DE10252782A1 - System for recovering abraded particles collected after sandblasting objects comprises a device for removing abraded particles connected to a suction device via a line splitter - Google Patents

Abstract

System for recovering abraded particles collected after sandblasting objects comprises a device (1) arranged under a grate for removing abraded particles. The device is connected to a suction device (7) via at least one line splitter (24), several bulk material containers (13), each with a separator, and at least one line connector (25). A driven or manually operated closing mechanism (26) is arranged in each line between the bulk material containers and the line connector.

Description

The invention relates to systems for recovering of blasting particles caught after blasting objects become.

A device for removing Starhl particles is known from WO 98/10894 A1. The jet particles get into a trough-shaped slide, the above a lid can be closed is. The cover is coupled to pneumatic cylinders so that the Channel can be closed is. This is a tubular Channel available from which the jet particles contained therein are sucked out can be. With this solution can Jet particles in the connection point between the gutter and the lid Conclude of the cover, so that circulating air is also sucked in over the cover becomes. This means that greater suction power is required or not all jet particles on the channel are removed. Another disadvantage are the pneumatic cylinders used are in the blasting area. There are moving and protected parts in the blasting room.

The separation of a mixture of light and heavy particles that are conveyed by a gas flow, is characterized by, inter alia, WO 01/39899 A1 (cone classifier and Methods for classifying restricted or non-pourable bulk material) are known. The particles fall on those arranged inside the cone sifter Cone, where an air flow against the direction of fall through the cone classifier flows and takes the light particles with it. Possible blockages in the inlet pipe and deposits on the surface of the cone are to be prevented become. There is a positive cone air inlet for this with the interior of the displacement cone connected, being between a cylindrical neck and a Double cone there is an annular gap. The cone classifier draws is characterized by a complicated structure, being by the impact a separation is brought about. Another disadvantage is in that the unseparated particles run on in a tube drop a cone, leaving only a limited space for separation disposal stands.

In the DE 197 40 013 C1 A sifter is described (bulk sifter), the bulk material falling onto an elongated displacement body which is located in the extension of the bulk material supply pipe and has a conical tip. The end area of the bulk material feed pipe is flared. As a result, the jet of the bulk material falling down is processed. The direction of sight air is opposite to the direction of fall of the bulk material. An impact of the particles and a resulting swirling does not take place. Light particles that adhere to the heavy particles cannot be separated from the heavy particles.

In the DE 198 11 132 A1 (Apparatus for separating fine particles from a bulk material stream conveyed by means of a gas stream and containing coarse and fine particles} a classifier is described, wherein a feed pipe for the bulk material flow projects essentially horizontally. An outlet opening is located above the feed pipe. The disadvantage of this classifier is that the wall of the feed pipe is arranged in the gas flow with the light bulk material, so that a shaded space is available, while heavy particles are also sucked off when the gas flow is increased.

The specified in claim 1 The invention is based, blasting particles after blasting the task of objects to be prepared so that they can be reused for blasting.

This object is achieved with the in the claim 1 listed Features resolved.

Plants for the recovery of jet particles are characterized in particular by the fact that the jet particles removed from the blasting chamber and separated from both impurities and prepared according to the type of jet particles.

This is achieved by having a Device for removing jet particles below a grate arranged this device over at least one line distributor, several bulk containers with one classifier each and at least one line connector with a suction device via lines connected and in each line between the bulk container and the line connector driven or manually operated Locking mechanism are arranged.

The jet particles are through the Vacuumed rust, both the falling jet particles and their impurities and the air in the work area are extracted can be. These particles pass through the suction device into one of the bulk material containers Classifier. The jet particles are separated as far as possible of contaminants and a collection of the jet particles in the Bulk containers. The The bulk containers are switched over advantageously over the locking mechanisms between bulk container and pipe connector, whereby no suction air gets into the unneeded bulk material container with sifter. The is a very simple, economical favorable and effective implementation, separating the jet particles according to their type. Such jet particles exist for example, as is known, made of steel, corundum or glass. A seperation this jet particle is the prerequisite for their reuse.

Advantageous embodiments of the Invention are given in claims 2 to 12.

The devices for removing jet particles of the system for recovering jet particles below a grate are characterized according to the further development of claim 2 in particular in that the jet particles can be easily removed from the place of work. To do this are below the grate, funnel-shaped channels in cross section at a distance from the base surface, the wide opening pointing in the direction of the grate and serving to receive the jet particles. The narrow opening as the outlet opening points in the direction of the base area and can be closed with a hollow body with an elastic wall and a connecting element for supplying or removing a liquid or gaseous substance. The space between the base and the funnel-shaped channel serves to receive the jet particles and is connected to a suction device via a connection.

