EP1010494A2 - Rotating abrasive blast system - Google Patents

Abstract

The invention relates to a device for the blasting of objects with a blasting medium with a blasting medium silo (1), in which there is at least a supply of blasting medium (2), a compressed air unit (3, 9, 12, 15) and at least one blasting medium nozzle unit (4 ), which is connected to the blasting agent silo (1) and to the compressed air unit. The compressed air unit has a rotatable compressed air supply unit (3) which projects into the central steel silo (1). A blasting nozzle holding unit (6, 7) is arranged on the blasting agent silo (1) with which the blasting agent nozzle unit (4) can be guided. A drive unit (32) is connected to the rotatable compressed air supply unit (3). <IMAGE>

Description

• einen Strahlmittelsilo, in dem sich wenigstens ein Vorrat an Strahlmittel befindet,
• eine Drucklufteinheit und
• wenigstens eine Strahlmitteldüseneinheit, die an dem Strahlmittelsilo und an der Drucklufteinheit angeschlossen ist.

The invention relates to a device for blasting objects with a blasting medium, which has at least

• a blasting agent silo in which there is at least a supply of blasting agent,
• a compressed air unit and
• at least one blasting agent nozzle unit, which is connected to the blasting agent silo and to the compressed air unit.

A device of the type mentioned is from EP 218 869 A1 known. Is in a blasting agent silo an abrasive supply. There is an abrasive discharge device under the boiler intended. The abrasive delivered and compressed air are fed to a jet nozzle.

The disadvantage is that when blasting flat and complex Objects in a blasting cubicle the heavy object underneath the jet nozzle back and forth or the nozzle over the workpiece must be moved. This means high expenses for accelerating and braking the object is necessary.

It is therefore the task of a device of the beginning mentioned type so that the objects are easier to irradiate.

According to the invention, this object is achieved by the features of the claim 1 solved.

The advantages achieved with the invention are in particular in that the abrasive nozzle unit by the rotation of the blasting agent silo is circular above the one below Workpiece moves. The workpiece no longer has to back and forth, but only needs continuously in one Direction to be moved. Because of the circular movement the blasting agent nozzle unit to be irradiated Places of the workpiece are irradiated several times the quality of the blasted surface is much better than with conventional blasting. The abrasive also gets better exploited. High expenses resulting from accelerating and braking the objects or jet nozzles, can be omitted.

The compressed air supply unit can at least partially in held at least one bearing element of a holding device his. This ensures that the blasting agent silo rotates properly given with the units attached to it.

The compressed air supply unit can be from a compressed air storage boiler consist of the inside of the blasting agent silo attached to a silo floor and connected to a rotary tube element is. This will take over the elements for the Supply of compressed air at the same time the function of holding and especially the turning of the blasting agent silo. The one inside of the blasting agent silo located compressed air storage boiler ensures that the blasting nozzle unit is constantly on there is even air pressure, even if the pressure of the compressed air supply fluctuates. The compressed air storage boiler also takes on the function of distribution of the blasting agent inside the blasting agent silo. The Compressed air storage boiler can be frustoconical his. This means that the blasting agent is passed on directly and thus a cluster in the middle of the blasting agent silo, due to its rotational movement, avoided.

The rotary tube element can with the drive unit and a be fixed compressed air supply element. On the compressed air supply element can be a compressed air device be connected. This is a targeted forwarding the generated compressed air from the stationary generator unit given the rotating blasting agent silo.

Under a boiler floor of the compressed air storage boiler, a Telescopic rod element to be arranged opposite to there are several jet nozzle units. By the Telescopic rod element, it is possible to use the two jet nozzle units compared to the workpiece to be irradiated.

Each jet nozzle unit can have a jet nozzle that with a jet nozzle holding element arranged on the telescopic rod element are held. Every jet nozzle unit can via a blasting agent hose to a blasting agent silo arranged blasting agent connection piece and over a Air hose to a arranged on the compressed air storage boiler Air connector must be closed. This form of connection enables the blasting agent silo to rotate.

A blasting agent feed element can be placed in the blasting agent silo be led. In this way, blasting media can, if necessary, be refilled.

The telescopic rod element can have an outer tube element, that on the bottom of the pressure tank and in the an adjustable inner rod element can be arranged.

