SU1330085A1 - Apparatus for making glass tubes - Google Patents

Abstract

The invention relates to the construction and building materials industry and can be applied in the glass industry in the manufacture of glass pipes of various diameters and glass compositions. In order to increase the speed of pipe drawing and to improve the quality and yield of products, the device for making glass pipes is equipped with a heat exchanger 9, which is a system of pipe 10 in pipe 11. The energy emitted by the inner surface of the glass pipe is absorbed the outer surface of the pipe 11 of the heat exchanger 9 according to the law of Stefan-Boltzmann, thermal conductivity is transferred to the inner surface of the pipe 11 and further convection is selected by the refrigerant entering through the holes of the inner pipe 10. Pa The (silver) surface of the outer pipe 11 is more efficiently absorbed, radiates radiant energy and transfers it to the coolant, and also twists and turbulizes the air supplied to the pipe forming, which additionally leads to some increase in convective cooling of the pipe. There is a uniform cooling of the pipe from the inside, outside and around the perimeter. 3 hp f-ly, 1 ill. (L with with СХ5 О1

Description

The invention relates to the construction industry, to equipment for the production of cylindrical hollow articles translucent for thermal radiation, and may find application in the glass industry in the manufacture of glass pipes of various diameters and glass compositions.

The purpose of the invention is to increase the speed of pipe drawing and to improve the quality and yield of products.

The drawing shows an installation for the manufacture of glass tubes by vertical drawing.

The installation of the vertical extrusion of 15 pipes 1 consists of a furnace 2 with molten glass mass 3 and a vehicle chamber 4, a protective duct 5 with rollers 6. A refrigerator 7, a pipe 8 for supplying compressed air and heat

Claims (2)

1. A device for the manufacture of glass pipes, containing an annular holo., .J- „..... dilnick, core, chamotte nozzle, pipe a heat exchanger 9 (pipe 10 in pipe 11), fireclay for supplying compressed air and located nozzle 12 and core 13. inside it is perforated coaxially. The process of cooling and forming the pipe is carried out as follows. In the furnace 2 there is a melt glass mass pipe for supplying the refrigerant, which is different in that in order to increase the speed of the pipe drawing and the improvement of the cascade 3. Extracted from the melt with rolls of 25 quality and yield, it provided with an additional deaf pipe installed between the compressed air supply pipe and the perforated coolant supply pipe, with the blind pipe connected to the discharge line 6 glass tube 1 passes through the refrigerator 7 and the protection box 5. Outside the pipe is cooled by the refrigerator 7, and from the inside, and by the heat exchanger 9 and very slightly by air (due to convection), which enters through the pipe 8. The flow rate of the refrigerant 30 is air inside the glass pipes strictly2. The device according to claim 1, characterized by - Q, determined by shaping its geometry that the holes of the perforated pipe dimensions (diameter and wall thickness). The process of cooling the inner surface is overwhelmed. with the diameters increasing to its upper part, and the intercenter races of the glass tube occur as follows, decreasing to the upper part ti. shimm way. When leaving the melt, the pipe 1 has a temperature of approximately 3. The device according to claim. JQ, equal to the temperature of the melt, (1050-that perforated tube is made of 1070 ° C). The energy radiated by the internal textolite or with a layer of thermal insulation, the surface of the glass pipe, absorbs-4. The device according to claim. The outer surface of the pipe 11, heat 40, is deaf; mana, thermal conductivity is transferred to thermal conductivity. the internal surface of the pipe 11 and further by convection is taken off by the refrigerant, supplied by them, through the openings of the internal pipe 10. The surface is developed (effective) The outer tube absorbs radiant energy more efficiently and transfers it to the refrigerant, and also additionally twists and turbulizes the air supplied to the tube, which additionally leads to a slight increase in convective cooling of the tube. When using a heat exchanger, conditions are created for both more intense and uniform cooling of the pipe inside and outside, as well as around the perimeter. Invention Formula  for supplying compressed air and a perforated tube located inside the coaxially it for supplying the refrigerant, which is different in that in order to increase the speed of the pipe pulling and to improve the quality and yield of the product, provided with an additional deaf pipe installed between the compressed air supply pipe and the perforated coolant supply pipe, with the blind pipe connected to the discharge line refrigerant 2. The device according to claim 1, characterized by - Q, that the holes in the perforated tube you are full. with diameters increasing to its upper part and intercenter distances 35 ti.