The devices for removing Jet particles therefore have no moving parts. Otherwise existing patent mechanisms for this moving parts are not necessary. The wear is very low.

The closable outlet openings the funnel-shaped in cross section Lead gutters to two major advantages. First, the dust particles can be cycled from the space below the funnel-shaped channel be removed. The beat for the suction depends on the amount of blasting particles. simultaneously can be used to limit the suction power, since there is always only one certain amount of blasting particles including impurities located among other things by the blasted object. Another The advantage is that the limited amount removes them completely can be. Second, about open outlet the funnel-shaped in cross section Channel in connection with the suction device also the jet and Dust particles from the work area are removed. With that, the Overall jet particles complete removed so that blasting media can be changed quickly. The otherwise necessary cleaning work can omitted.

The jet particles including particles of the object and dusts from the space below the funnel-shaped channel and the jet and dust particles in the air of the work area advantageously removed with one and the same suction device.

Another major advantage consists in the very low height of the devices for removal of jet particles only by the height of the funnel-shaped channels in cross section and the distance from the base is determined.

Larger areas are advantageous after the further development of claim 3 several in cross section funnel-shaped Gutter arranged parallel to each other, the space between the base and at least one of the funnel-shaped channels with a closable connection is provided and the connections are connected to the suction device. Each room can be used individually be sucked off. about a cyclical actuation of the lockable connections it possible that the jet particles are only extracted from one or fewer rooms become. This means that less suction power is required. The removal the particles from the air in the work area remain possible.

A cheap realization of the devices to remove jet particles is after the training of Claim 4 a structural unit, each consisting of two funnel-shaped channels in cross section consists. This results in a simpler and both economical as well as technologically favorable construction to be realized. That will be especially the case with further training of claim 5 achieved, with a large area for attaching the hollow body is. With the influx of the liquid or gaseous Fabric in the hollow body fills this the space between the opposite surfaces of the leg of the L-shaped Wall and the end area of the first wall. This room poses the outlet opening for the Jet particles.

The further development of the patent claim 6 leads advantageously that the devices for removing Jet particles over the control device can be operated so that, on the one hand, the Jet particles from the space under the funnel-shaped channels and on the other hand the work space above can be vacuumed off the rust.

The bulk container with classifier of the system for recovering of jet particles are suitable according to the further development of the patent claim 7 advantageously for cleaning of radiators after surface treatment of bodies by blasting, the blasting body being the heavy particles and paint particles, corroded body particles, dust or other contaminants that are light particles. The radiator will with it over a simple and very economical Process reprocessed so that it can be used for further use disposal stand.

The dirty blasting body will conveyed with the air flow of the suction device and the light particles aspirated. That is the opposite of the footprint upper part of the bulk container is conical and inside there is at least one wall, with between both the outer wall the bulk container and the wall as well as the bottom edge of the wall and the lower part of the Bulk container each There is a distance in at least one area. An outlet opening for the air flow and the separated light particles are in the outer wall across from the Wall. An outlet for the heavy ones Particle is arranged in the lower part. The special advantage of Bulk container with sifter is that there are no moving parts.

The bulk material consisting of light and heavy particles passes over with the air flow a pipe to the upper part of the bulk container. Then it falls down due to gravity and the light particles are sucked off through the space between the wall and the outer wall of the bulk material container and the outlet opening. Another advantage is that, with an increased air flow, the bulk material consisting of light and heavy particles impacts the inner wall of the upper part of the bulk material container, so that a mechanical separation of light and heavy particles that are adhered to one another takes place. This results in a better separation of the particles.

The wall inside the bulk container prevented that particles moving towards the outlet opening cannot get into this. This wall supports the separation essential.

An education of the lower part of the bulk container in a cone shape or a pyramid shape with a polygonal base The development of claim 8 allows easy removal of heavy particles. Another advantage is that a Storage space for this particle is avoided.

The further development of the patent claim 9 leads to a very simple bulk container with sifter. The wall is tubular trained and is also at a distance parallel to one tubular outer wall the bulk container arranged. The space serves to extract the light particles. To is in the outer wall at least one outlet opening parallel to the wall. Such a structure is particularly easy to implement. Special measures for the Placement of the wall opposite the outlet opening are not necessary.

