 6 for attaching the shell. Around the rod 16 in the plate 11 and the flange 6 there are many holes 17 connected with the air cavity 4 of the shell 2 and with the atmosphere. The inflatable shell 2 is fixed between the inner flange 6 (figure 2) and the outer flange 18, which are connected to each other by screws 19. The supercharger is installed in the socket 20, made in the base. The bell is connected to the atmosphere through an opening (not shown) at the bottom of the base.

The electric lamp is located in the wire fence 21, which is a lattice, preferably cylindrical, structure having longitudinal elements 22, to which the transverse elements 23 are connected.

In one embodiment of the lighting installation (Fig. 3), a rigid or elastic ring 24 is located in its enclosure 21, connected to the longitudinal elements of the enclosure 22 by springs 25 or other elastic elements (not shown). An electric lamp 3 is located inside the ring in such a way that a gap 26 is formed between it and the ring.

In another embodiment of the lighting installation (Fig. 4), a rigid or elastic plate 27 with a central hole 28 is located in its enclosure 21, and the plate is connected to the longitudinal elements 22 of the enclosure by other springs 29 or other elastic elements (not shown). An electric lamp 3 is located in the hole 28 of the plate 27 and a gap 30 is formed between it and the plate. These gaps and springs are selected from the conditions of reliability of the lighting system, which are influenced by both the temperature conditions inside the shell 2 from the operation of the lamp and the modes of damping of the lamp in the case of impact on it of shock loads. The selection of the gaps and stiffness of the springs select the optimal load on the lamp with a view to its safety in working condition.

Lighting works as follows. Supercharger 5 of air (figure 1) serves in the cavity 4 of the shell 2 of the air under pressure. As a result, the shell 2 rises and occupies the working position shown in figure 1. Turn on the electric lamp 3 in the work and illuminate the emergency area with light, while the light rays pass through the light-transmitting shell 2. Upon completion of the work, the inflatable shell of the lighting installation is folded into the inoperative transport position. For this, air is released from the cavity 4 of the shell and the shell settles down, while the shell 2 breaks at an undetermined height and its upper part falls down. In cases where the lighting installation has a high height, or in the case when the installation is controlled by an inexperienced operator, it is not always possible in operating conditions to manage to quickly support the upper part of the shell that settles downward fastened with an electric lamp 3 fixed inside it. When the upper part of the lighting installation falls to the ground on flange connection shock loads occur.

In the case of the indicated loads, they are transferred from the inner flange 6 to the shock absorbers 7, which absorb the loads, and at the same time, the fluctuations that remain on the lamp remain acceptable to maintain its operability. When the loads are extinguished, the springs 8 are compressed or stretched depending on the nature of the loads, while the pins 9 move freely in the holes of the plate 11. The lighting installation works in the folded transport position in the same way, when the shell 2 together with the electric lamp 3 are in the folded transport position and on the electric bulb dynamic and impact loads are in effect during loading, unloading and transportation of the installation to its place of use.

Similarly, the second variant of connecting the lamp to the flange works (Fig.6). In this embodiment, the shock and dynamic loads are absorbed by the elastic rods 16. Since a large amount of heat is concentrated in the zone of the electric lamp 3, during operation of the lighting system, air leaves it through the openings 17, while the rods 16 are cooled by the air leaving the cavity 4 of the shell through the openings 17 in atmosphere. This allows you to save the physical properties of the elastic rods 16.

When the installation is folded into the transport position and the shock absorbers 7 are in operation, the electric lamp 3 experiences bending loads, which lead to vibrations of its lower part relative to the fence 21. In this case, the electric lamp 3 moves in the gap 26 (figure 2) or in the gap 30 (figure 3), rests on the ring 24 or on the plate 27, which transmit compressive loads to the springs 25 and 29, which together with the shock absorbers 7 creates a significant effect of softening the shock loads on the light bulb. As a result, the efficiency of the electric lamp and the reliability of the inclusion in the work of the lighting installation are significantly increased. It should be noted that the reliability of the inclusion of the installation in extreme conditions is essential.

Claims (4)

1. A lighting installation, characterized in that it contains a base fixed to the base of the inflatable casing with an electric lamp inside the casing in its upper part, while the inner cavity of the inflatable casing is in communication with an air blower installed in the base, the electric lamp is installed in a cartridge connected to the plate , which is connected with the inner flange of the shell fastening by means of shock absorbers. 2. The lighting installation according to claim 1, characterized in that each shock absorber is made in the form of a pin located in the spring, one end of which is passed into the hole of the plate and has a head resting on the plate of the lamp holder on the opposite side of the spring, and the second end of the pin passed into the hole of the inner flange of the shell mounting and fixed on the inner flange on the opposite side of the spring. 3. The lighting installation according to claim 1, characterized in that each shock absorber is made in the form of an elastic, flexible, heat-resistant and elastic rod connecting the mounting plate of the bulb holder with the inner shell mounting flange. 4. A lighting installation, characterized in that it contains a base fixed to the base of the inflatable casing with an electric lamp inside the casing in its upper part, while the inner cavity of the inflatable casing is in communication with an air blower installed in the base, the electric lamp is installed in a cartridge connected to the internal the shell mounting flange, while on the inner shell mounting flange the guard is fixed in which the electric lamp is located, and in the lower part of the guard there is a ring or plate with a central hole filled in it, and an electric lamp is located in the ring or in the hole of the plate, wherein the ring or plate is made rigid or elastic and they are connected to the guard by springs or elastic elements.

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