DE10231482A1 - jet device - Google Patents

Abstract

The invention relates to a blasting device (1) with a centrifugal wheel (2) with centrifugal blades (24), with a centrifugal wheel housing (20) surrounding the centrifugal wheel (2) with the exception of an ejection region (26), with a feed line (4) for a blasting medium and with a distributor sleeve (25) which rotates with the centrifugal wheel (2) and is arranged radially inside the centrifugal vanes (24), into which the feed line (4) opens and which is designed with a plurality of openings (25 ') through which the blasting medium leads to the centrifugal vanes (24) arrives. DOLLAR A The new blasting device is characterized in that DOLLAR A - that the supply of the blasting agent is free of air, DOLLAR A - that a non-rotatable guide sleeve (3) is arranged between the distributor sleeve (25) and centrifugal blades (DOLLAR A) - that the guide sleeve ( 3) is designed with at least one opening (32) in its circumference, through which the blasting medium supplied reaches the spaces between adjacent centrifugal blades (24), and DOLLAR A - that the guide sleeve (3) with at least one air inlet opening (33) in it Scope is carried out, which, seen in the axial direction, is outside the centrifugal wheel housing (20) and through which air can be introduced into the guide sleeve (3) from the outside when the centrifugal wheel (2) is rotating and can be mixed with the blasting agent.

Description

The present invention relates to a beam device for the processing of workpiece surfaces by means of of a grainy Abrasive, with a rotating impeller with centrifugal blades, with one the centrifugal wheel with the exception of an abrasive discharge area surrounding centrifugal wheel housing, with a supply line for the feeder of the abrasive, with one rotating with the centrifugal wheel, radially arranged within the centrifugal blades, concentric distributor sleeve, in the the feed line opens and which is designed with several openings in its scope, through which the supplied Abrasive in the spaces between two neighboring centrifugal blades.

A beam device of the above Art is known from utility model no. 1 858 583. At this The blasting device enters the blasting medium through a feed pipe Direction to the blasting agent inlet of the blasting device. Right away before entering the blasting device, the feed line for the blasting medium opens into a compressed air supply line. The blasting agent is created by the compressed air supplied through the compressed air supply line accelerated and through a non-rotating, narrowing nozzle tube moved towards the center of the sling wheel. The nozzle pipe ends immediately before a feed wheel rotating with the centrifugal wheel has several openings in its circumference, the passage of the blasting agent-air mixture in the radial direction to the outside serve. Radially outside of the nozzle tube and the feed wheel is a sleeve-like at a short distance from it casing firmly arranged. The sleeve-like Has housing approximately congruent with the openings in the metering wheel Allotment recess in its scope through which the blasting agent-air mixture further radially outwards reaches the area of the rotating centrifugal wheel. Farther has the sleeve-like casing a laxative recess. This laxative recess is offset in the axial direction relative to the centrifugal wheel so that the discharge recess is positioned in the axial direction in front of the centrifugal wheel. The laxative opening then opens into a space between the centrifugal wheel and the one Centrifugal wheel surrounding housing is formed. The laxative recess serves here, an excess of blasting agent-air mixture supplied dissipate, to blockage of the blasting device due to an excess of blasting medium supplied excluded. On such excess of blasting media supplied can occur relatively easily here because the compressed air supplied for effective advancement of blasting media in the center of the centrifugal wheel, whereby Avoiding a lack of abrasive in practice feeding the Abrasives generally prefer to be set slightly higher than necessary becomes. This deliberate excess of blasting media supplied unless it is excessively large, it is not harmful here the excess of abrasive, as previously explained through the laxative recess harmless, but also for the processing of the workpiece surface is useless, dissipated becomes.

For the present invention has as its object a beam device to create the type mentioned in the case of simplified Working method a more efficient use of the abrasive used is achieved.

• – daß die Zuführung des Strahlmittels eine druckluftlose Zuführung ist,
• – daß zwischen der Verteilerhülse und dem radial inneren Ende der Schleuderschaufeln eine verdrehfeste Leithülse angeordnet ist,
• – daß die Leithülse mit wenigstens einer Durchbrechung in ihrem Umfang ausgeführt ist, durch die das zugeführte Strahlmittel nach seinem Durchtritt durch die Durchbrechungen in der Verteilerhülse in die Zwischenräume zwischen den je zwei benachbarten Schleuderschaufeln (24) gelangt, und
• – daß die Leithülse weiterhin mit wenigstens einer Lufteinlaßöffnung in ihrem Umfang ausgeführt ist, die in Axialrichtung gesehen außerhalb des Schleuderradgehäuses liegt und durch die bei rotierendem Schleuderrad durch dessen Pumpwirkung Luft von außen her in die Leithülse einleitbar und dem Strahlmittel zumischbar ist.