A cheap education of the lower Part of the bulk container with the outlet opening and a nozzle arranged on it is after further training of claim 10 a funnel.

That at least the end area of the Pipe for feeding of the undivided bulk goods the development of claim 11 not in the direction of the conical tip but on an area of the wall surface of the upper part of the bulk container and at the same time in a slant Opposite direction this wall surface points leads to, that the particles do not hit this wall surface at right angles. This results in additional impacts when the particles impact Swirl movements of these particles, so that the light particles in the Bulk container with Can swirl classifiers. The light particles can lighter and more complete from the bulk container with Classifiers are removed. This turbulence is caused by continuing education of claim 12 further improved.

An embodiment of the invention is shown in the drawings and is described in more detail below.

Show it:

1 a basic illustration of a system for recovering jet particles,

2 a device for removing blasting particles below a walkable grate, 3 a device as a structural unit for removing blasting particles below a walkable grate,

4 a schematic representation of a bulk container with sifter in a side view and

5 a schematic representation of a bulk container with sifter in a plan view.

A system for recovering blasting particles that are collected after blasting objects consists essentially of a device 1 for removing blasting particles below a grate 3 , several bulk containers 13 each with a classifier and a suction device 7 , The device 1 for removing jet particles is via at least one line distributor 24 , the bulk containers 13 each with a classifier and at least one line connector 25 with the suction device 7 connected by lines, with each line between bulk containers 13 and line connectors 25 a powered or manually operated locking mechanism 26 is arranged (representation in the 1 ). The number of bulk containers 13 with classifier depends on the types of jet particles used. If, for example, bodies with steel, corundum or glass beads are to be used in the system, there are three bulk containers 13 with classifier.

A device 1 for removing jet particles below a grate 2 consists essentially of funnel-shaped channels 3 and one hollow body each 4 in the outlet openings 5 the funnel-shaped channels in cross section 3 , The wider opening 6 points in the direction of the grate 2 while the narrow opening as the outlet opening 5 towards the base 8th is arranged (representations in the 3 and 4 ). The rust 2 is walkable. The hollow body 4 has an elastic wall and a connection element for the supply or discharge of a liquid or gaseous substance. The space between floor space 8th and funnel-shaped channel in cross section 3 is with a connection for the line to the bulk containers 13 provided with sifters.

Several funnel-shaped channels in cross section 3 are arranged parallel to each other, these being a series of parallel funnels having a cross section 3 represent. Two funnel-shaped channels in cross-section 3 form a structural unit. This consists of two sloping first walls 9 and one partition each 12 between the first walls 9 and the footprint 8th as well as two in an L shape sloping and interconnected second walls 10 , The connecting edge of the second walls 10 points in the direction of the grate 2 , The leg forming a surface 11 the second wall 10 L-shaped and the area of an end portion of the first wall 9 are arranged at a distance parallel or predominantly parallel at a distance from each other. The distance and the opening formed between these surfaces is the outlet opening 5 the funnel-shaped channels in cross section 3 , On one of these areas 9 or 11 is the hollow body 4 attached so that when the liquid or gaseous substance is supplied the space between the through the leg 11 the second wall 10 L-shaped surface and the surface of the end portion of the first wall 9 completely filled out. The connecting element of the hollow body 4 for the supply or discharge of a liquid or gaseous substance, at least one controllable valve is connected to at least either a pump or either a compressed air generating and / or suction device. The outlet opening becomes by pumping off the liquid substance or by suctioning off the gaseous substance or by pressure equalization with the surroundings 5 released, the hollow body 4 contracts. In the latter case, in one embodiment, the hollow body 4 consist of a fabric and / or be designed so that the outlet opening 5 is released as soon as no pressure in the hollow body 4 is available. At least part of the wall is advantageously designed to be self-resilient or in the hollow body 4 tension springs are arranged. In a further embodiment, compression springs can also be in the hollow body 4 be arranged, the outlet opening 5 when a negative pressure develops in the hollow body 4 is released.

The space between floor space 8th and funnel-shaped channels in cross section 3 the assembly is provided with a closable connection to the outside, the connections via a channel with the suction device 7 are connected. The channel runs at one of the ends of the funnel-shaped channels 3 , The lockable connection is an opening with a flap provided with a drive.

The drives, the controllable valves and either generating at least one pump or compressed air or suction device are interconnected with a control device.

