CH713471A1 - Device for processing coatings, graffiti or other superficial contamination on parts, workpieces or surfaces. - Google Patents

Abstract

The invention relates to a device for processing, in particular cleaning, abrasive removal, engraving or removal of coatings, graffiti or other surface contaminants on parts, workpieces or surfaces, consisting of a container (15) with the integrated components, consisting of: a dry vacuum cleaner with Fine dust filter (11) in the upper third of the container (15) with the other components, a below the fine dust filter (11) lying hopper (14) as a central part container (14) with a closing member / a flap (12), an underlying sieve (13 ) with an underlying funnel-shaped reservoir (1) for the abrasive / granules (2) and a metering device (3) with adjacent air flow guide (4), a connection to the container (15) in the amount of fine dust filter (11) for a suction hose (10) , a connection to the container (15) below the metering device (3) with adjacent air flow guide (4) for e inen flexible suction hose (5) to the air flow guide (4) and a jet hood (6) with a jet lance (7), with one, two or more viewing windows (9) and the connections for the suction hose (5) and the suction hose (10) ,

Description

The invention relates to a device for processing, in particular for cleaning surfaces of natural stones, tile cleaning, facade cleaning, stair renovation, for removing color coatings, graffiti removal, solar module cleaning and for engraving a variety of materials, such as stone, concrete, wood, metal, Plastic or glass.

In the document DE 19 747 838 C2, a method and an apparatus for the dry removal of coatings, graffiti or other surfaces is described. A blasting medium is introduced by gravity from a storage container into a carrying air flow guided within a hose system consisting of inlets and outlets, conveyed by the vacuum through the latter, thrown against the surface to be treated in a blasting chamber by a blasting lance, from there transported back into the carrying air stream, that the blasting agent is circulated. The acceleration of the blasting medium is generated by suppressing the blasting chamber and by increasing the blasting speed in an acceleration section by reducing the diameter of the feed line to the accelerating section. The vacuum supply line is connected to a, an acceleration section forming rectilinear acceleration tube, which is arranged upstream of the jet and the lance has a diameter device relative to the feed line.

The object of the invention is to improve essential structural elements of the known device according to DE 19 747 838 C2, to allow more effective cleaning of different surfaces, other applications with the device and a simplification in the handling of the device. With the changes and additions made increases the possibility of use of the device, the possibility of blockage of the suction hose is reduced to a minimum and the effectiveness and operator ability of the jet hood is improved.

A metering device consisting of a metering disc with offset at the outer edge of all 45 degrees arranged notches and each in the direction of the center of the metering through the metering nozzle passing through nozzles with different diameters and in the middle of the metering a handle, allows quick manual adjustment of the metering to a desired flow rate for the abrasive. The dosing is arranged below a funnel-shaped reservoir. Furthermore, the dosing device below the metering disk includes a passage which allows the blasting medium to pass in the direction of the suction hose. Only a nozzle located centrally above the passage allows the blasting medium to pass. All other nozzles are not connected to the passage.

By this metering device may cause a jam of the blasting agent. A vibration unit mounted on the outside can be used to eliminate any possible jamming. The fact that a jam has formed can be recognized by the fact that no blasting agent escapes from the jet lance.

By an electrically conductive design of the suction hose and the suction hose can be neutralized for certain blasting agents that are electrically charged by friction or the impact of the blasting agent on the surface to be cleaned, this electrical charge again. Voltage flashovers are thereby avoided. All parts, such as The housing has electrical connections to the neutral conductor.

The jet lance on the jet hood is advantageously guided and held by an electrically conductive rubber seal. Here, similar effects are achieved as in the electrically conductive design of the suction hose. Sliding and removable cover plates can be arranged inside or on the jet hood. These cover sheets have e.g. on one side a rod attached thereto, which is guided in a tube. Advantageously, a cover plate from right to left or vice versa and a cover plate from bottom to top or also be moved vice versa. Thus, certain areas can be covered on the surface to be processed, which should not be hit by the blasting medium.

The edge of the jet hood, which rests on the surface to be processed advantageously has removable sealing rubbers with variable height and thickness. It can also be arranged one above the other several layers of rubber seal. Preferably, these are connected to each other with Velcro. This results in areas that can be safely sealed despite different height. This can also additionally by adapting the support surface of the jet hood to the surface to be machined, such. by adapting to curvatures, profile shapes and / or angles. The adjustment of the support surface does not have to agree one hundred percent. The rubber seals can compensate deviations. Furthermore, however, it is also conceivable that adapters are attached to the jet hood as attachments which simulate most different shapes, such as e.g. Half rounds with different radii for the processing of columns or posts.