This object is achieved according to the invention with a beam device of the type mentioned at the outset, which is characterized in that

• - that the supply of the blasting agent is a supply without compressed air,
• That a non-rotatable guide sleeve is arranged between the distributor sleeve and the radially inner end of the centrifugal blades,
• - That the guide sleeve is designed with at least one opening in its circumference, through which the supplied abrasive after it has passed through the openings in the distributor sleeve into the spaces between the two adjacent centrifugal blades ( 24 ) arrives, and
• - That the guide sleeve is also designed with at least one air inlet opening in its circumference, which, seen in the axial direction, lies outside the centrifugal wheel housing and through which, when the centrifugal wheel rotates, pumping air from the outside can be introduced into the guide sleeve and admixed with the blasting agent.

A simplification of the jet device according to the invention is achieved primarily by the fact that it does not require the supply of compressed air for its operation, so that the provision of devices for generating compressed air at the place of use of the jet device is no longer necessary. By eliminating the compressed air, corresponding line connections, such as compressed air hoses, can also be omitted, which simplifies the handling of the jet device. A particularly effective function of the blasting device is achieved in that air is introduced into the incoming blasting agent through the air inlet opening or openings in the guide sleeve and is mixed with the blasting agent in the center of the blasting device, thereby producing a mixture of air and blasting agent that can be conveyed very easily and with little resistance becomes. The throughput of blasting media through the blasting device can thus be maintained while the drive track remains the same tion are noticeably increased, which also brings about a corresponding increase in the processing power that can be achieved with the beam device on a workpiece. For the supply of the required amount of air, the jet device ensures with its already existing centrifugal wheel, without the need for an additional fan or additional air blades, so that the construction of the jet device remains advantageously simple.

To be viewed in the circumferential direction of the guide sleeve even access of air into the interior of the guide sleeve to ensure, it is preferably provided that in the guide sleeve over their Several air inlet openings are provided circumferentially.

In a further embodiment, the invention proposes before that any Air inlet opening one Has cross section that is small compared to the cross section of the opening for the Abrasive in the circumference of the guide sleeve. In this way, a compact design is ensured, since for the air inlet openings in the axial direction of the guide sleeve seen only a relatively short section of its length is needed. Nevertheless, it is guaranteed that air big enough Amount through the air intake openings because the air is different from a granular abrasive also through one or more relatively small openings in a sufficient amount flowing, if the blast wheel, as usual, rotates at a relatively high speed, which has a significant pumping effect, a corresponding vacuum is generated on the inner side of the guide sleeve.

To drag for the through the air intake openings flowing Air if possible To keep it small, it is proposed that each air inlet opening has one round cross-section with rounded front and rear ends having.

For the in the scope of the guide sleeve provided opening through which the blasting agent-air mixture It is preferably provided in the radial direction from the inside to the outside, that these is a window with substantially rectangular corners that in the circumferential direction of the guide sleeve over an angle between about 30 ° and Extends 60 °. By change and a suitable determination of the said angle allows the throughput of the blasting agent-air mixture. By a relatively simple one Exchange of the guide sleeve against one with a different angle of the window, the Characteristics of the beam device in the desired manner and according to needs change and set.

In a further embodiment, it is preferred provided that the spinner wheel surrounded by an outer casing is that with the exception of an opening for the Abrasive discharge area of the blast wheel housing is closed, wherein through a gap between the centrifugal wheel housing and the outer housing air, preferably from an area next to the blasting agent ejection area, can be guided to the guide sleeve. This configuration of the beam device is advantageous the air to be mixed with the blasting medium from an area close to the Abrasive discharge area deducted, which is advantageous. someone specific Deduction of generated dust from material removed from a workpiece surface takes place. This will make the blasting device work more cleanly in the Comparison to common ones Facilities achieved.

