DE3018206A1 - Sand blaster for concrete plate - moves plate in front of compressed air blasting nozzle reciprocating at right angles to plate movement - Google Patents

Abstract

The sand blasting mechanism is intended for treating a plate (8), particularly in concrete. It comprises an adjustable blasting nozzle (15) and a plate support (7,9,10) which is movable at variable speed relative to the nozzle which uses compressed air (20) to project the abrasive particles. It is movable on rails (11) reciprocally in a direction at right angles to the movement of the plate by a variable-speed reciprocating drive of an actuator cylinder (14) coupled to a nozzle head (12) by a cable (13). The reversing points of the reciprocating nozzle lie outside the perimeter of the plate, and the nozzle spray cone, trolley speed and reciprocating speed are arranged such that two successive passes of the spray cone overlap over their full lengths.

Description

Title: Device for blasting media treatment of a

Plate Description The invention relates to a device for blasting media treatment a plate in which a blasting agent nozzle, a blasting device and a holding device for the plate relative to each other along a rectilinear conveying path means a conveyor drive can be moved past one another at a conveyor speed are, on the holding device, two fictitious border lines, which are the maximum width the plate to be treated, are provided and a coordination of the nozzle values and the conveying speed adapted to the plate to be treated is.

In a known (DE-GM 79 05 187) device of this type is Beam device designed as one working with a centrifugal wheel is the centrifugal wheel Stationary arranged and the holding device from the conveyor track for the horizontal Plate formed. A constant, always equal, is sufficient for the movement of the plate fast drive of the conveyor track designed as a roller conveyor for the horizontal plate. This known device can practically only be used for treatment according to its construction from Use steel plates, with the spray pattern from blasting wheels is a streak of very different intensity. For the treatment of concrete slabs this device is practically unusable. Since the blasting treatment with concrete caused a very strong abrasion and the force of the jet from the blower wheel emitted beam varies greatly over the respective irradiated area, one-is sufficient Uniform 'processing of every point of the surface to be processed, the concrete plate not guaranteed.

One object of the invention is thus to provide a device of the initially described called type, which is also suitable for the treatment of concrete slabs and a more uniform irradiation of the surface to be processed of the blasting material results with blasting media. The device according to the invention is, solving this problem, characterized in that the jet device operates as a compressed air jet is designed, the nozzle transversely to the conveying movement by means of an oscillating drive can be driven to an oscillating movement, the conveyor drive and the oscillating drive are continuously adjustable, the reversal points of the oscillating movement respectively lie outside the two fictitious boundary lines and nozzle width, conveying speed as well as the oscillation speed are coordinated in such a way that two neighboring, Beam paths running at an angle to one another extend along their length at least touch everywhere.

The device according to the invention is based on the processing of Concrete slabs turned off as it ensures an even treatment of every surface area. The jet device working with a compressed air jet, which is for manual operation itself is known, provides a well-focused blasting medium jet, its effectiveness is largely constant over its cross section; the jet pressure is also one Compressed air jet easily adjustable. By combining oscillating motion and conveying movement becomes a large-area irradiation with reduced time consumption achieved. The stepless adjustment of the drives is, on the one hand, for uniformity the irradiation and on the other hand for the purpose of setting the, which is always significant with concrete, Abrasion measurement necessary. The respectively set feed and oscillation speeds are kept constant very precisely in order to keep the amount of abrasion constant, and can can also be adapted very precisely to the respective concrete skill. Because the turning points the oscillation speed or the nozzle movement lie outside the plate, if the zero speed points are outside the plate because of the pressure of the blasting media jet is always constant, it is thus taken into account that the speed is always the same of the beam along the plate is required. It remains between two beam paths no non-irradiated area, as adjacent beam paths at least touch each other or overlap each other.

The oscillating movement is mostly straight and at right angles to the Conveying movement. It is possible to use not only the oscillating motion but the nozzle also to make the conveying movement.

As a rule, however, the plate will carry out the conveying movement, the plate on a powered roller conveyor or in the Usually travels on a carriage-rail facility. Particularly expedient and advantageous it is when holding device and conveyor track from a carriage-rail device are formed. The carriage-rail device is very useful for precise movement heavy concrete slabs are particularly suitable.

The processing of a large concrete slab while lying down prepares for the removal of the abrasion and the abrasive difficulties. Particularly useful and it is therefore advantageous if the nozzle on an upright guide device is provided and the holding device is an upright, expansive one Has support part. This simplifies the removal of the abrasion and the abrasive and the manipulation of the large concrete slab.

In principle, the nozzle bore in the device according to the invention e.g. be round. However, it is particularly useful and advantageous when the nozzle bore is elongated. It is now a question of economical consumption of abrasives a relatively broad spray pattern, with the relative softness of the concrete slab is taken into account.

With only one nozzle there is a relatively high oscillation speed necessary. It is therefore particularly expedient and advantageous if two or more Nozzles are provided close together. It will now be quite a wide beam path or grinding path generated. Especially with narrow, elongated, slot-like nozzles or nozzle openings is an overlap of adjacent ones Beam paths while avoiding excessive abrasion in concrete slabs.