The jet nozzle holding element is attached to the inner rod element. The adjustable inner rod element can have recesses have to bring in the adjusting screw are. This makes it possible to position the jet nozzles correctly to be locked against the workpiece.

The holding device can be on a cabin roof of a blasting cabin be arranged. The holding device can also on be positioned on a load-bearing ceiling. This leaves the rotatable blasting agent silo with the attached Suspend jet nozzles like a rotating lamp.

The compressed air storage boiler can be designed as a hollow truncated cone his. The truncated cone allows that on the bottom of the boiler Equipment for the jet nozzle, on the opposite Boiler storage roof the entire blasting agent silo on the rotary tube element can be suspended and that on the sloping Truncated cone the abrasive to the abrasive connection pieces to be led. This is supported Blasting media control function by the speed of rotation of the rotating blasting agent silo.

Fig. 1

eine rotierende Strahlmittelanlage in einer schematischen, geschnittenen Darstellung,

Fig. 2

eine Strahlerei mit zwei Strahlmittelanlagen gemäß Fig. 1 in einer schematischen, geschnittenen Darstellung.

An embodiment of the invention will be described with reference to a drawing. Show it:

Fig. 1

a rotating abrasive system in a schematic, sectional view,

Fig. 2

a blasting machine with two blasting media systems according to FIG. 1 in a schematic, sectional view.

In Fig. 2 a blasting is shown, in which in a schematic shown blasting cabin 301 a blasting agent system 100 is installed according to the invention. In another Blasting cabin 302 can be another blasting agent system of this type 200 may be arranged. The two abrasive systems 200 and 100 have essentially the same structure. The two Abrasive systems 100 and 200 are in the cabin roofs, respectively 304 and 305 of the two abrasive systems 100 and 200 installed and held there, so that there is a building unit 300 results. A drive element, here electric motor 31, is mounted in a drive console unit 303. Of the common drive element go two toothed belt elements 32 and 33 from which a gear 13 on the abrasive system drive.

1 is a blasting agent system 100, that of the blasting agent system 200 is identical, shown.

For this purpose, in a holding device 16, the two above and has underlying bearing elements 10, 11 located at the bottom, a rotatable tubular member 12 installed. The pipe element 12 leads to a fixed compressed air coupling 9 which is connected to a compressed air line 15, the connecting piece is shown.

The tubular element 12 is connected to a compressed air storage boiler 3 whose boiler storage roof 19 connected. The compressed air storage boiler 3 is designed as a hollow truncated cone. His Boiler bottom 18 is with the bottom 17 of a blasting agent silo 1 firmly connected. The space in the blasting agent silo 1 from the compressed air storage boiler 3 is released with a Stock of abrasive 2 filled. In the blasting agent silo 1, a stationary blasting agent feed pipe 8 is inserted, can be refilled via the blasting agent 2 if necessary can. On the blasting agent silo 1 and the compressed air storage boiler 3 are jet nozzle units 4, 5 and a telescopic rod element 6 with an attached jet nozzle holding element 7 arranged at the bottom. Each jet nozzle unit 4, 5 has a jet nozzle head 45, which has a Blasting agent hose 42 on a blasting agent connection piece 41, 51 of the blasting agent silo 1 and via an air hose 44 on an air connector 43, 53 of the compressed air storage boiler 3 is connected.

The telescopic rod element 6 has an outer tubular element 61 on, which is attached to the boiler bottom 18. In the outer tube element 61 there is also an inner rod element 62, which holds the jet nozzle element. In the inner rod element 62, recesses 63 are introduced into which are spaced two adjustment screws screwed in one below the other can be. As a result, the jet nozzle element 7 is on the the jet nozzle heads 45 are attached opposite one another, height adjustable. Instead of the two jet nozzle heads 45 can use several, for example four or ten pieces become.

