DE3113913A1 - DEVICE FOR COLLECTING DRILL AT THE DRILLING SITE OF A DRILL - Google Patents

Description

PATENT ADVOCATE DIPL.-PHYS. DR. HERMANN FAY

Günter Horst Röhm
Heinrich-Röhm-Strasse 50
7927 Sontheim

7900 Ulm, April 1st, 1981 file PG / 5496 th

Device for collecting drilling dust at the drilling site of a drill

The invention relates to a device for collecting drill dust at the drilling point in a drill chuck a drill clamped drill.

Devices are known with which it is possible to remove the drill dust produced when drilling in a wall suction and thereby dirt otherwise caused by the drilling dust to the area around the drilling site avoid. In a device of this type known from DE-OS 24 17 228, the drilling dust is extracted through a longitudinal channel provided in the drill. With other suction devices known from practice a suction piece through which the drill penetrates is provided, which has a suction mouth that can be placed against the wall and has a connection for a suction hose. The suction piece can be adjusted parallel to the drill axis held on rails that are guided on the housing of the drill. According to the drilling progress

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step, the suction piece with the rails can move back and the drill progressively into the borehole let step forward. - In all cases with these devices the collection of the drilling dust is only possible in the Connection with a suitable suction fan and the suction fan with the suction piece or the longitudinal channel the suction hose connecting the drill is possible.

The invention is based on the object of providing a device of the type mentioned at the outset, which catches the resulting drill dust without it being a suction device and the connection of a Suction hose required.

This object is achieved according to the invention in that a bearing ring is provided on the drill chuck, on the rotatably mounted and axially supported towards the drilling machine, one coaxial with the drill, one closed Collection space for the drilling dust forming sleeve ..) se is arranged, which extends axially forward over the Drill chuck extends, in the opposite direction with an axial length shortening · compressible against spring force is and is in the unabridged state

to at least the tip of the drill

extends, and is formed at its front mouth as a sealing ring which is applied under the spring force of the surroundings of the drilling site and thereby closes off the drilling site to the outside.

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On the one hand, the sleeve is tightly connected to the drill chuck, but does not take part in the rotation of the drill chuck. On the other hand, the sleeve lays down with it their sealing ring under the spring force against the wall, so that during the drilling process the inside of the sleeve both on the wall as well as on the chuck tightly closed collecting space in which the from the borehole escaping drilling dust is caught and collected. Depending on the drilling progress, it is pressed deeper the sleeve axially against the spring force together, but with the sealing of the sleeve against the wall and on the drill chuck is retained at all times. As a result, there is no possibility that during the drilling process drilling dust can get out of the sleeve. Advantageous is further that the sleeve is initially pushed back by hand when the drill is placed against the wall and this means that the exact centering of the drill at the drilling site can be monitored. Is the drill set, the sleeve is released, so that it rests against the wall under the force of the spring, and the drilling is done can start. When the drilling work is finished, the drill and drill are just away from the drilling site take off so that the drill dust in the sleeve cannot fall out of the sleeve towards the front. This is easier to prevent, the deeper the drilling dust backwards into the during the drilling process Sleeve is conveyed. An embodiment of the invention which is advantageous in this context is thereby

characterized in that the interior of the sleeve is immediately expanded following the front case mouth. The case mouth is then opposite the The interior of the sleeve is narrowed, which means that drilling dust can escape difficult from the sleeve. In particular, it can also be advisable to expand the interior of the sleeve to be conical. This creates a conical inner surface on the sleeve. From the Drill transported out of the borehole and thrown against this conical inner surface by the rotation of the drill Particles of the drilling dust are deflected further axially into the interior of the sleeve by the impact, so that the drill dust collects axially deep inside the sleeve. Used for draining after drilling If the drill with the drill is tilted downwards after the sleeve, the drilling dust can be removed despite the narrowed sleeve mouth easily fall out of the sleeve along the conical inner surface.

The sleeve itself can be realized in various ways within the scope of the invention. There is thus the possibility that the sleeve, in addition to a bearing ring guided on the bearing ring, consists of an easily deformable material and is stabilized by a spring element which generates the spring force. In detail, the sleeve can consist of a hose firmly connected on the one hand to the bearing ring and on the other hand to the sealing ring, and the spring element can consist of at least one helical spring connected to the hose wall. the

Helical spring can be connected to the hose wall on its inside or outside. In a In an expedient embodiment, the helical spring can also be embedded in the hose wall. The sleeve material can be rubber-elastic. The sleeve can be designed as an accordion-like bellows.