For a clear arrangement of the To achieve individual parts of the beam device and around if necessary with if possible minor disassembly work get into the interior of the blasting device to be able it is preferably provided that the Centrifugal wheel and the distributor sleeve through an outside flanged to the outer housing Motor can be driven, the motor being arranged on an end wall of the outer housing is, the supply line for the abrasive in the opposite, other end wall of the Outer housing and wherein the feed line is designed as a tube with a tube flange and detachable with the associated End wall is connected.

The invention further proposes that the supply line forming tube in an arc between about 30 ° and 60 ° coming from above into the Outer case runs and pointing essentially in the axial direction in or near the initial region the distributor sleeve ends. For the feeder of the abrasive through the feed line can cause gravity be exploited, what special funding facilities on the side dispenses with the supply line.

According to a further embodiment it is envisaged that the the distributor sleeve facing end region of the feed line is formed with a step, with an upper part of the end region shorter and a lower part of the End area longer is trained. With this configuration of the end area of the supply line is achieved in particular that the blasting agent supplied not in the gap area between the centrifugal wheel housing and the outer case falls, so that this possibly resulting malfunctions be excluded from the outset. But at the same time is from access from the top of the end region of the feed line Air through the air intake openings in the guide sleeve possible without any problems and unhindered. In this way, the abrasive is already at the end of the feed line Air supplied, which facilitates the entry of the blasting agent into the interior of the distributor sleeve and more fluid designed.

Since the guide sleeve, as well as the distributor sleeve and the centrifugal blades of the centrifugal wheel are subject to wear during operation, is provided for the purpose of easy interchangeability of the guide sleeve, that these formed on its supply-side end with a mounting flange is that solvable connected to the outer housing is.

To even with intensive use and a good one if the blasting agent is heavily loaded Service life of the guide sleeve To achieve this, it preferably consists of two interconnected parts, namely from a hollow cylindrical sleeve part from an abrasion-resistant material and from an associated Flange part made from a less abrasion-resistant, easier to machine Material. This is advantageous only for those who actually use the abrasive claimed hollow cylindrical sleeve part, the abrasion-resistant, essential used more expensive material while for the part of the guide sleeve not used by the blasting agent less abrasion-resistant, easier to work and also cheaper Material is used.

Finally, it is preferably provided that the guide sleeve or if necessary, at least their sleeve part consists of a sintered metal or ceramic. These materials are particularly abrasion-resistant and therefore particularly good for the strong stressed guide sleeve or their hollow cylindrical sleeve part suitable.

An embodiment of the invention is explained below using a drawing. The figures of the drawing demonstrate:

1 a beam device in vertical section and

2 a guide sleeve as part of the beam device 1 , also in vertical section, in an enlarged view.

1 the drawing shows a beam device 1 in a cross section running in a vertical plane. The beam device 1 includes an outer housing 10 by two end walls 11 . 12 and a peripheral wall 13 is formed. Inside the outer case 10 is a centrifugal wheel housing 20 arranged in which a centrifugal wheel 2 is housed. The centrifugal wheel 2 is by an in 1 only a small part of the drive motor visible on the right 27 via a drive shaft 28 about an axis of rotation 29 rotatably driven. The motor 27 is by means of a motor flange 27 ' detachable with the rest of the beam device 1 connected.

The centrifugal wheel housing 20 has two end walls 21 . 22 and a peripheral wall 23 , The sluice wheel housing is at the bottom 20 open and forms an abrasive discharge area there 26 , The centrifugal wheel housing protrudes with its lower part 20 through an opening 16 in a base plate 14 that are part of the outer case 10 forms. The lower part of the beam device 1 forms a guide plate 15 , which are congruent in their center with the blasting area 26 is open and that of guiding the beam device 1 over a workpiece to be machined.

The centrifugal wheel 2 is, as usual, with replaceable centrifugal blades 24 equipped, which are arranged pointing in the radial direction. the centrifugal wheel continues to carry 2 a distribution sleeve in its center 25 that are in scope with one or more breakthroughs 25 ' is provided for the passage of blasting media. Because of their connection to the centrifugal wheel 2 rotates the distributor sleeve 25 together with the centrifugal wheel 2 in the operation of the beam device 1 ,

Between the outer circumference of the distributor sleeve 25 and the radially inner end spaced therefrom 24 ' the centrifugal blades 24 is a guide sleeve 3 arranged. The guide sleeve 3 has a flange part 21 , by means of which the guide sleeve 3 with the in 1 left end wall 11 of the outer case 10 is detachably connected. The guide sleeve 3 is therefore fixed within the beam device 1 arranged and does not rotate. The guide sleeve 3 has an opening in its wall 32 which is essentially the same size as the openings 25 ' in the distributor sleeve 25 , Furthermore, the guide sleeve has 3 in the wall several smaller air intake openings 33 that are axially towards the left bulkhead 11 are offset so that they are axially outside the range of movement of the centrifugal blades 24 lie.