The operation of the rotating abrasive system like it results from the illustrated embodiment discussed:

Blasting agent 2 is applied via the blasting agent feed element 8 filled into the blasting agent silo 1 until the bulk supply under the end of the blasting agent feed pipe 8 enough. Then the drive motor 31 and at the same time the compressed air device 15 put into operation. The jet compressed air is from the fixed compressed air supply element 9 forwarded to the rotating rotary tube element 12. The jet nozzle heads 45 are with compressed air from the compressed air storage boiler 3 supplies, whereby a suction in the blasting head Negative pressure builds up. As a result, the blasting agent 2 is through the blasting agent connection pieces 41, 51 to the blasting nozzle heads 45 sucked in. The blasting agent support is supported due to the inclination of the truncated cone of the compressed air storage boiler 3 and the speed of rotation of the blasting agent silo 1. The blasting agent silo 1 and thus also the Jet nozzle heads 45 are operated at variable speeds, for example, from 30 to 80 rpm, preferably 60 rpm.

By pulling out or pushing in the inner rod element 62 in the outer tube element 61 becomes the jet nozzle holding element 7 with the jet nozzle heads 45 opposite one Workpiece 401 in the blasting cabinet 301 and opposite one Workpiece 402 set in the blasting cabinet 302. The set The height is increased using the two adjusting screws 64 fixed in the adjustment recesses 63. After that it needs Workpiece 401, 402 are only with the aid of workpiece transport devices 306, 307 under the rotating jet nozzle heads 45 to move forward.

The workpiece 401, 402 can thus be in half the time as before or can be blasted on both sides. Moving the workpiece back and forth under the fixed one Jet nozzle 45 with the previously usual acceleration and Braking movements in horizontal and vertical directions or the same movement of the jet nozzle heads can omitted. This reduces the expenses of the Blasting plant with better utilization of the Blasting media combined with a higher blasting quality.

Claims (11)

Device for blasting objects with a blasting medium, which has at least a blasting agent silo (1) in which there is at least a supply of blasting agent (2), a compressed air unit (3, 9, 12, 15) and at least one blasting agent nozzle unit (4; 5) which is connected to the blasting agent silo (1) and to the compressed air unit, characterized in that that the compressed air unit has a rotatable compressed air supply unit (3, 12) which projects into the central steel silo (1) and is arranged thereon, that a blasting nozzle holding unit (6, 7) is arranged on the blasting agent silo (1) with which the blasting agent nozzle unit (4; 5) is to be guided, and that a drive unit (31, 32) is connected to the rotatable compressed air supply unit (3, 12). Device according to claim 1, characterized in that the compressed air supply unit (3, 12) at least partially in at least one bearing element (10, 11) Holding device (16) is held. Device according to claim 1 or 2, characterized in that that the compressed air supply unit from a compressed air storage boiler (3), which is inside the Blasting agent silos (1) attached to a silo bottom (17) and to which a rotary tube element (12) is connected. Device according to one of claims 1 to 3, characterized characterized in that the rotary tube element (12) with the Drive unit (31, 32) and a fixed compressed air supply element (9) is connected. Apparatus according to claim 4, characterized in that to that compressed air supply element (9) a compressed air device (15) is connected. Device according to one of claims 1 to 5, characterized characterized in that under a boiler bottom (18) of the Compressed air storage boiler (3) a telescopic rod element (6) is arranged on which there is at least one jet nozzle unit (4; 5) is located. Device according to one of claims 1 to 5, characterized in that that each blasting nozzle unit (4; 5) has a blasting nozzle (45) which is held with a blasting nozzle holding element (7) arranged on the telescopic rod element (6), and that each blasting nozzle unit (4; 5) is connected via a blasting agent hose (42) to a blasting agent connection piece (41; 51) arranged on the blasting agent silo (1) and via an air hose (44) to an air connection piece (43; 53) arranged on the compressed air storage tank (3) ) connected. Device according to one of claims 1 to 7, characterized in that that in the blasting agent silo (1) a blasting agent supply element (8) is performed. Device according to one of claims 1 to 8, characterized characterized in that the telescopic rod element (6) Has outer tube element (61) which on the boiler bottom (18) of the pressure tank (3) and in which an adjustable Inner rod element (62) is arranged on which the Jet nozzle holding element (7) is attached. Device according to one of claims 1 to 9, characterized in that that the holding device (16) on a Cabin roof (304; 305) of a blasting cabin (301; 302) arranged is. Device according to one of claims 1 to 10, characterized characterized in that the compressed air storage boiler (3) as a hollow truncated cone is formed.

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