Within the beam hood electrical lamps, preferably LEDs, are advantageously arranged in all four corners. The LEDs radiate with their beam direction in the direction of the surface to be processed. By the operator, the result of the irradiation with the blasting agent can thus be easily controlled.

Several embodiments of the invention are illustrated in the accompanying drawings and will be described in more detail below. Show it:

1 shows a complete device in the basic structure, partly in section with the representation of the jet hood and the connecting tubes,

2 is a plan view of a metering of the metering device,

3 shows the side view of a metering disk,

4 shows a section through a jet hood in the region of the support surface with two sliding cover plates,

Fig. 5 shows the detail of a jet hood with a curved bearing surface and corresponding sealing rubber, and

Fig. 6 shows the detail of a beam hood with a 90 degree angled cover surface.

The device is mobile and mounted on a carriage 24. The container 15 of the device is advantageously in three parts, in the upper third of the container 15 is a dry vacuum with fine dust filter 11, in the middle part a central part container 14 with a hopper 14 and the lower third a funnel-shaped reservoir 1 with a metering device 3 is arranged. These three parts are preferably connected to each other with bayonet locks and thus easily detachable from each other for maintenance. In the upper third of the container 15 of the suction hose is connected as a connection between the radiating hood and container 15. The dry vacuum with the fine dust filter 11 sucks the used blasting agent 2, e.g. in the form of granules 2, and the removed dirt particles 25 out of the suction hose 10. The fine dust is collected at the fine dust filter 11, larger particles of dirt fall on the screen 13 and can be disposed of from there later. The granules 2 can be collected in the central part of the container 14 or is further guided here to the funnel-shaped reservoir 1. The use of a wide variety of blasting agents 2, e.g. shredded plant remains, can lead to bridging in the funnel-shaped reservoir 1. In order to avoid or eliminate this bridge formation, a vibration unit 16 is attached to the outer wall of the funnel-shaped reservoir 1. In the head of the device are u.a. also the controls 26 and display instruments 26 housed. From here, e.g. also the vibration unit 16 manually switched on and off. When bridging the blasting agent 2 occurs at the jet lance 7 of the jet hood 6 no more blasting agent. The operator can then briefly switch on the vibration unit 16.

Below the funnel-shaped reservoir 1, a metering device 3 is arranged in a circular, open-topped body. This body has an outstanding holder 28 which engages in a desired latching 17 of the metering 27 of the metering device 3 and thus prevents rotation of the metering disk 27 during the operation of the device. The latches 17 are arranged offset on the outer circumference of the manually adjustable metering disk 27 each by 45 degrees. To the detents 17 are each assigned to associated nozzles 18 with different nozzle diameters, which pass through the metering disk 27. The circular, upwardly open body of the metering device 3 has a downwardly leading opening to the suction hose. 5

This opening is only one nozzle arranged above 18 of the metering 27 free. The metering disk 27 can be easily removed from the open body by means of a handle 23, rotated and thus a desired nozzle size can be selected and reinserted into the open body. The nozzle size then determines the amount of blasting agent 2, which later emerges from the blasting lance 7 and is available for processing the surface 8 to be processed.

The suction hose 10 and the suction hose 5 between the jet hood 6 and the housing 15 are advantageously carried out electrically conductive. Thus, electrically charged blasting agent 2 can be discharged again.

Between the jet lance 7 and the jet hood 6 is also advantageously provided an electrically conductive rubber seal.

Within or on the jet hood 6 in the direction of the surface 8 to be processed, sliding and removable cover plates 19, e.g. each consisting of a sheet 19 with a rod 20 attached thereto on one side, guided in a tube 21 through the outer shell of the jet hood 6 may be arranged. As a result, certain areas of the surface to be processed 8 can be covered, which should not be edited.

The edge of the jet hood 6 to be machined surface 8 is advantageously provided with removable sealing rubber 22 made of sponge rubber with variable height and thickness or multiple layers of rubber seal 22 above the other. These rubber seals 22 are preferably connected to each other by means of Velcro or with the jet hood 6. The support surface of the jet hood 6 can be adapted to the surface 8 to be processed, e.g. be executed in terms of curvature, profile design and angle. It is logical that in each case adapted beam hoods 6 must be used for these works. A further variant of the embodiment is that attachable to the jet hood 6 attachments as adapters, which have a variety of shapes, adapted to the shapes of the surfaces to be processed, such. Roundings, columns, angled surfaces, etc. These adapters are easily interchangeable and may well have deviations, since the rubber seals 22 compensate this. This adapter variant saves costs compared to a complete jet hood change with the most varied forms of the bearing surface.