Another advantageous embodiment of the invention is characterized in that the sleeve consists of Telescopically guided sleeve sections> consists and between the two axially end-side sleeve sections a coil spring generating the spring force is arranged and supported. This training has the advantage that the sleeve is rigid transversely to the drill axis, so in particular a handle can form, on which the drill when applying the drill and during the drilling work in addition can be performed. The same advantage is achieved by a sleeve structure such that the sleeve of a helical spring is formed, which is wound from a spring band so that the two adjacent Windings partially overlap in the sliding fit, i.e. close against one another and axially as required of the spring play are displaceable against one another, and that the spring ends are each connected to a rigid ring part are. The ring parts then serve on the one hand for storage on the bearing rim of the drill chuck, on the other hand for Training or for connecting the sealing ring.

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Regardless of its training in detail, the sleeve in the area of its front end with a side protruding handle be provided on which the sleeve is axially compressed by hand and / or at corresponding transverse stability of the sleeve can be performed as the already mentioned handle. The handle can be designed as a tube, the interior of which is connected to the interior of the sleeve, so that it is basically possible to connect a suction hose to the sleeve through the handle, if, for example, during longer drilling work, the sleeve needs to be emptied between the individual drilling operations seems too time-consuming or too annoying by tilting the drill down.

In the following the invention is explained in more detail using the exemplary embodiments shown in the drawing; 1 to 3 show axial sections through various embodiments of the device according to the invention .

The drilling machine is not shown in the drawing. The chuck is at 1 partially indicated. The drill clamped in the drill chuck 1 is denoted by 2. On the chuck a bearing collar 3 is provided, which is easily and quickly attached to the drill chuck 1 and removed from the drill chuck can be removed again. For this purpose, the bearing ring 3 has a longitudinal slot 4 as a clamping ring

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formed collar 5, in which at least one locking screw 6 is guided in one of the radial holes 7 engages, which are used in the chuck 1 to attach the usual wrench. On the bearing rim 3 a sleeve generally designated 8 is rotatably mounted and towards the drill, in the figures so upwards, axially supported. In the exemplary embodiments according to FIGS. 1 and 2, a ball bearing is used for this purpose 9 »in the embodiment of FIG. 3, a simple plain bearing 10, which can be rotated by a and axially immovable iri; the Lgerkranz 3 inserted Ring part 11 is formed, 'to reduce the Sliding friction can consist of plastic that is particularly suitable for this purpose. In each case is independent of the formation of the bearing 9 »10, the sleeve 8 is arranged coaxially with the drill 2. The sleeve 8 forms a closed collecting space 12 for the drilling dust. For this purpose, it extends forward beyond the drill chuck 1 and thereby encloses the drill 2. In the opposite direction, that is to say to the drill, in the figures thus towards the top, the sleeve 8 can be compressed against spring force with an axial shortening of length will. In the unshortened state, the sleeve 8 avenges with its front mouth 13 at least to the tip of the drill 2. The front mouth 13 is as a Sealing ring 14, for example in the form of a rubber ring, is formed which, under the spring force, counteracts * the wall is placed in the immediate vicinity of the drilling site and thereby closes off the drilling site from the outside,

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so that drill dust emerging from the borehole is collected in the collecting space 12 of the sleeve.

The interior of the sleeve 8 widens radially in the immediate vicinity of the front sleeve mouth This extension runs conically in the exemplary embodiments, so that a conical inner surface 15 is created, which narrows towards the sleeve mouth 13. Transported out of the borehole by the drill 2 in its spiral threads Drill dust is hurled against this conical inner surface 15 by the rapidly rotating drill and thereby receives a movement component directed axially into the interior of the sleeve, which leads to that the drilling dust is transported axially deeper into the collecting space 12, thus no longer directly Collect behind the case mouth 13 and immediately through when removing the drill and case from the wall the case mouth can fall out again. Rather, the drill must be used to empty the sleeve 8 the drill and the sleeve are tilted downwards.

In the exemplary embodiment according to FIG. 1, the sleeve consists of an easily deformable material, namely a hose 18 designed in the manner of an accordion-like bellows, which is carried by - in the exemplary embodiment two - coil springs 19 is stabilized . These helical springs 1 9 are connected to the hose

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tel connected on the inside and generate the Spring force against which the hose sleeve can be axially compressed. The sleeve material can be rubber-elastic be. There is also the possibility, not shown in the drawing, the helical spring or Embed coil springs 19 directly into the hose wall.

