DE4242631A1 - CRT disposal - uses a wash reactor for ground glass and metal and plastics, with medium to dissolve glass coating - Google Patents

Abstract

For the disposal of CRTs, at least the glass and also if required the metal and plastics components are granulated and ground. They are processed together in a wash reactor as a glass-metal fraction of glass-metal-plastics fraction, to be washed with a medium which at least partially dissolves the coating on the glass. The washing medium is regenerated within a closed circuit in the wash reactor. When the glass-metal-plastics fraction leaves the wash reactor, it is dried, and passed to a separator stage for separation by winnowing. The cathode is separated from the CRT before the material is ground and granulated, together with manual removal of the control, cables, deflection coil and housing. USE/ADVANTAGE - The method disposes of CRTs effectively, with min. effect on the environment.

Description

The invention relates to a method for disposing of Picture tubes made of glass with coating, metallic Components such as metal frames, and a cathode as well if necessary, plastic components exist.

The disposal of picture tubes will be a whole thing in the future pose a significant problem since the deposition of the Picture tubes on normal landfills are no longer possible becomes. That means millions of screens from Seller withdrawn over the course of a year and one proper disposal must be supplied.

Modern picture tubes are made of a variety of materials manufactured, which are recovered separately if possible have to. The picture tube consists of a screen, a Tube cone and an electron beam system (cathode). The screen and cone are usually glued together, while the cathode is melted into the piston neck.  

The screen is covered with a fluorescent suspension, which three different phosphors correspond to the three emitted colors blue, green and red. Both Phosphors are zinc sulfide, zinc Cadmium sulfide and yttrium vanadate. These are phosphors covered with an aluminum layer to the rear. Further the screen is connected to a shadow mask that is made of thin sheet made of chrome nickel steel, which on one Steel ring is wound exists. The screen glass contains also certain additives, such as. B. Ceria. Of the Cone is made of glass, which is especially lead oxide Contains absorption of x-rays. He is also inside blackened with graphite. Another component is the Melted anode contact.

The electron beam system consists of three electrons jet generators according to the three basic colors and the Focusing and convergence facilities. The entire system is made of sintered glass insulating bars mechanically fixed. At the bottom is the press adjuster welded, with the help of which the blasting system in the Glass bulb is melted. Furthermore, here is the Getterring attached, in which barium than the during getter substance to be evaporated during the manufacturing process located. Centering and contact springs are additional Components. The system contains a total of 120 to 130 metallic individual parts, which are predominantly made of Chromium-nickel steel exist. The preparation of such A picture tube for sensible recycling is with one such a complex product is not easy.

The present invention is based on the object Procedure of the above Way of creating by what Picture tubes properly disposed of and the environment so low is affected as possible.  

The solution to this problem is that at least the glass but also the metallic components as well if necessary, granulate the plastic components or crushed and together in a washing reactor as Glass fraction, glass / metal fraction or glass / plastic / me tall fraction with a glass coating at least partially detergent (wash liquor) can be washed.

This process has the main advantage that the Glass granules with each other or with the metal granules Metal fraction rubs considerably during the washing process, so that a violation of the relatively soft coating of the Glass takes place through the metal and the peeling Means has better access to the coating. As a result, only water or at least one can be used as the agent less harsh chemical agent can be used, whereby achieved a good success due to the mutual friction becomes.

Furthermore, the wash liquor in the wash reactor is in one closed circuit, the washing liquor regenerated within this closed cycle becomes. This is done, for example, by evaporation of the Wash liquor so that the liquid components (distillate) can be fed back to the washing reactor while only the solid components (concentrate), which especially the elements from the coating, d. H., Zinc sulfide, zinc cadmium sulfide and yttrium vanadate as well Including and discharged graphite and barium oxide can be disposed of properly. The concentrate can otherwise be treated in such a way that the contained recyclables can be recovered. For example, this can be done using a sink-levitation method or by electrolytic means. The phosphors can be sold again, especially the Yttrium vanadate is very expensive and sought after.  

