DD224323B5 - RELEASE PROCEDURE FOR FLUORESCENT COMPONENTS IN FLUORED COATINGS - Google Patents

Description

The stripping method is used in the field of reprocessing of scrap tubes, scrap lamps and the production-related committee of the relevant industries. The process makes it possible to recover the coating phosphors and to recycle them with the aim of using these substances in the production process.

The hitherto known technical solution involves the manual separation of rare earths from open picture tubes. From scrap lamps so far no return of coating materials, since the attack can not be processed manually in the form of broken pieces.

The use of the ultrasonic effect to detach the coating materials has hitherto been used in the cleaning of optical glasses. This abrasive and fat components of lenses and glasses are removed and thus cleaned.

Furthermore, the cleaning of z. B. glass ampoules known by ultrasound. Of the processes described in DE-OS 2747044 B 08 B 3/12, the inventive method differs in that not only the glass part but also the other components to be recovered and reused.

The removal of coatings of various types is described in GB-PS1547 593 B 08 B 3/10. It is z. B. the removal of calcium deposits on sanitary ware described. This method thus serves to clean the ceramic body.

The purpose of the invention is the replacement of coating materials from picture tubes and coated lamps. This replacement process should replace the corresponding manual work and bring about a corresponding increase in the quality of the separation process. At the same time, a cleaning of the glass components, so that they can be fed to reuse by use in the molten glass.

By using the illustrated method, the following economic effects arise:

- Recovery of rare earth coatings from picture tubes and lamps, so that they can be recycled with appropriate treatment in the production process and thus contribute to the reduction of imports.

- Cleaning the coating carrier, which consist of lead glass and borosilicate. By a high cleaning effect is made possible that an employment of the coating carrier in the production process of picture tubes or lamps is made possible. Thus, the requirements for the primary material are achieved by the cleaned coating carrier glass.

The inventive method is intended to replace the previous manual processing of scrap tubes. At the same time, it is possible to supply lamps with coatings to a recovery. As a result of the treatment with the separation process, coating material and carrier material (glass) are subjected to high-quality reuse. The separation process is based on the effect of the release of the coating materials and impurities from the glass by the application of ultrasound. For this purpose, the parts to be treated are pulled through a continuous conveyor belt through an ultrasonic bath. The solvent used is water. To increase the separation effect or depending on the coating materials, the water can be mixed with surface-relaxing substances. Pressure and temperature are to be adjusted to ensure the separation effect of minor role and according to the environmental parameters (room temperature).

The method described has the advantage that not only the glass body is cleaned and reused, but also the very high quality phosphors.

The invention is explained below with reference to two examples.

Embodiment 1

The realization of the invention can be done by coupling existing equipment. For this, the phosphor-coated bodies are processed in the order listed:

- Crushing by suitable aggregates depending on the carrier material of the phosphor (impact crushers, hammer mills, etc.).

- Passage of the comminuted carrier material through an ultrasonically activated immersion bath. The carrier material is drawn through the bath with a continuously moving conveyor belt. After a sufficient residence time of about 30 seconds, the adhesive phosphor is distributed in the liquid, so that the cleaned support materials can be removed again.

- By forced flows, which are generated by circulating pumps on the dip, the cleaning effect is increased. At the same time, the discharge of the phosphor coating from the immersion bath with corresponding recycling of the cleaning liquid into the bath takes place by means of appropriate separation elements such as hydrocyclones and peeler centrifuges.

The advantage of using this cleaning is the following:

• The process can be designed as a continuous or discontinuous process by appropriate charging and shape of the dip bath and depending on the amount produced.

• This cleaning process achieves a cleaning level of approx. 98%.

• Since only physical processes take place, a costly conversion of the substance is not present, i. h "It's an energy-efficient cleaning.

• The jobs at the cleaning system, according to the invention, are industrial safety without special expenses.

• In the illustrated system, phosphor-coated bodies of various geometric dimensions can be cleaned simultaneously.

Embodiment 2

The invention is applicable to undamaged vessels when operating in the following order:

- The undamaged glass vessels (eg lamps or picture tubes) are placed in a water bath and forced through a metal grid under the water surface so that they are completely surrounded by water.

- Ultrasonic vibrators in the immersion bath transmit high-frequency vibrations through the water to the glass body. Due to the different physical properties (in particular due to the density differences) of glass and phosphor, resonance phenomena occur, which lead to a "bulging" of the phosphor layer and thus cause a detachment of these parts from the glass.

By suitable position of the vessels, the phosphor can thus be collected in a certain part of the vessels (eg cone part of the picture tube or cylindrical part of the cathode unit or in one end of a rod-shaped fluorescent lamp). As an advantageous additional effect, this simultaneously causes an accumulation of mercury, z. B. is contained in discharge lamps.

- To separate and recover the individual material components can be carried out by mechanical separation of the vessels (cutting, thermal shock separation or knocking) into each pre-cleaned or enriched with phosphor parts.

The advantage of using this replacement is the following:

• The phosphor is peeled off the glass.

• By properly setting the vessel, the phosphor is collected at preselected locations.

• No emissions occur with this procedure.

• In the immersion bath, an external cleaning of the glass vessels of adhering impurities takes place at the same time, whereby by adding small quantities of cleaning agent certain specific impurities can be removed.

Claims (3)

1. stripping method for phosphor components of phosphor-coated glass substrates, in particular picture tubes or coated lamps, with ultrasound in a water bath, characterized in that rare earths and / or other phosphors or their mixtures are completely detached and fed to a reuse. 2. stripping method according to claim 1, characterized in that both lamps and picture tubes and shards thereof are used. 3. stripping method according to claim 1, characterized in that the resulting suspension of solvents and rare earths and / or other phosphors or mixtures thereof can be continuously removed and processed at constant concentrations.