Claims (10)

Within the jet hood 6, electrical bulbs, preferably LEDs, can be arranged in all four corners, which radiate with their beam direction in the direction of the surface 8 to be processed. Due to the arrangement on four sides, there is no shadowing by the jet lance 7. By arranging the light sources in the vicinity of the surface to be machined 8 bumps can be better recognized by the side irradiating light bumps. Compilation of the Reference Numerals [0019] 1 funnel-shaped storage container 2 blasting agent, granulate 3 metering device 4 airflow guide 5 suction hose 6 blasting hood 7 blasting lance 8 surface to be processed 9 inspection window 10 suction hose 11 fine dust filter 12 closing member, flap 13 screen 14 hopper, middle part container 15 container 16 virbration unit 17 latches 18 Nozzle 19 Cover plate, plate 20 Rod 21 Tube 22 Sealing rubbers 23 Handle 24 Trolley 25 Removed dirt particles 26 Operating elements, indicating instruments 27 Dosing disc 28 Holder Patent claims 1. Apparatus for processing, in particular cleaning, abrasive removal, engraving or removal of coatings, graffiti or other superficial impurities by means of abrasive or gentle abrasives on parts, workpieces or surfaces, for example walls, pillars, fences, facades, profiles, floors, ceilings, Doors, furniture u. Like. From stone, concrete, wood, metal, plastic or glass, consisting of a container (15) with the integrated components: - a dry vacuum with fine dust filter (11) in the upper third of the container (15) with the other components, - a below the fine dust filter (11) lying hopper (14) as a central sub-container (14) with a Schliessor-gan / flap (12), - an underlying sieve (13) with an underlying funnel-shaped reservoir (1) for the blasting medium / Granules (2) and a metering device (3) with adjacent air flow guide (4), - a connection to the container (15) at the level of the fine dust filter (11) for a suction hose (10), - a connection to the container (15) below the Dosing device (3) with adjacent air flow guide (4) for a flexible suction hose (5) to the air flow guide (4) and - a jet hood (6) with a jet lance (7), with one, two or more viewing windows (9) and the terminals for the Suction hose (5) and the suction hose (10). 2. Device for processing, in particular cleaning, according to claim 1, characterized in that the funnel-shaped reservoir (1) a vibration unit (16) is arranged. 3. Device for processing, in particular cleaning, according to one of the preceding claims, characterized in that the metering device (3) preferably arranged from a manually adjustable metering disc (27) with on the outer circumference, each offset by 45 degrees, notches (17) and to respectively associated, through the metering disc (27) passing through nozzles (18) with different nozzle diameters, inserted within a circular, upwardly open body with a holder (28) and downwardly leading opening to the suction hose (5). 4. Apparatus for processing, in particular cleaning, according to one of the preceding claims, characterized in that the suction hose (10) is designed to be electrically conductive. 5. Apparatus for processing, in particular cleaning, according to one of the preceding claims, characterized in that the jet lance (7) on the jet hood (6) is guided by an electrically conductive rubber seal. 6. Apparatus for processing, in particular cleaning, according to one of the preceding claims, characterized in that within or on the jet hood (6) displaceable and removable cover plates (19), each consisting of a sheet (19) with a side attached thereto Rod (20) guided in a tube (21) are arranged. 7. Device for processing, in particular cleaning, according to one of the preceding claims, characterized in that at the edge of the jet hood (6) to be machined surface (8) removable sealing rubbers (22) with variable height and thickness or multiple layers of rubber seal ( 22), preferably with Velcro, are arranged. 8. A device for processing, in particular cleaning, according to one of the preceding claims, characterized in that the bearing surface of the jet hood (6) to be machined surface (8), for. with regard to curvature, profiles and angles. 9. Apparatus for processing, in particular cleaning, according to one of the preceding claims, characterized in that the jet hood (6) adapter can be fastened as attachments with differently shaped bearing surfaces. 10. Apparatus for processing, in particular cleaning, according to one of the preceding claims, characterized in that within the beam hood (6) in all four corners of the electric bulbs, preferably LEDs, are arranged, with their beam direction in the direction of the surface to be machined (8 ) radiate.