In the exemplary embodiment according to FIG. 2, the sleeve 8 consists of sleeve sections which are guided together in a telescopic manner 20. Between the two axially end sleeve sections there is in turn a spring force generating one Arranged helical spring and supported as a compression spring.

In the exemplary embodiment according to FIG. 3, the sleeve 8 is directly supported by a helical spring which generates the spring force 22 formed. This coil spring 22 is wound from a flat spring band so that each Adjacent turns partially overlap in a sliding fit, i.e. close against one another and axially as required of the spring play are displaceable to one another. The spring ends are each connected to a rigid ring part 11, 23, of which the chuck side the already mentioned slide bearing 10, the opposite Ring part 23 forms the carrier for the sealing ring 14. The axially compressed position of the sleeve 8 is shown in Fig. 3 in the left half of the drawing at 23.

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In the cases of FIGS. 2 and 3, the sleeve behaves 8 is practically rigid in spite of its axial length adjustability transversely to the drill axis, so it is in this direction unyielding and can therefore be used as an additional handle for guiding the drill during the drilling process to serve. In order to also be able to compress the sleeve 8 by hand, for example before drilling, while the drill is first applied to the drilling site and the exact drill attachment to the wall is checked is, the sleeve 8 is in the region of its front end with a laterally protruding handle 24 provided. The handle 24 can be designed as a tube its interior is in communication with the interior space 12 of the sleeve 8. This can be used on the handle 24 a suction hose, not shown, can be connected if - for whatever reason - a Sucking off the Bohrmehüs gelangerdai in the sleeve 8 during the drilling process is desired. Appropriately, the tube forming the handle 24 opens at least with part of the mouth cross-section in the sleeve area that has already been expanded.

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Claims (12)

Expectations; 1. Device for collecting drilling dust at the drilling site a drill (2) clamped in the drill chuck (1) of a drilling machine, characterized in that that on the chuck (1) a bearing ring (3) is provided on which rotatably mounted and to the drill axially supported towards a with the drill (2) coaxial, a closed collecting space (12) for the sleeve (8) which forms the drill dust and extends axially forward over the drill chuck (1), in the opposite direction under axial. Length reduction compressible against spring force is and extends in the unshortened state to at least the tip of the drill (2), as well as at their front mouth (13) as an applied under the spring force of the area around the drilling site and the Drilling point is thereby formed outwardly closing sealing ring (14). That the interior (12) extends 2. Device according to claim 1, characterized in that the sleeve (8) immediately following the front sleeve mouth (13). 3. Apparatus according to claim 2, characterized in that the extension (15) is conical. 4. Device according to one of claims 1 to 3, characterized in that the sleeve (8) apart from a bearing ring (16) guided on the bearing ring (3) consists of an easily deformable material and is stabilized by a spring element generating the spring force. -z- 5. Apparatus according to claim 4, characterized in that the sleeve (8) consists of one on the one hand on the bearing ring (16), on the other hand on the sealing ring (14) firmly connected hose (18) and the spring element made of at least a helical spring (19) connected to the hose wall. 6. Apparatus according to claim 5, characterized in that the helical spring (19) is embedded in the hose wall is. 7. Device according to one of claims 4 to 6, characterized in that the sleeve material is rubber-elastic is. 8. Device according to one of claims 4 to 6, characterized in that the sleeve (8) as an accordion-like Bellows is formed. 9. Device according to one of claims 1 to 3 »characterized in that the sleeve (8) from telescopic mutually guided sleeve sections (20) and between the two axially end-side sleeve sections a helical spring (21) generating the spring force is arranged and supported. 10. Device according to one of claims 1 to 3, characterized in that the sleeve (8) is formed by a helical spring (22) which consists of a spring band so 51133 is wound so that the two adjacent turns partially overlap in a sliding fit, so they close against each other and are axially displaceable against each other according to the spring play, and that the spring ends each on a rigid ring part (11, 23) are connected. 11. Device according to one of claims 1 to 10, characterized in that the sleeve (8) in the area its front end is provided with a laterally protruding handle (24). 12. The device according to claim 11, characterized in that the handle (24) is designed as a tube, whose The interior is in communication with the interior (12) of the sleeve (8).