• – zum Absaugen der Strahlpartikel ist wechselnd jeweils wenigstens eine der Klappen offen, wobei der dadurch offene Raum zwischen Grundfläche 8 und der Baueinheit mit der Saugvorrichtung 7 verbunden ist und gleichzeitig die Auslassöffnung der im Querschnitt trichterförmigen Rinnen 3 mit den Hohlkörpern 4 verschlossen sind und
• – zum Absaugen der Luft über dem Rost 2 ist wenigstens eine der Klappen offen, wobei der dadurch offene Raum zwischen Grundfläche 8 und wenigstens der Baueinheit mit der Saugvorrichtung 7 verbunden und gleichzeitig die Auslassöffnungen der im Querschnitt trichterförmigen Rinnen 3 mit den Hohlkörpern 4 nicht verschlossen sind.

With such a structure, the following basic operating modes result:

• - For sucking off the jet particles, at least one of the flaps is alternately open, the space between the base area being open as a result 8th and the assembly with the suction device 7 is connected and at the same time the outlet opening of the funnel-shaped channels in cross section 3 with the hollow bodies 4 are closed and
• - to extract air from the grate 2 At least one of the flaps is open, the open space between the base surface 8th and at least the assembly with the suction device 7 connected and at the same time the outlet openings of the funnel-shaped channels in cross section 3 with the hollow bodies 4 are not closed.

In a further embodiment, it is also possible to have a plurality of rows of funnels which are funnel-shaped in cross section and arranged parallel to one another 3 below the grate 2 arranged. The channel to the suction device 7 is located between two rows, so that this channel and the spaces under the building units represent a bone shape.

The bulk goods container with separator for separation essentially consists of an upper part 14, a lower part 15, a wall section 16 , a wall 17, a pipe 18 for feeding the unseparated particles, an outlet opening 19 for the air flow with the separated light particles and an outlet opening 20 for the separated heavy particles in the form of the radiator (shown in the 4 ).

The upper part 14 and the lower part 15 of the bulk material container with sifter are conical. Between the top part 14 and the lower part 15 there is a cabbage cylinder, tubular wall section 16 , There is a wall in the bulk container 17 arranged, these on the upper part 14 is attached and parallel to the tubular wall section 16 runs. The wall 17 itself is equal to the wall section 16 tubular. The outside diameter of the wall 17 smaller than the inside diameter of the wall section 16 so that between the wall 17 and the wall section 16 there is a distance. The length of the wall 17 is so big that between the bottom edge of the wall 17 and the lower part 15 there is a clearance between the bulk material container and the light particles.

A tube is still located in the bulk goods container and protruding from it or ending in an opening 18 for feeding the particles. At least the end of this tube 18 does not point in the direction of the conical tip but to an area of the wall surface of the upper part 14 and in an oblique direction with respect to this wall surface, so that the unseparated particles either not or predominantly not at right angles and predominantly in one with respect to the axis of symmetry of the upper part 14 radial direction impact on this wall surface. The 4 and 5 show a bulk container in a side view and a plan view with such an arrangement of the tube 18 for feeding the unseparated particles.

At least one outlet 19 for the air flow and the separated light particles in the wall section 17 opposite the wall 17 arranged.

The outlet opening 20 for the heavy particles is advantageously in the middle in the lower part 15 , The lower part 15 , this outlet opening 20 and an outlet pipe 21 for the heavy particles together form a funnel 22 ,

The bulk container continues to have several pillars 23 , The heavy particles enter the outlet pipe by gravity 21 and can be transported to the processing point at the end using known transport devices.

Known devices producing an air flow are used as suction devices for conveying the particles and thus for generating the air flow 7 , such as fans.

Claims (12)

