SU245933A1 - INFRARED HEATER - Google Patents

Description

Infrared heaters are known, which contain quartz tubular radiators located in the staggered box, a reflector with an air-cooling system, current-carrying tires, an air duct and a safety shield.

The specific feature of the described heater is that the reflector is provided with openings located perpendicular to the duct and tubes with openings parallel to the quartz tubular radiators. This allows to extend the service life of the quartz heaters and increase the flux density of radiant energy.

FIG. I presents the proposed heater in section; in fig. 2 - heater, side view; in fig. 3 is a schematic diagram of the cooling of lamp bulbs.

Quartz lamps 1, serving as emitters, are arranged in two rows in a staggered pole. Their number, distance between themselves and rows is chosen in such a way as to provide the best conditions for cooling quartz flasks. Reflector 2 serves as the base of the heater, as well as a collector for cooling quartz lamps in a direction perpendicular to the plane of the emitters. Structurally, the reflector is made of two panels - the top 3 and bottom 4, made of a material with high reflectivity. In each of the panels, milled nazy, into which are placed two copper coil 5 systems of water cooling of the reflector. In the bottom panel, channels 6 with holes 7 are provided, which are connected with air nozzle 9 by means of tubes 8. Together, they form a central cooling system of flasks and sockets for quartz lamps.

On the holders 10 along the quartz lamps, two collectors 11 are installed at different heights, forming a system for lateral cooling of the lamps.

On the sides of the collectors facing the quartz lamps there are three rows of holes 12 through which air is supplied to the lamps. A suspension frame 13 is mounted on the upper panel of the reflector for fastening

heater to the installation, as well as for fixing emitters. Through the holes 14 of the reflector, installation of quartz lamps with current-carrying tires 15, isolated from the rest of the heater, is carried out using

fiberglass laminate insulators 16. A screen 18 made of heat-resistant glass fabric is suspended on spring holders 17, which allows about 98% of the radiated heat flux to pass through and significantly reduces the effect of air on the proposed heater. With side cooling, quartz lamps located in the center of the heater are not sufficiently cooled, and central cooling leads to uneven cooling of the surface of each quartz lamp. By using bidirectional cooling, it is possible to improve the circulation of the cooling air flow around the lamps, which contributes to intensive and uniform cooling of the flasks.

The assembled infrared heater is mounted on the unit above the test panel. Using rubber hoses, water is supplied to the fittings of the coil 5 to cool the reflector 2 and the air to the pipe 9 and the collector //. Through the air tube 8

enters channels 6 and from there flows out uniformly through openings 7 and / 2 to quartz lamps, ensuring their uniform cooling. The screen 18 prevents harmful cooling of the test sample and reduces the dispersion of the air flow.

Subject invention

An infrared heater containing quartz tubular radiators arranged in a staggered order, a reflector with an air-cooling system, current-carrying tires, an air duct and a protective screen, which, in order to increase service life, are connected to the air duct with openings, and the reflector is provided with openings located perpendicular to the duct.

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245933