AT398924B - SANDBLASTING DEVICE - Google Patents

Description

AT 398 924 B

The invention relates to a sandblasting device, in particular for sandblasting glass plates, with a cabin for receiving the object to be irradiated, in which a sandblasting nozzle and a support device for the objects are arranged.

Sandblasting devices are known in large numbers from the prior art. For example, US Pat. No. 3,550,321 discloses a sandblasting device in which the nozzle can be electrically aligned. US Pat. No. 4,300,318 shows a sandblasting device in which the sandblasting nozzle is arranged in the interior of a closed space and can be gripped and aligned through a hand opening. Furthermore, DE-OS-3 018 206 shows a device for blasting agent treatment of a plate, in which a blasting agent nozzle and a holding device for the plate can be moved past one another along a straight conveying path by means of a conveying drive. It is also provided that this jet device works with compressed air and that the nozzle can be moved transversely to the conveying movement of the plate by means of an oscillating drive. In sandblasting cabins in which the blasting nozzle is moved by hand, there are problems with the sealing against the escape of dust or with the power transmission for adjusting the nozzle because of the pass-through openings necessary for the hand to actuate the nozzle.

From US Pat. No. 3,670,435 it is also known to attach magnets to a vertical board in order to provide corresponding information; the magnets can be attached to different places on the wall or moved over the wall surface.

The problem of being able to actuate the nozzle precisely and easily in a well-sealed sandblasting device is solved according to the invention in a sandblasting device of the type mentioned at the outset in that the jet nozzle is arranged adjustably on the inner surface of the front wall of the cabin and with the aid of a along the outer surface of the front wall displaceable handle part is guided, a magnetic coupling being provided for transmitting the movements of the handle part to the jet nozzle. Thus, without having to provide further actuating devices for the blasting nozzle, a coupling between the grip part and the blasting nozzle is achieved, which transmits all movements of the grip part exactly to the blasting nozzle, without it being possible for dust to escape. It is also important that the jet nozzle is arranged on the inner surface of the wall of the cabin, while the handle part is located outside the cabin.

It is advantageous if at least one magnet is attached to the handle part, possibly on a plate supporting the handle part, and on the blasting nozzle, optionally on a plate carrying the blasting nozzle, for coupling movement. It is possible for the plates to consist at least partially of magnetizable material, magnets being arranged in particular within these partial regions of the plates lying opposite one another. The magnets of the handle part and the jet nozzle are arranged opposite to each other with opposite poles and attract each other.

In order not to impair the mobility of the handle part and the jet nozzle by the force exerted on the front wall from the inside, it is provided that at least between one of the plates, preferably between the inside, the. Jet-supporting plate and the front wall, an air cushion is provided, which causes the handle portion and / or the jet nozzle can be moved easily on the front wall. According to the invention, it can be provided that brush seals are provided on the plates, in particular in the region of their edges, which delimit the respective air cushion and are supported on the front wall.

In order to be able to observe the blasting process well, it is provided that the front wall is made of glass. The air cushions prevent the glass from being scratched due to the sand particles flying around in the cabin; the brush seals clean the glass surface.

To form the air cushions, it is advantageous if a branch line leads from the compressed air line supplying the jet nozzle to the inner plate and to the plate of the handle part, thus enabling the air cushions to be fed. The compressed air line leading to the plate of the handle part is expediently laid outside the cabin, while the compressed air line leading to the plate of the jet nozzle is branched off directly in the area of the jet nozzle from the compressed air line supplying the jet nozzle. The pressure of the air cushions can be adjusted using appropriate adjustment or reducing valves.

In order to keep the size or number of magnets small or to make the jet nozzle easier to move, it is provided that the jet nozzle or the associated plate is carried by a weight compensation device. As a result, only the mass inertia of the jet nozzle has to be overcome by the handle part, but no longer its weight, which makes operation much easier. It is provided according to the invention that the weight compensation device has a roller support mechanism which can be moved essentially parallel to the front wall on a guide and on which deflection rollers are arranged for two cables carrying the jet nozzle or its plate. It is advantageously provided that the two ropes running over the deflection rollers, preferably leading out of the cabin, each have a deflection roller 2 located in the region of the side walls, preferably outside the cabin

AT 398 924 B and are connected at their ends with a counterweight. This means that a lateral, i.e. horizontal, as well as an up and down movement of the jet nozzle take place, the weight of the jet nozzle being balanced by the counterweights in each case.

To simplify handling, it can be provided that an actuating device, 5 e.g. a button is arranged to control the compressed air source for the jet nozzle.

At the same time it can be provided that the front wall is designed as a hermetically closing door of the cabin.

