DE20101882U1 - Abrasive - Google Patents

Description

Blasting media

The invention relates to a blasting agent for cleaning and/or degreasing surfaces.

In the known blasting systems, the surfaces of objects are blasted. Using a carrier medium, such as compressed air or water and particles distributed in it, the blasting agent, layers of paint or corrosion and other contaminants are removed from the surfaces to be treated. Corundum, sand and glass beads are generally used as blasting agents.

During sandblasting, the abrasive particles hit the surface of the object to be treated and tear away corrosion or paint particles from the surface, for example. The kinetic energy of the abrasive blasting or grinding particles is needed to remove the unwanted corrosion or paint particles from the surface.

In addition to the abrasive blasting media, the use of which generally results in a mechanical change to the treated surfaces and can even lead to damage to the surfaces, plastic or synthetic granules can also be used as so-called soft blasting media. The purpose of these blasting media is, for example, the cleaning of facade surfaces or elements, figures, sculptures and various other objects to be cleaned that are made of relatively soft materials, at least on the surface. Such materials include natural stone, especially sandstone, plastics and the like.

The main disadvantage of using the described blasting media is that oil and grease-containing contaminants cannot be removed or can only be removed inadequately.

Based on this, it is the object of the invention to propose a new blasting agent which has a cleaning and degreasing effect on the treated surface and whose mechanical blasting power can be adjusted depending on the degree of contamination of the treated surface.

An inventive solution to this problem is specified in claims 1 and 5. Further developments of the invention are characterized in the subclaims.

According to the concept of the invention, rubber-elastic materials are used as blasting media, for example for the treatment, i.e. cleaning, of contaminated industrial floors, engines, floor coverings, machines, systems, etc.

In a first embodiment of the new blasting agent, swellable rubber granules of different grain sizes are used, for example in the diameter range 0.2 - 0.8 mm; 0.4 - 1.6 mm; 1.6 - 2.5 mm.

Swellable rubber granules can essentially contain the following rubber vulcanizates: natural rubber, styrene-butadiene rubber, butyl rubber, ethylene-propylene-diene rubber, silicone rubber, polynorbornene rubber. These rubber vulcanizates have the property of swelling when oil is absorbed and "holding" the oil on the surface and inside. Some of these rubber granules come from the processing of old tires and/or are produced during the recycling of technical rubber waste. The two rubber vulcanizates natural rubber and styrene-butadiene rubber are so-called old tire granules.

However, it is difficult to reprocess the used oil binders/blasting agents. As a rule, disposal is carried out in the same way as waste oil, which ultimately leads to incineration in waste incineration plants or cement plants.

The unspecified oil typeZ ingredients are disposed of as (hazardous) waste for a fee.

In a second embodiment of the new blasting agent, a high temperature and oil-resistant rubber granulate is used instead of a swellable oil binder/blasting agent. This granulate preferably consists of acrylate rubber or acrylonitrile butadiene rubber, which is used, for example, in the automotive industry (engine sector) and in the chemical basic industry (here, among other things, for seals). The deposit of the blasted dirt only occurs on the surface of these rubber granulates.

This superficial accumulation of dirt and grease components prevents the rubber grain from swelling and the blasting media can be reprocessed by centrifuge treatment and/or extraction. At least 90% of the grease load is separated and the blasting media can be fed back into the blasting media cycle.

Due to the elasticity of the rubber granulate, there is no irreversible wear due to broken edges during processing or during the recycling process of the blasting media.

Separation of the blasting media from the loading materials/residues is possible in a processing plant. The separate disposal of the residues and the reusability of the blasting media are convincing advantages of this blasting media

Regarding the grain size spectrum of the granulate used, a range of > 400 μηι to about 5 mm is recommended.

Grain sizes of < 200 μπα can lead to the settling of dust-like fine powders when statically charged.
A grain size of 0.8 - 2.5 mm has proven to be favorable.

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The oil-binding effect of the selected rubber granules in combination with the mechanical energy released when they hit surfaces leads to good cleaning performance in the area of grease/oil and old paint.

The elasticity of the rubber grain is of great benefit when using the blasting medium, as it prevents damage to surfaces; in this way, the function of seals, solid paints and existing rubber coatings is not impaired by the cleaning process.

An improvement in the mechanical blasting performance, the mechanical blasting effect, is possible by (deep) cooling the rubber grain, which heats up again upon impact.

It is also conceivable to use ice blasting and rubber granulate in combination to improve blasting performance in certain applications.

Alternatively, to improve the mechanical blasting performance, abrasive blasting elements such as corundum, glass beads and/or sand can be added to the rubber granulate in a variable mixing ratio.

Adaptation to the degree and type of contamination is possible by selecting the granulate size, namely finer grain for highly viscous layers, coarse grain for stubborn dirt.

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Claims (12)

1. Blasting media for cleaning and degreasing surfaces, characterized in that swellable rubber granules with a grain spectrum of > 400 µm to about 5 mm are intended as blasting media. 2. Blasting agent according to claim 1, characterized in that the following rubber vulcanizates can be used as swellable rubber granules: natural rubber, styrene-butadiene rubber, butyl rubber, ethylene-propylene-diene rubber, silicone rubber, polynorbornene rubber. 3. Blasting agent according to claim 1 or 2, characterized in that old tire granules, namely natural rubber and styrene-butadiene rubber, can be used as swellable rubber granules. 4. Blasting medium according to one of claims 1 to 3, characterized in that the grain spectrum preferably covers the ranges 0.2-0.8 mm; 0.4-1.5 mm and 1.6-2.5 mm. 5. Blasting media for cleaning and degreasing surfaces, characterized in that highly temperature-resistant and oil-resistant rubber granules made of acrylate rubber and/or acrylonitrile-butadiene rubber with a grain spectrum of > 400 µm to about 5 mm are used. 6. Blasting agent according to claim 5, characterized in that the following rubber vulcanizates can be used as high temperature-resistant and oil-resistant rubber granules: nitrile rubber, fluorine rubber and polyacrylate and ethylene acrylate rubber. 7. Blasting medium according to claim 5 or 6, characterized in that the grain spectrum preferably has a diameter range of 0.8-2.5 mm. 8. Blasting agent according to one of claims 1 to 7, characterized in that (deep) cooling of the granulate takes place to improve the mechanical blasting performance. 9. Blasting agent according to one of claims 1 to 7, characterized in that ice blasting is combined with the rubber granulate to improve the mechanical blasting performance. 10. Blasting agent according to one of claims 1 to 7, characterized in that to improve the mechanical blasting performance, abrasive blasting elements are added to the rubber granulate in a variable mixing ratio. 11. Blasting medium according to claim 10, characterized in that corundum and/or glass beads and/or sand are provided as abrasive blasting elements. 12. Blasting medium according to one of claims 5 to 11, characterized in that the contaminated blasting medium is reprocessed by separating the rubber granulate from the loading materials/residues by centrifuge treatment and/or extraction.