SU570648A1 - Blind radiation tube - Google Patents

Description

(54) CAMPER RADIATION PIPE

Ila FIG. Figure 1 shows schematically the dead-end radiation tube, general view; in fig. 2 is a section along A-A in FIG. one.

A dead-end radiation pipe containing an external radiating body 1, a fire tube 2 with holes 3 dispersed over the entire surface, a flame stabilizer 4 with channels 5, the main gas pre-mixing chamber b for obtaining an air-gas mixture with an air flow rate G) 1 , 05-1.08, an additional 7 chamber of preliminary mixing of gas with air to obtain a gas-air mixture with T1 0.6-0.7, an annular by-pass 8 channel for supplying the gas-air mixture from the main chamber to an additional one, gap 9 for recirculation of combustion products, overflow 1U tubes for supplying gas to the additional chamber, finned cylindrical partition-body of recuperator I, gas supply w 12, 12 pipe, air nozzle 13, air ring 14, bounded by the surface of gas supply pipe 12 and the partition 11, the gas nozzle 15, the guides 1b for fixing the "flame tube 2 with respect to the stabilizer 4 and the steam body 1, the annular channel 17 between the" flame tube 2 and the housing 1 for removing the combustion products, the annular channel between the core with the start 1 and the ribbed partition 11, the flue 18 nozzle, the nozzles 19 for introducing the igniter, the cam 20 for centering the “l ary pipe in the housing L

A heat exchanger 11 is coaxially mounted in the housing 1, in the center of which there is a gas supply pipe terminating with a gas nozzle. An air channel is located between the inlet pipe and the heat exchanger. Overflow tubes are attached to the gas nozzle, connecting the gas nozzle to the mixing chamber. The stabilizer and the heat pipe are reinforced in the housing by means of guides, and in addition, the heat pipe is centered by the cams. There is a gap between the stabilizer and the flame tube. Inside the stabilizer, there are gas pre-mixing chambers with air, which are connected by an annular bypass channel, and there are holes in its end. The gas pre-displacement chambers are placed coaxially with respect to each other and the stabilizer, the main one is designed to receive the gas-air mixture with T 1.05-1.08 and has the shape of a truncated cone, and a gas supply tube is inserted into it from the side of the wide base.

The additional chamber, in which the gas-air mixture is obtained with 11 0.6-0.7, has an annular shape, the outer surface is the surface of a truncated cone, a part of the inner surface on the side of the main chamber is conical, and the other part is cylindrical. The annular channel for removal of combustion products is located between the housing 1 and the "flame tube 2.

The operation of the dead-end radiation tube is as follows.

The gas through the pipe 12 and the nozzle 15 is supplied to the main chamber, where it is mixed with air entering this chamber through the nozzle 13 and the annular channel 14. Gas and air are supplied to the main chamber to produce a gas-air mixture with an air flow rate T1 of 1.05-1.03. From the chamber, most of the gas-air mixture (80%) is sent to the flue pipe 2, where it burns out. The rest of the gas-air mixture from the main chamber enters through the overflow channel 8 into the additional chamber, where it mixes with the pure gas entering the additional chamber through the overflow pipes 10, resulting in a gas-gas mixture with 0.6-0.7. From this chamber, the gas-air mixture leaves channel 5 at a slow speed. The ignited mixture burns out as separate stable flares that ignite the main flow of the gas-air mixture leaving the main chamber into the combustion tube 2. The radiation tube is ignited using a pilot (gas, electric) introduced into the tube through the nozzle 19.

During the operation of the radiation tube, the combustion products from the "flame tube 2" enter the annular channel 17 to discharge the combustion products through the openings 3 dispersed over the entire surface of the "flame tube 2. The combustion products are sent to the heat exchanger, while some of the combustion products enter through the gap 9 into the fire tube. From the heat exchanger, the combustion products are removed to the atmosphere through a flue 19 nozzle.

Claims (2)

1. France, Patent M 1277790, F 23, 1961. 2. GDR patent No. 86665, 24 C 10, 1971,