In the drawing is a preferred embodiment of the invention and shows Fig. 1 a front view with parts of a device for the blasting agent treatment of a plate and FIG. 2 shows a section along line II-II in Fig. 1.

The device according to the drawing comprises a lower horizontal floor grate 1, on which a chamber 2 stands. A grate 1 leads through the chamber 2 paved track 3 through it.

The chamber 2 has on the front and on the back above of the track 3 each have a flap door 4 as a lock.

On the track 3 there are two carriages 5, each provided with four wheels one after the other, of which only one is shown in the drawing, namely in the Chamber, while the other car is behind the chamber outside of it. Each car 5 has at the bottom an electric motor 6 as a drive, which does not have a The towing cable shown is fed with electricity and is controllable, with the speed is adjustable in a wide range and during the passage of the car through the chamber remains constant.

Each car drives into the chamber for a treatment and then out on the same side of the chamber. During this time the other can Dare on the other side of the Chamber outside the chamber and be discharged. The carriage 5 has a holding device 7 above the wheels for a substantially upright rectangular concrete slab 8.

The holding device comprises a carriage platform with a wedge pad 9 and a supported back wall 10, which although a right with the wedge pad Forms an angle, but is slightly inclined with respect to the horizontal platform of the car. The carriage 5 with concrete slab 8 can through the lock flap doors 4 out of the chamber 2 can be driven out and back into it.

On the side of track 3, which is the contact side of the back wall 10 or the wedge pad 9 is facing, there is an upright one in the middle of the chamber 2 Guide device 11 is provided between the ceiling of the chamber 2 and the floor grate 1 runs, just like the back wall 10 is inclined and essentially from consists of two parallel guide rails. At the guide facility 11, a weighty carriage 12 is mounted displaceably up and down, which is attached to a Hanging rope 13, which is passed out of the chamber 2 and over various pulleys is. The other end of the rope 13 is on the piston rod of a piston-cylinder device attached, which serves as an oscillating drive 14. The piston-cylinder device 14 stands vertically and protrudes through the bottom grate 1 downwards. The piston-cylinder device has, in a manner not shown in detail, a piston acted upon on both sides, which is acted upon in a controlled manner with hydraulic oil. The carriage 12 is somi <-in a controlled manner pulled up and sinks due to its weight in a controlled manner.

As part of a jet device 18 in horizontal row close to each other 5 but at least 1 slot-like nozzles 15 are provided, which face the concrete slab 8. Each of the nozzles 15 is connected to one Towing hose 16 connected to a manifold 17 on the ceiling of the chamber 2 leads. The jet device 18 further comprises a line 26 which leads to a Two-chamber pressure sandblasting fan 19, which is connected to a compressor 20, leads is. A blasting media bunker 21 is also connected to the fan 19, which in turn is fed by a classifier 22. The classifier receives the abrasive via an elevator 23 and a horizontal screw conveyor 24. This is the blasting media from one Collection funnel 25 supplied, which is in the area of the chamber 2 under the floor grate 1 is located. The bottom grate 1 is suitably sieve-like in the area of the chamber provided with perforations so that the abrasive sprayed in the chamber can ultimately get back into the collecting funnel.

Through a window (not shown) in the blasting chamber, the blasting material, i.e. the concrete slab 8-observed to set the parameters according to the jet pattern to adjust. As a rule, two or more two-chamber pressure sandblasters are used provided, which are operated fully automatically, which fill themselves and work in such a way that the abrasive cannot be interrupted.

L e r s e i t e

Claims (6)

Claims 1. Device for blasting a plate, in which a blasting agent nozzle of a jet device and a holding device for the plate relative to each other along a rectilinear conveying path means a conveyor drive can be moved past one another at a conveyor speed are, on the holding device, two fictitious border lines, which are the maximum width limit the plate to be treated, are provided and a coordination of the nozzle width and the conveying speed adapted to the plate to be treated is, characterized in that the jet device (18) as one with a compressed air jet working is formed, the nozzle (15) transversely to the conveying movement by means of a Oscillating drive (14) can be driven to an oscillating movement, the conveyor drive (6) and the oscillating drive (14) are continuously adjustable, the reversal points of the oscillating movement lie outside the two fictitious boundary lines and Nozzle width, conveying speed and oscillation speed so on each other are matched that two adjacent, extending at an angle to each other Beam paths at least touch each other along their length everywhere. 2. Apparatus according to claim 1, characterized in that the holding device (7) and conveyor track (3) are formed by a carriage-rail device. 3. Apparatus according to claim 1 or 2, characterized in that the nozzle (15) is provided on an upright guide device (11) and the holding device (7) - an upright supporting part which is extended in area (10). 4. Apparatus according to claim 1, 2 or 3, characterized in that that the nozzle (15) is elongated. 5. Device according to one of the preceding claims, characterized in that that two or more nozzles (15) are provided close to one another .. 6. Device according to one of the preceding claims, characterized in that that on a conveyor track (3) leading past the nozzle (15) at a distance from one another two holding devices (7) are provided for one plate (8) each.