SU1655920A1 - Glass hardening device - Google Patents

Abstract

The invention relates to equipment for the tempering of glass, can be used in the field of glass-making industry and improves the quality of glass and simplifies the design of the installation. During the processing, the moving slit air flow produces an additional slit suction of heated air from each interstitial space in such a way that the air flow is given a parabolic character. For this, between the vertical nozzles 4 mounted on the frame 1, vertical pipes 7 of the suction device 6 are placed. The suction device and the nozzles are mounted with the possibility of joint oscillation around the glass. The grooves of the nozzles are made at an acute angle to the vertical. Provides uniform removal of heat from the entire surface of the glass, which reduces the contrasting spots and lines. 3 il. Yo

Description

The invention relates to equipment for the tempering of glass and can be used in the manufacture of glass products.

The purpose of the invention is to improve the quality of glass and simplify the design of the installation.

FIG. 1 shows an installation for tempering glass, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows the node I in FIG. one.

The installation contains a frame 1 installed with the possibility of oscillation from the actuator 2. On the frame 1 there are mounted blower grids 3, into which the nozzles 4 are screwed through the gasket 5. Behind the blower grids 3 are installed suction devices 6 with tubes 7 welded into them with the help of brackets 8 having longitudinal slots for movement relative to the blower grids 3. Suction devices 6 communicate with the fan 9

The installation works as follows.

The air ducts and the fan 9 are turned on, providing a parabolic flame for cooling air outflow from the nozzle by setting, and the drive 2 is turned on. Enter the glass using a roller table and special suspensions (not shown) into the quenching zone and hold the shutter according to the process. Tempered glass is withdrawn from the quenching zone and the cycle ends.

The parabolic glass cooling air flow is adjusted using valves that supply air to the nozzle 4 and suction air from the pipes 7, as well as a predetermined distance between the suction device and the nozzles 4, which regulate the outflow of air and pressure

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For example, increasing the air pressure in the nozzles from 0.2 to 0.3 atm with a constant air suction rate of 10 m / min increases the steepness of the parabola, and with an increase in the suction rate from 10 to 15 m / min with constant pressure 0, 2 atm. Parabolic airflow acquires a gently sloping curvature.

Claims (2)

For the combiner, the pressure and distance are selected for a certain glass section, the optimal curvature of the parabolic air flow ensures maximum heat removal from the product and maximum air evacuation from the inter-compartment space. Due to the joint oscillation of the suction device with nozzles, the 4 zones of contact of the parabolic torches with glass overlap, ensuring uniform heat removal from the entire glass surface, which also helps to reduce stains and lines. The invention The apparatus for tempering glass containing a heating furnace and mounted on frames with the possibility of reciprocating movement of the blower grids with nozzles connected to the collectors and suction devices, characterized in that, in order to improve the quality of the glass and simplify the construction of the installation, the nozzle and the suction device are made in the form of vertical pipes installed with a gap longitudinal grooves, the plane passing through the vertical axis of the groove is inclined at an acute angle to the vertical; suction piping tubes are installed behind the nozzle tubes in each gap. v Glass i / 1- -f- Ff Fzg1 Parayolic torch l And Longitudinal And And right 0 g2 ft / 2.J