Installation for the recovery of blasting particles which are collected after the blasting of objects, characterized in that a device ( 1 ) for removing blasting particles underneath a grate ( 2 ) that this device ( 1 ) via at least one line distributor ( 24 ), several bulk containers ( 13 ) with one classifier and at least one line connector ( 25 ) with a suction device ( 7 ) is connected via lines and that in each line between bulk containers ( 13 ) and line connector ( 25 ) a powered or manually operated locking mechanism ( 26 ) is arranged. System according to claim 1, characterized in that the device for removing jet particles below a grate ( 2 ) made of funnel-shaped channels ( 3 ) there is that the funnel-shaped channels ( 3 ) at a distance from the base ( 8th ) are arranged so that the wide opening ( 6 ) towards the grate ( 2 ) and the narrow opening as an outlet opening ( 5 ) towards the base ( 8th ) indicate that a hollow body ( 4 ) is arranged with an elastic wall and a connecting element for the supply or discharge of a liquid or gaseous substance and that the space between the base surface ( 8th ) and funnel-shaped gutter in cross section ( 3 ) with a connection for a suction device ( 7 ) is provided. Installation according to claim 2, characterized in that several funnel-shaped channels in cross section ( 3 ) are arranged parallel to each other so that the space between the base area ( 8th ) and at least one of the funnel-shaped channels ( 3 ) is provided with a lockable connection and that the connections with the suction device ( 7 ) are connected. Installation according to claim 2, characterized in that two funnel-shaped channels in cross section ( 3 ) form a structural unit and that both two sloping first walls ( 9 ) and one partition each ( 12 ) between the first walls ( 9 ) and the base area ( 8th ) as well as two L-shaped sloping and interconnected second walls ( 10 ) represent the structural unit, the connecting edge of the second walls ( 10 ) towards the grate ( 2 ) points. Plant according to the claims 2 and 4 , characterized in that the second wall ( 10 ) L-shaped is that the leg forming a surface ( 11 ) the L-shaped second wall ( 10 ) and the area of an end region of the first wall ( 9 ) are arranged parallel or predominantly parallel at a distance from one another such that the opening between these surfaces is the outlet opening ( 5 ) of the funnel-shaped channels ( 3 ) and that on one of these surfaces the hollow body ( 4 ) is attached so that the hollow body ( 4 ) when supplying or removing the liquid or gaseous substance, the space between the through the leg ( 11 ) the L-shaped second wall ( 10 ) formed area and the area of the end region of the first wall ( 9 ) largely or completely filled out. Plant according to the claims 2 to 5 , characterized in that the closable connection is an opening with a flap provided with a drive, that the connection element for supplying or discharging a liquid or gaseous substance for the hollow body ( 4 ) is connected via at least one controllable valve to at least either a pump or a compressed air generating and / or suction device and that the drives, the controllable valves and the either at least one pump or compressed air generating and / or suction device are connected to a control device. System according to claim 1, characterized in that the upper part opposite the stand area ( 1 ) of the bulk goods container is conical as a sifter that on the upper part ( 1 ) of the bulk container and in this at least one wall ( 4 ) is arranged so that between both the outer wall of the bulk container and the wall ( 4 ) as well as the lower edge of the wall ( 4 ) and the lower part ( 2 ) of the bulk goods container there is a distance at least in one area in such a way that at least the end area of a tube ( 5 ) for feeding the undivided bulk material in the direction of the through the wall ( 4 ) limited upper part ( 1 ) of the bulk goods container and that an outlet opening ( 6 ) for the air flow and the separated light particles in the Outer wall opposite the wall ( 4 ) and an outlet opening ( 7 ) for the heavy particles in the lower part ( 2 ) are arranged. Installation according to claim 7, characterized in that the lower part ( 2 ) of the bulk container has either a conical shape or a pyramid shape with a polygonal base. Installation according to claims 7 and 8, characterized in that the upper part ( 1 ) and the lower part ( 2 ) of the bulk goods container are conical, that between the upper part ( 1 ) and the lower part ( 2 ) of the bulk container a tubular wall section ( 3 ) is on the upper part ( 1 ) of the bulk container and parallel to the tubular wall section ( 3 ) the bulk container has a closed peripheral wall ( 4 ) is arranged so that between both the outer wall of the bulk container and the wall ( 4 ) as well as the lower edge of the wall ( 4 ) and the lower part ( 2 ) there is a distance between the bulk goods container and that at least one outlet opening ( 6 ) for the air flow and the separated light particles in the outer wall opposite the wall ( 4 ) is arranged. Installation according to claim 7, characterized in that the lower part ( 2 ) of the bulk container with the outlet opening ( 7 ) and a nozzle for the heavy particles arranged thereon a funnel ( 9 ) represent. Plant according to the claims 7 to 9 , characterized in that at least the end region of the tube ( 5 ) for feeding the undivided bulk material not in the direction of the conical tip but on an area of the wall surface of the upper part ( 1 ) of the bulk goods container and in an oblique direction with respect to this wall surface, so that the particles do not or not predominantly at right angles to the wall surface of the upper part ( 1 ) of the bulk container. Installation according to claim 10, characterized in that the end region of the tube ( 5 ) for the feeding of the undivided bulk material is arranged in such a way that the particles predominantly in an opposite part to the axis of symmetry of the conical upper part ( 1 ) impact radial direction on this wall surface.