Commercially available high-performance permanent magnets can be used as magnets.

The invention is explained in more detail below, for example, with reference to the drawings. 1 shows a schematic section through a sandblasting device according to the invention, FIG. 2 shows a schematic view of a weight compensation device and FIG. 3 shows a detailed view of the weight compensation device.

1 shows a schematic section through an embodiment of a sandblasting cabin according to the invention. The cabin comprises a wall made of glass, in particular front wall 2. On the front wall 2, a handle part 7 and a jet nozzle 4 are arranged to be displaceable both horizontally and vertically. The handle part 7 includes a plate 43 which has a brush seal 5 at its edges; A magnet 6 is arranged in the central region of the plate 43. The jet nozzle 4 is carried by a plate 41, which likewise has brush seals 5 in its edge regions and carries a magnet 6 in its central region. If the handle part 7 is arranged opposite the jet nozzle 4, the jet nozzle 4 can be moved on the inner surface of the front wall 2 by means of the handle part 7. Air cushions 12 are provided both between the plate 43 belonging to the handle part 7 and the front wall 2 and between the front wall 2 and the plate 41 of the jet nozzle 4 in order to be able to move the jet nozzle 4 and the handle part 7 easily over the front wall 2. 32 with a support rope, 28 with a deflection roller, 26 with a support roller and 27 with support struts are designated, which are explained in more detail with reference to FIG. 2. 25 The compressed air is supplied to the jet nozzle 4 by means of a compressed air source 9 via a line 10. Lines 37 are branched off from the line 10 both for the air cushion of the handle part 7 and for the air cushion of the jet nozzle 4. The compressed air line leading to the grip part 7 lies outside the cabin 1. The sand supplied to the blasting nozzle 4 is conveyed out of the sand container 20 using the injector principle. For this purpose, a sand line 11 leads from the sand container 20 to the jet nozzle 4 and there ends the compressed air line at 39 in 30. The outflowing compressed air entrains the sand from the line 11 and sprays it against the object to be irradiated 13. In order to be able to adjust the amount of the entrained sand, the outlet end of the sand container 20 is connected to a pipe 21 into which a valve 22 connects adjustable amount of air can be supplied so as to enable pressure control in the sand line 11.

The object 13 to be irradiated is leaned against a wall which is supported by a supporting part 15, 15 ', 35 e.g. a wooden wall 15 provided with a metal plate 15 ', which is covered on the irradiated side with a rubber layer 14. The object rests on a support 23 and can be held upright with plastic-covered hooks containing magnets 45. The wall 15 does not extend to the ceiling wall 3, but leaves a gap free from which air mixed with sand particles can be withdrawn from the cabin. In this case, an outlet gap is formed between the rear wall 8 and a dividing wall 16 extending from the top wall 3 downward 40, which calms the escaping air so that the sand particles can settle in a collecting device 44 and through one between the rear wall 18 and the top wall 3 formed gap or through the outlet opening 17 only freed of sand; the sand has settled through this sand trap; the sand could also be separated using a cyclone. The partition 19 made of rubber is held in the position shown by the negative pressure generated by the fan device 45 which extracts the cabin air through the outlet opening 17; If the blower device is switched off, the partition 19 folds down and the deposited sand falls into the sand container 20. The sand can pass from the cabin 1 through an opening 24 formed in the bottom 42 into the sand container 20.

FIG. 2 schematically shows the cabin 1 mounted on stands 34. A slot 33 is formed in one of the side walls 38 of the cabin 1, which slot can be sealed airtight and sand-tight with locking devices (not shown). Through this slot 33, the plates 13 to be irradiated can be brought in front of the support device 14, 15. It is also possible to seal this slot with tight but resilient seals, e.g. made of foam rubber, in order to be able to insert panels into the cabin, the length of which is greater than the width of the cabin 1. If the seals in slot 33 fit snugly on the front and 55 back of the panels to be irradiated, sand leakage can be avoided.