The beam device further comprises 1 a supply line 4 for the abrasive. The supply line 4 here has the shape of a curved pipe socket, which comes from above an arc of about 60 ° into the device 1 describes it. The free end of the supply line 4 is designed as a connection flange for a feed line, not shown here, from a blasting agent storage container. The inner end 42 the supply line 4 is with a level 43 formed, the end region 42 is made longer in its lower part and shorter in its upper part. The lower, longer part of the inner end area 42 the supply line 4 protrudes into the interior of the distributor sleeve 25 ,

In operation of the beam device 1 the abrasive reaches the outer flange 40 drawn arrow through the supply line 4 into the inside of the distributor sleeve 25 , This supply of the blasting medium takes place without the use of compressed air. The abrasive comes from inside the distributor sleeve 25 through their breakthroughs 25 ' and through the breakthrough 32 the guide sleeve 3 in the radial direction outwards into the spaces between two adjacent centrifugal blades 24 the centrifugal wheel 2 , The rotating centrifugal wheel 2 accelerates the blasting medium and throws it through the blasting medium discharge area at high speed 26 out. The abrasive then strikes a workpiece surface to be machined, for example to carry out surface cleaning there.

The rotating centrifugal wheel 2 with its centrifugal blades 24 acts in the illustrated beam device 1 at the same time as a radial compressor. The air from inside the centrifugal wheel housing ses 20 will shovel through the slingshot 24 also accelerated and together with the blasting media through the blasting media ejection area 26 promoted to the outside. This creates a vacuum in the center of the centrifugal wheel. This ensures that air passes through a gap 17 between the outer case 10 and the centrifugal wheel housing 20 from the area below the base plate 14 to the center of the beam device 1 flows. There the inflowing air first passes through the air inlet openings 33 the guide sleeve 3 through and then flows partially into the gap between the guide sleeve 3 and rotating distributor sleeve 25 and partly inside the distributor sleeve 25 , In both areas, the inflowing air mixes with the blasting media supplied, thus making the blasting media easier to move. As a result, the centrifugal wheel has the same drive power 2 the throughput of blasting agent increases, which increases the work capacity of the blasting device accordingly 1 is achieved on a workpiece surface. Advantageously, no compressed air source and no separate or integrated blower is required for this, as is the blasting device 1 advantageously keeps simple.

2 the drawing also shows the guide sleeve in vertical cross section 3 as part of the beam device 1 out 1 , 2 illustrates the hollow cylindrical shape of the guide sleeve 3 , Furthermore shows the 2 that in the embodiment shown here, the guide sleeve 3 consists of two parts, namely a sleeve part 30 and a flange part 31 , These two parts 30 . 31 are firmly connected to each other by means of a rivet connection. In the sleeve part 30 is the breakthrough 32 which has the shape of a relatively large window and which is relatively close to the right end of the guide sleeve 3 is positioned. Towards the flange part 31 are in the sleeve part 30 the air intake openings 33 appropriate. The air intake openings 33 are here with a round cross-section and with roundings 34 formed on the inner and outer ends to allow the smoothest possible air flow. The division of the guide sleeve into two parts 30 . 31 allows the use of special materials for the two parts. The sleeve part 30 consists preferably of a particularly wear-resistant material, for example sintered metal or ceramic, since this sleeve part 30 is heavily used by the abrasive. The flange part not used by the abrasive 31 can be made from a less abrasion-resistant and therefore more easily machinable material.

