RU171679U1 - DEVICE FOR OBTAINING BLOCK FOAM GLASS - Google Patents

Abstract

The utility model relates to the field of producing block foam glass and can be used in the building materials industry. The technical result, which is aimed at a utility model is an increase in the productivity of producing block foam glass. To achieve the technical result, the proposed device includes a powder feeder and a plasma reactor, which is a cylinder made of a copper casing with water-cooled shirts, containing a tungsten electrode with channels for supplying plasma-forming gas, fixed in the opening of the upper wall of the casing perpendicular to metal molds for forming block foam glass, which are transported on a plate conveyor, and the plasma reactor is equipped with quartz pipelines, installed Applicants' parallel to the axis of the plasma torch.

Description

The utility model relates to the field of producing block foam glass and can be used in the building materials industry.

Similar devices for producing block foam glass are known in the art.

The disadvantages of these devices include the complexity of the hardware design, high energy consumption, the duration of the technological process for producing block foam glass.

The closest technical solution to the proposed device, adopted as a prototype, is a device for producing block foam glass (RF patent No. 247170), including a powder feeder and a plasma reactor, which is a cylinder made of a copper case with water-cooled shirts, containing a tungsten electrode with channels for supplying plasma-forming gas (argon), fixed in the opening of the upper wall of the housing perpendicular to the metal molds for forming block foam glass, which transport They are mounted on a plate conveyor.

A disadvantage of the known device is low productivity.

The technical result, which is aimed at a utility model is an increase in the productivity of producing block foam glass.

To achieve the specified technical result, the proposed device includes a powder feeder and a plasma reactor, which is a cylinder made of a copper casing with water-cooled jackets, containing a tungsten electrode with channels for supplying plasma-forming gas (argon), fixed in the opening of the upper wall of the casing perpendicular to the metal molds for molding block foam glass, which are transported on a plate conveyor, and the plasma reactor is equipped with quartz pipelines for feeding the granules of the charge, installed parallel to the axis of the plasma torch.

The claimed device differs from the prototype in that the plasma reactor is equipped with quartz pipelines mounted parallel to the axis of the plasma torch.

Pipelines made of quartz glass do not accumulate static electricity, which prevents particles from sticking to their surface, as a result of which there are no blockages in the pipelines.

From the above list of features of the claimed device and the achievement of the technical result, it is clearly seen that the claimed technical solution is a new set of features that provide a new technical result, not known at the filing date of the application.

The proposed device is industrially applicable, as it can be used in the production of building materials.

The technical solution of the claimed device meets the criterion of "novelty", since it is unknown from the prior art at the date of application. The proposed device is illustrated in the figure.

The device consists of a housing 1 with openings 2, 3 and 4. A plasma reactor 5 with integrated quartz piping 6 and water-cooled shirts 7, as well as powder feeders 8 for loading the charge granules, are fixed in the opening 4 in the upper wall of the housing 1 perpendicular to the metal molds 9, 10 , 11, which are intended for molding block foam glass. Metal molds 9, 10, 11 are transported on a plate conveyor 12.

An example of using the installation.

Metal plates 9, 10, 11 are placed on a plate conveyor 12 through an inlet opening 2 for forming block foam glass. Before igniting the plasma torch of the plasma reactor 5, charge granules are loaded into the powder feeder 8, which, under the influence of the dynamic pressure of the plasma-forming gas (argon), enter the quartz pipelines 6 of the plasma reactor 5. The high temperature of the plasma torch (8000-15000 K) foams the charge granules to the formation of conglomerates of foam glass. Then the conglomerates of foam glass under the influence of exhaust gases are sprayed into metal molds 9, 10, 11. A plate conveyor 12 transports metal molds 9, 10, 11 with block foam glass to the exit opening 3 from the housing 1.

Claims (1)

A device for producing block foam glass, including a powder feeder and a plasma reactor, which is a cylinder made of a copper casing with water-cooled jackets, containing a tungsten electrode with channels for supplying plasma-forming gas, and the powder feeder and plasma reactor are fixed in the aperture of the upper wall of the casing perpendicular to metal molds for forming block foam glass, characterized in that the plasma reactor is equipped with quartz pipelines mounted in parallel but the axis of the plasma torch.

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