After washing, the preferred fraction is preferred dried and fed to a separation plant. Through this Separation plant then becomes the fraction in its three Split components, d. H. the glass, now without Coating, the plastic and the metal can be separated to be disposed of or recycled. This is one given considerable economics of the process.

How the separation takes place is mostly of minor importance Importance. On the one hand, it is thought of the political groups enter into a wind sifter and separate them there. It is also possible to remove the metallic fraction through magnets. If there are still non-ferrous metals in the Fraction may be present, so an electrostatic Treatment done with the non-ferrous metals can be eliminated.

Also essential in the present process is Separation of the cathode before granulation of the picture tube. The cathode is a delicate part of the picture tube because on the one hand, it contains very harmful substances, on the other other but also very valuable substances. Therefore, the Undergo a separate treatment. According to the present method, the cathode is before the Granulation knocked off the picture tube, for example.

As a rule, the picture tube is not a separate one Part is delivered, but within one Device, it is before treating the picture tube necessary to disassemble the entire device and one properly recycled, d. H. there is a manual separation of the picture tube from the others Components of the device, such as cables, deflection coils, housings, Control boards etc.  

Further advantages, features and details of the invention result from the following description of a preferred embodiment and based on the Drawing; this shows one in her only figure Block diagram representation of the invention Procedure.

Since picture tubes are generally not delivered independently for disposal, they are usually located in a housing with further control elements, cables, deflection coils and the like. According to the present inventive method, such a product 2 containing a picture tube 1 is manually broken down into individual components, for example housing part 3 , control elements 4 , cables 5 and deflection coils 6 . These are then separated again or sent together for further disposal or recycling.

The picture tube 1 , on the other hand, arrives in a system 7 for separating the cathode. For example, this system 7 can consist of a conveyor belt, above which a device for knocking off the cathode is arranged. The cathode marked with 8 is then sent for separate recycling.

The now after the facility for separating the cathode This picture tube consists essentially of glass and a metal frame, with which the two picture tube parts are held together. It can also be found in the picture tube also have a metallic mask. In many cases there are also plastic nipples on the picture tube for grounding, so that plastic components are also available.

The picture tube in this state reaches an apparatus 9 in which the picture tube is granulated or comminuted. This applies to the glass as well as to the metallic and any plastic parts that may still be present. This creates a glass / metal fraction or, if plastic is present, a glass / plastic / metal fraction. This fraction passes from the apparatus 9 into a washing reactor 10 , in which the granules are preferably washed with a water or an adequate medium which removes the dangerous glass coating. A closed circuit also takes place in this washing reactor, with the corresponding washing liquor being regenerated within the washing reactor. The washing of the glass is significantly improved above all by the joint treatment with the metal fraction and by the mutual friction that occurs as a result.

After washing, the fraction is discharged from the washing reactor and subjected to drying. Then it passes into a separation system 11 , in which the individual glass and metal fractions or, if applicable, plastic fractions are separated. On the one hand, this can be done by an air classifier. It is also possible to arrange a magnetic or electrostatic device. Many variations are conceivable here, which are intended to be encompassed by the present inventive concept.

After the separation system 11 , the individual glass, metal and plastic fractions are then fed to a separate disposal or recycling into the economic cycle.

Claims (6)

1. A process for the disposal of picture tubes, which consist of glass with coating, metallic components, such as metal frame, and a cathode and optionally plastic components, characterized in that at least the glass, if necessary. The metallic components and optionally the plastic components are granulated or crushed and washed together in a washing reactor as a glass / metal fraction or glass / plastic / metal fraction with an agent (washing liquor) at least partially detaching the glass coating. 2. The method according to claim 1, characterized in that the wash liquor within the wash reactor in one closed circuit is regenerated. 3. The method according to claim 1 or 2, characterized characterized in that the glass / plastic / metal fraction after dried the washing reactor and fed to a separation plant becomes. 4. The method according to claim 3, characterized in that the separation is carried out by air sifting. 5. The method according to at least one of claims 1-4, characterized in that before the granulation Cathode is separated from the picture tube glass. 6. The method according to at least one of claims 1-5, characterized in that at the beginning a manual  Separation of the picture tube from control, cable, deflection coil and housing and the individual parts separately granulated or crushed.