SU1259758A1 - Tubular infra-red source - Google Patents

Description

The invention relates to the technique of heating and drying materials by infrared radiation and can be used in various sectors of the national economy, in particular in the textile industry, in the drying and heat treatment of fabrics and other textile materials.

The aim of the invention is to improve the economy by adjusting the width of the irradiated surface.

The drawing shows infrared emitter

The emitter contains a quartz glass tube 1 (20 mm in diameter), a radiating element 2 in the form of an electric filament spiral, insulators 3, a current lead lugs 4 clamps 5, a connecting tube 1 with insulators 3 through an electrically insulating gasket 6. Coiling the spiral - so that every 70-100 mm - there are 7 turns of increased diameter through which the entire helix rests on the tube and is centered in it. The end sections 8 of the helix are drawn secured in the current-carrying tips, which are provided on the side of the radiating element with end disc-w-reflectors 9. Long-length material 10 is processed

The emitter works as follows.

When the voltage is turned on

Editor M.Panfilovska

Order 3128

Compiled by I.Isachenko Tehred L.Sershokova

Circulation 445 VNIIPI USSR State Committee

for inventions and discoveries 153035, Moscow, Zh-35, Raushsk nab. 4/5

Manufacturing and printing company, Uzhgorod, st. Project, 4

s

but

five

0

It heats up to 75-800 ° C and emits the heat flux of the infrared region of the spectrum. These disk reflectors 9 (non-POS) emit the radiant flux to propagate along the tube of the first radiator and thus exclude up to 3-6% of the energy loss by the radiator. At the same time, there is no excessive overheating of the terminals A, insulation 1) 3 and the electrical contacts of the helix with the supply wires, which improves the operating conditions and increases the service life.

When the width of the material being processed 10 is changed, the length of the active radiation zone is set in accordance with the width of the web to be processed by stretching or compressing the spiral by moving the tips 4 along the axis of the radiator. Thus, at any width of the processed sheet of the radiant energy, the energy released by the spiral falls on the processed material. This greatly increases the usefulness of the radiation and increases the cost-effectiveness of the treatment. When the helix is compressed and the length of the active radiation zone is reduced, the density of the radiant flux in this zone increases, which makes it possible to increase the processing speed of the material.

Corrector S.Cherni

Subscription

Claims (1)

TUBULAR INFRARED RADIATOR mainly for drying long materials, containing a radiating element enclosed in a quartz glass tube with current-carrying tips passing through insulators, characterized in that, in order to increase efficiency by adjusting the width of the irradiated surface, the current-carrying tips in insulators are mounted movably and equipped with from the side of the radiating element by end disk reflectors. N3 sl ¢ 0 m sl oo> i