DE20019282U1 - Shot blasting machine - Google Patents

Description

Blasting system

The invention relates to a blasting system.

The surfaces of objects are blasted in blasting systems. Using a carrier medium, such as compressed air or water and particles distributed in it, the blasting agent, discoloration or corrosion layers and other contaminants are removed from the surfaces to be treated.

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 blasting or grinding particles is used to remove the unwanted corrosion or paint particles from the surface.

In addition to hydraulic or pneumatic blasting systems, wheel blasting systems are also known. The blasting medium is accelerated by a wheel.

This process is described as being energy efficient.

However, there are limits to the use of wheel blasting systems with regard to the flexibility of the system with regard to different blasting tasks.

The requirements, areas of application and prerequisites for the operation of pneumatic or wheel blasting systems vary greatly. Blasting system manufacturers usually specialize in certain system types due to the different requirements.

If different blasting processes are required, these often cannot be carried out with one blasting system. For the operator of blasting systems, this means that he is either forced to perform blasting tasks that he cannot solve with his blasting system

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can, to competitors or to purchase the various types of systems with the associated enormous expenditure.

Both variants are unsatisfactory for the operators of blasting systems.

The object of the invention is to provide a blasting system at low cost which can efficiently solve the various blasting tasks and which does not require the expenditure for the various types of blasting systems.

This object is achieved according to the invention by the combination of features of the main claim, the subclaims show further advantageous embodiments of the invention.

The concept of the invention is that the overlapping preparation processes for the blasting media and the dedusting of the blasting chamber atmosphere are carried out by system components that are larger in size than each individual blasting system and can therefore be used jointly by both types of blasting systems.

The advantages of the invention are that the expensive components for dust removal and blasting media preparation do not have to be purchased for each of the blasting systems, but that these components can be used jointly for both systems in sufficient dimensions. In this way, more complex blasting tasks can be solved that require both types of system, but without having to keep the expensive components twice.

Further details, features and advantages of the invention emerge from the following description of an embodiment with reference to the accompanying drawing. It shows:

Fig. 1: Blasting system as a combination of wheel blasting system and pneumatic container blasting system with shared components

An advantageous embodiment according to the invention is shown in Fig. 1. It consists of the combination of a centrifugal wheel blasting system 1 and a blasting container 2. A cartridge filter 8 is provided as a dust removal system, which cleans both the air from the blasting container 2 and the air from the centrifugal wheel blasting system 1. In addition, a recirculation air supply is installed for the blasting container 2, which supplies the air cleaned via the suction labyrinth 6 and the inlet nozzle 13 in the cartridge filter 8 to the blasting container 2 via a recirculation line 9, supply air blind 4 and supply air opening 3. The cleaned air not required for the recirculation air is released to the outside via the exhaust air outlet 11.

The actuator 15 for the jet air volume flow is arranged between the inlet connection 13 of the cartridge filter 8 and the jet air discharge 18 of the wheel blasting system 1 and the suction labyrinth 6. The actuator 15 enables the separate and joint operation of the wheel blasting system 1 and the blasting container 2. Flaps are used as the actuator 15 for regulating the jet air discharge.

Furthermore, the blasting system according to the invention has a component for the blasting agent preparation, which prepares and makes available all of the blasting agent for the blasting container 2 and the wheel blasting system 1. The component for the blasting agent preparation contains an actuator 14, which directs the blasting agent flow optionally into both blasting system parts or into one of the two, thus enabling simultaneous or separate operation of the wheel blasting system 1 and the blasting container 2.

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The blasting agent passes from the blasting agent preparation via the actuator 14 and the blasting agent feed 12 into the blasting vessel 7 of the blasting container 2. A three-way valve or a three-way cock for bulk materials is used as the actuator 14. The blasting agent finally reaches the blasting nozzle 17 via a hose connection 16.

The blasting media deposited on the ground is fed back into the blasting media circuit from the blasting container 2 via a filling funnel 5. The blasting media is manually fed into the filling funnel 5.

To reduce the use of manpower, an automatic blasting media return system can be provided.

Particular advantages of the embodiment according to the invention are that the blasting system as a combination of centrifugal wheel blasting system 1 and pneumatic container blasting system 2 achieves a high degree of flexibility and can be used to carry out different blasting tasks. The combination according to the invention can provide a cost-effective solution for operators of blasting systems because of the number of common components saved compared to two complete individual blasting systems.

List of reference symbols

1 Centrifugal wheel blasting system 2 Blasting container 3 Air supply opening 4 Supply air blind 5 Filling funnel 6 Suction labyrinth 7 Blast boiler 8th Cartridge filter 9 Recirculation line 10 Recirculation blind 11 Exhaust air outlet 12 Blasting media supply 13 Inlet nozzle 14 Actuator for blasting media 15 Actuator for air volume flow 16 Hose connection 17 Jet nozzle 18 Jet air extraction

Claims (8)

1. Blasting system, containing a centrifugal wheel blasting system ( 1 ) and a pneumatic container blasting system ( 2 ), wherein a system component is provided for dedusting the air and a system component is provided for blasting media preparation, and the system component for dedusting the air and the system component for blasting media preparation are used both by the centrifugal wheel blasting system ( 1 ) and by the pneumatic container blasting system ( 2 ), and that the centrifugal wheel blasting system ( 1 ) and the pneumatic container blasting system ( 2 ) are operated jointly or individually and independently of one another. 2. Blasting system according to claim 1, characterized in that the blasting media preparation of the centrifugal wheel blasting system ( 1 ) is connected to the blasting vessel ( 7 ) of the container blasting system ( 2 ) via a blasting media feed ( 12 ). 3. Blasting system according to one of claims 1 to 2, characterized in that an actuator ( 14 ) is provided which regulates the blasting medium flow to the blasting vessel ( 7 ) of the container blasting system ( 2 ) and to the centrifugal wheel blasting system ( 1 ). 4. Blasting system according to one of claims 1 to 3, characterized in that a cartridge filter ( 8 ) is provided as a system component for dedusting the air, the inlet nozzle ( 13 ) of which is connected to the intake labyrinth ( 6 ) of the container blasting system ( 2 ) and to the blasting air discharge ( 18 ) of the centrifugal wheel blasting system ( 1 ). 5. Blasting system according to claim 4, characterized in that an actuator ( 15 ) is provided which is designed such that, depending on the position of the actuator ( 15 ), the blasting air from the centrifugal wheel blasting system ( 1 ) and the container blasting system ( 2 ) is fed individually or jointly to the cartridge filter ( 8 ). 6. Blasting system according to one of claims 1 to 5, characterized in that the container blasting system ( 2 ) has a recirculation line ( 9 ) with supply air blind ( 4 ) and supply air opening ( 3 ). 7. Blasting system according to one of claims 1 to 6, characterized in that a manual blasting agent return with a filling funnel ( 5 ) is provided. 8. Blasting system according to one of claims 1 to 6, characterized in that an automatic blasting media return is provided.