2 shows how the jet nozzle 4 or its plate 41 are held by a weight compensation device and can be moved horizontally and vertically via the front wall 2 as desired. The plate 41 is held by two ropes 32, which are guided over pulleys 28 from the cabin 1 to FIG. 3

Claims (14)

AT 398 924 B are guided on the outside and are guided there via further deflection rollers 29 and are connected at their ends to counterweights 31. The counterweights 31 are chosen such that they balance the weight of the plate 41 and the jet nozzle 4. At the same time, it is provided that the deflecting rollers 28 are held by a supporting structure 27 and can be moved on a roller 26 essentially parallel to the front wall 2. The process of the 5 roller 26 is carried out on a transverse support or a rail 35. The rail 35 has an angular profile which is adapted to the groove profile of the roller 26. The profiles of the roller 26 and the rail 35 are matched to one another in such a way that adhering sand does not cause any frictional losses or wear of the profile 35 and the roller 26. In order to make the rollers 26, 28, 29 and the ropes 32 resistant to abrasion with regard to the sharp-edged sand particles, it is provided that the rollers 26, 28, 29 run on encapsulated ball bearings 40, that the material for the rollers 26, 28, 29 abrasion-resistant polyamides are used and that the ropes 32 are not metal ropes but plastic, preferably perlon ropes. The encapsulated ball bearings are labeled 40. It is also possible to provide several rollers 26 instead of one roller 26. In principle, it is also possible to arrange the deflection rollers 29 and the counterweights 31 within the cabin 1, but this does not appear to be particularly advantageous for reasons of space and wear. In principle, it would also be possible to provide drive devices for the roller 26 which can be controlled from the handle part 7 or from a control device. It would also be possible to provide the ropes 32 with drive devices which can be actuated from the handle part 7 or from a control device, so that the jet nozzle 4 can either be remotely controlled or its movement can be controlled from the handle part 20. The rail 35 is advantageously mounted on the ceiling or on the side walls of the cabin. In the sandblasting device according to the invention, there are no pass-through openings for moving the blasting nozzle, so that dust cannot escape during the blasting process, which is of particular advantage with regard to the harmful effects on health of glass dust. 25 claims 1. Sandblasting device, in particular for sandblasting glass plates, with a cabin for receiving the objects to be irradiated, in which a sandblasting nozzle and a support device for the 30 objects are arranged, characterized in that the blasting nozzle (4) on the inner surface of the front wall (2) the cabin (1) is arranged to be adjustable and is guided with the aid of a handle part (7) which can be moved along the outer surface of the front wall (2), a magnetic coupling being provided for transmitting the movements of the handle part (7) to the jet nozzle (4) is. 2. Sandblasting device according to claim 1, characterized in that for coupling motion to the handle part (7), optionally on a handle part (7) carrying plate (43), and on the blasting nozzle (4), optionally on a blasting nozzle (4) Plate (41), in each case at least one magnet (6) is attached. 3. Sandblasting device according to claim 1 or 2, characterized in that the plates (41,43) at least partially consist of magnetizable material, in particular within these partial areas of the opposing plates (41,43) magnets (6) are arranged. 4. Sandblasting device according to one of claims 1 to 3, characterized in that at least 45 between one of the plates (41, 43), preferably between the inner support plate (41) and the front wall (2), an air cushion (12) is provided. 5. Sandblasting device according to one of claims 1 to 4, characterized in that on the support plates (41, 43), in particular in the area of their edges, the respective air cushion (12) delimiting, so on the front wall (2) supporting brush seals (5th ) are provided. 6. Sandblasting device according to one of claims 1 to 5, characterized in that the front wall (2) consists of glass. 7. sandblasting light according to one of claims 1 to 6, characterized in that from the jet nozzle (4) supplying compressed air line (10) each has a branch line (37) to the inner support plate (41) and to the support plate (43) of the handle part (7) leads and thus enables the supply of air cushions (12). 4 AT 398 924 B 8. Sandblasting device according to one of claims 1 to 7, characterized in that the blasting nozzle (4) or its support plate (41) is carried by a weight compensation device. 9. Sandblasting device according to claim 8, characterized in that the weight compensation device has a substantially parallel to the front wall (2) on a guide (35) movable roller support mechanism (26,27) on the deflection rollers (28) for two the jet nozzle (4) or their supporting plate (41) carrying ropes (32) are arranged. 10. Sandblasting device according to claim 9, characterized in that the two over the deflection rollers (28), preferably from the cabin (1) leading ropes (32) each have a in the region of the side walls (38), preferably outside the cabin (1 ) located guide roller (29) and are connected at their ends to a counterweight (31). 11. Sandblasting device according to claim 10, characterized in that the jet nozzle (4) with its support plate (41) is held in suspension by the counterweights (31). 12. Sandblasting device according to one of claims 1 to 11, characterized in that on the handle part (7) an actuating device (8), e.g. a button for controlling the compressed air source (9) of the jet nozzle (4) is arranged. 13. Sandblasting device according to one of claims 1 to 12, characterized in that high-performance permanent magnets are provided as magnets (6). 14. Sandblasting device according to one of claims 1 to 13, characterized in that the front wall (2) is designed as a hermetically closing door of the cabin (1). Including 2 sheets of drawings 5