Claims (12)

Beam device ( 1 ) for the machining of workpiece surfaces using a granular abrasive, with a rotating impeller ( 2 ) with centrifugal blades ( 24 ), with one the centrifugal wheel ( 2 ) with the exception of an abrasive discharge area ( 26 ) surrounding centrifugal wheel housing ( 20 ), with a supply line ( 4 ) for a compressed air-free feeding of the blasting medium, with a with the blast wheel ( 2 ) rotating radially inside the centrifugal blades ( 24 ) arranged, concentric distributor sleeve ( 25 ) into which the feed line ( 4 ) flows out and with several openings ( 25 ' ) is designed to the extent through which the blasting medium supplied into the spaces between two adjacent centrifugal blades ( 24 ) arrives, characterized in that - between the distributor sleeve ( 25 ) and the radially inner end ( 24 ' ) the centrifugal blades ( 24 ) a torsion-resistant guide sleeve ( 3 ) is arranged - that the guide sleeve ( 3 ) with at least one opening ( 32 ) is designed to the extent through which the blasting media supplied after it has passed through the openings ( 25 ' ) in the distributor sleeve ( 25 ) in the spaces between the two neighboring centrifugal blades ( 24 ) arrives, and - that the guide sleeve ( 3 ) furthermore with at least one air inlet opening ( 33 ) is designed in its circumference, which, viewed in the axial direction, is outside the centrifugal wheel housing ( 20 ) and due to the rotating centrifugal wheel ( 2 ) pumping air from outside into the guide sleeve ( 3 ) can be introduced and mixed with the blasting medium. Beam device according to claim 1, characterized in that in the guide sleeve ( 3 ) distributed over their circumference several air inlet openings ( 33 ) are provided. Blasting device according to claim 1 or 2, characterized in that each air inlet opening ( 33 ) has a cross section that is small compared to the cross section of the opening ( 32 ) for the abrasive in the circumference of the guide sleeve ( 3 ). Blasting device according to claim 3, characterized in that each air inlet opening ( 33 ) a round cross-section with rounded front and rear ends ( 34 ) having. Beam device according to one of the preceding claims, characterized in that the opening ( 32 ) in the circumference of the guide sleeve ( 3 ) is a window with essentially rectangular corners, which extends in the circumferential direction of the guide sleeve ( 3 ) extends over an angle between approximately 30 ° and 60 °. Blasting device according to one of the preceding claims, characterized in that the centrifugal wheel housing ( 20 ) at a distance from an outer housing ( 10 ) which, with the exception of one opening ( 16 ) for the abrasive discharge area ( 26 ) of the centrifugal wheel housing ( 20 ) is closed, with a gap ( 17 ) between Centrifugal wheel housing ( 20 ) and outer housing ( 10 ) Air, preferably from an area next to the blasting agent ejection area ( 26 ), to the guide sleeve ( 3 ) is feasible. Blasting device according to claim 6, characterized in that the centrifugal wheel ( 2 ) and the distributor sleeve ( 25 ) through an outside to the outer housing ( 10 ) flanged motor ( 27 ) can be driven, the motor ( 27 ) on a front wall ( 12 ) of the outer housing ( 10 ) is arranged, the feed line ( 4 ) in the opposite, other end wall ( 11 ) of the outer housing ( 10 ) and the supply line ( 4 ) as a tube with a tube flange ( 41 ) designed and detachable with the associated front wall ( 11 ) connected is. Beam device according to claim 7, characterized in that the feed line ( 4 ) forming tube curved in an arc between about 30 ° and 60 ° coming from above into the outer housing ( 10 ) runs and points essentially in the axial direction in or near the starting area of the distributor sleeve ( 25 ) ends. Beam device according to claim 8, characterized in that the of the distributor sleeve ( 25 ) facing end area ( 42 ) the supply line ( 4 ) with one level ( 43 ) is formed, with an upper part of the end region ( 42 ) shorter and a lower part of the end area ( 42 ) is longer. Beam device according to one of claims 6 to 9, characterized in that the guide sleeve ( 3 ) at their front end with a mounting flange ( 31 ) is formed, which is detachable with the outer housing ( 10 ) connected is. Beam device according to claim 10, characterized in that the guide sleeve ( 3 ) made of two connected parts ( 30 . 31 ) consists of a hollow cylindrical sleeve part ( 30 ) made of an abrasion-resistant material and a flange part connected to it ( 31 ) made of a less abrasion-resistant, easier to work with material. Beam device according to one of the preceding claims, characterized in that the guide sleeve ( 3 ) or, if applicable, at least their sleeve part ( 30 ) consists of a sintered metal or ceramic.