RU2191638C2 - Fraction separation apparatus of apparatus for reprocessing of luminescent mercury-containing lamps - Google Patents

Abstract

FIELD: equipment for separating metal caps from broken glass. SUBSTANCE: apparatus has housing, drive, toothed roll mounted for rotation, inclined perforated sheet and feeding hoppers. Roll teeth are made in the form of bias-cut grooves. Teeth space and space between roll and perforated sheet are less than diameter of perforations. Apparatus provides for complete separation of fractions without recirculation. EFFECT: simplified construction, enhanced reliability in operation, reduced power consumption and improved ecology control. 2 dwg

Description

 The invention relates to the field of demercurization of mercury-containing fluorescent lamps and can be used to separate metal caps from cullet.

 A known unit for the separation of non-ferrous metals from non-metals, which is a magnetic pulse separator of non-ferrous metals (1). The disadvantage of this separator is the need for a pulsed generator of powerful magnetic fields in the form of a capacitor bank, the need for a large-sized water-cooled inductor, which makes it impossible to use it in a mobile installation.

 A device for separating fractions of a technological installation for the processing of fluorescent mercury-containing lamps, comprising a housing, a drive, a roller with teeth, mounted for rotation, an inclined perforated sheet and receiving bins (2). This device is the closest to the claimed, therefore, adopted as a prototype. The disadvantage of the prototype is that its design does not provide a complete separation of cullet from metal inclusions.

 The essence of the claimed invention lies in the fact that in the known device comprising a housing, a drive, a roller with teeth mounted rotatably, an inclined perforated sheet and receiving hoppers, the teeth of the roll are made in the form of helical cutting, while the distance between the teeth and the distance between the roller and the perforated sheet is made smaller than the diameter of the holes in the perforated sheet.

 The described design guarantees the grinding of cullet to a size smaller than the diameter of the holes in the perforated sheet, and due to this ensures complete separation of the fractions without recirculation.

 A comparative analysis of the claimed technical solution and prototype showed that the claimed technical solution has features that do not coincide with the prototype, namely, the teeth of the roll are made in the form of helical cutting, while the distance between the teeth and the distance between the roller and the perforated sheet is less than the diameter of the holes in the perforated sheet .

 Thus, we can conclude that the claimed technical solution meets the criteria of the invention of "NOVELTY."

 A comparative analysis of the claimed device and other technical solutions showed that mechanical separators of homogeneous granular material are widely used in technology, but only the totality of the claimed features provides a solution to the problem. Only the presence of a helical-cut roll with a distance between the teeth and a distance between the roll itself and the perforated sheet smaller than the diameter of the holes in the perforated sheet allows the cullet to be separated from the metal elements of the lamps without recirculation. This is achieved by creasing the caps, the sizes of which become much larger than the diameter of the holes in the perforated sheet, and therefore they cannot fall into these holes, and the cullet is crushed by a roller to sizes guaranteed to be smaller than the diameter of the holes (due to helical cutting, slipping of thin but long pieces of cullet), and falls through them. Thus, we can conclude that the claimed technical solution meets the criteria of the invention "INVENTIVE LEVEL".

 In FIG. 1 shows a device for separating fractions of a technological installation for processing fluorescent mercury-containing lamps, FIG. 2 is a view A in FIG. 1.

 The device consists of a housing 1 having a receiving neck 2, bins 3 and 4 for receiving cullet and metal elements, respectively. Inside the housing there is a gear roll with helical cutting 5, made for rotation (the drive is not shown) and an inclined perforated sheet 6 connected to the vertical partition 7. Above the roll 5 is a bump 8. The bins 3 and 4 are equipped with hatches 9 and 10.

A device for separating fractions works as follows:
After calcination, a mixture of cullet and metal elements (caps) enters the intake neck 2 from a heat chamber connected to it (not shown). The chipper 8 sends a mixture of cullet and caps into the gap between the roll 5 and the perforated sheet 6. In the gap between the rotating roller 5 and the perforated sheet 6, the cullet is crushed to a size smaller than the diameter of the holes in the perforated sheet 6 (due to helical cutting of the roll 5 is excluded the possibility of slipping thin, but long pieces of cullet), due to which the glass chips fall into these holes and concentrate in the hopper 3. The aluminum caps crushed by the roll 5 are larger than the diameter of the holes in the perforated sheet 6, slide along it and concentrate in the hopper 4. The perforated sheet 6 and the partition 7 separate the cavities of the bins 3 and 4. The contents of the bins 3 and 4 are periodically removed from them through the hatches 9 and 10.

 The inventive fraction separation unit is simple in design, reliable in operation, does not require large energy costs and guarantees complete environmental safety.

Sources of information
1. Reports of the Fourth All-Russian Scientific and Practical Conference with International Participation "New in Ecology and Life Safety", St. Petersburg, July 16-18, 1999, in two volumes, ed. Doctor of Technical Sciences prof. Ivanova N.I., Balt. state tech. University (BSTU), St. Petersburg. 1999, t 1., p. 65.

 2. SU 119520 A, 04/04/1959, B01D 43/00.

Claims (1)

 A device for separating fractions of a technological installation for processing fluorescent mercury-containing lamps, comprising a housing, a drive, a roller with teeth mounted for rotation, an inclined perforated sheet and receiving hoppers, characterized in that the teeth of the roll are made in the form of a helical cutting, while the distance between the teeth and the distance between the roll and the perforated sheet is made smaller than the diameter of the holes in the perforated sheet.

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