DE2731901A1 - Bore undercutting tool for masonry or rock - has cutter on end of arm forced outwards by inclined face on plunger - Google Patents

Abstract

A boring device (10) is used for producing undercuts at the end of holes drilled in masonry, concrete or rock. It has a rotating shaft (12) with a central bore (38). There is a cutout portion (14) containing a rocking lever (18a, 18b) on a central pivot (16). The lever has a cutter (20) at its lower end; the lower end of the lever is forced outwards by a sloping surface (28) on a plunger with a conical end (36) which is pushed against the end of the previously drilled hole. A spring (22) returns the lever to its non-operative position when there is no pressure on the plunger.

Description

Undercut drilling tool

The invention relates to a drilling tool for producing undercuts in pre-drilled holes in masonry, concrete, stone, etc. with one in the one with the undercut to be provided pilot hole insertable, rotatably driven tool shank, in its End area at least one Schnöidwexkzeug is arranged so that its cutting edge after inserting the shaft into the pilot hole gradually radially outwards in the wall of the pilot hole can be moved, according to patent 0 ..... 0 ... 0 .....

(patent application P 25 35 066.7).

Drilling tools for working undercuts into pilot holes, for example for grooving grooves for circlips to fix bearings in cylindrical bores or for back grooving clay 8ck bores in metallic Workpieces into which a thread is then to be drilled are known (e.g. DL-PS 12 057g DL-PS 40 756; DT-PS 910 376).

For use in masonry, stone, concrete or the like. are the well-known Drilling tools because of the high hardness and the inhomogeneity that can sometimes be observed unsuitable for such materials, especially since the drilling dust generated between the guide and bearing surfaces of the relatively displaceable, closely fitted components of the known tools would penetrate, making the drilling tool inoperable very quickly became. Because of these difficulties, fixings were made in walls or structural elements from the materials mentioned so far also predominantly with force-locking on cylindrical, i.e. not undercut bore walls caused by pressed dowels.

Since the secure, non-positive fixing of a dowel in cylindrical Boring required embedment pressure, i.e. the surface pressure with which the expandable outer surface of the DUbels is pressed against the wall of the bore, at least when arranging the mounting hole for dowels near the side Limitation of the associated workpiece can cause the workpiece to explode, it has been suggested time and again to develop a DUbel attachment at softer the dowel in one inside the workpiece at a distance from its outside extended, i.e. undercut hole can be specified. It could namely dispensed with the radial preload to generate a cavity pressure be, whereby the strength of the Sohafts of the fastening screw exclusively can be used to transfer the holding force for the fastening to be carried out and the risk of the work piece exploding due to the radial expansion pressure would be significantly reduced. The resilience of such form-fitting Set dowels against pulling out of the hole could be made by appropriate choice the depth of the enlargement of the hole can be specified in such a way that it is ensured in every case is that the material lying in front of the undercut is not torn out, but rather the shank of the fastening screw anchored in the dowel and made of metal or the fastening anchor breaks. Because the strength of metallic materials but can be calculated in advance with sufficient accuracy, the Resilience of fastening arrangements with form-fitting set dowels can be calculated exactly.

Although the drilling tools disclosed in the main application in principle are suitable for making undercuts in hard materials such as concrete or stone to produce it can be seen that these tools are still relatively complex and are therefore also expensive to manufacture.

The invention is therefore based on the object of providing a simply constructed, inexpensive tool of sufficient effectiveness and service life available to provide, with which the required undercut mounting holes also can be generated in hard materials such as concrete or other rock, so that fastening arrangements now also in practice with the help of dowels or Fasteners can be made that are not frictionally through Contact pressure on the bore wall (embedment pressure), but fora-locking in one undercut part of a mounting hole can be set.

Starting from a drilling tool of the type mentioned above, this The object of the invention is achieved in that the cutting tool is designed as a longitudinally extending tool Slit-like recess at the inner end of the tool shaft bore mounted two-armed lever is formed, on the inside of the bore can be swiveled out Lever end the cutting edge is formed, while its other lever end by a The spring is biased into a position pivoted back into the recess, and that in a longitudinal bore in the tool shank a feed element rotatably, but in Shaft is arranged displaceably in the longitudinal direction, which is achieved by exerting a pressure in the longitudinal direction of the shaft on the drilling tool with an inclined plane on the pivoted back Cutting tool can be applied, the cutting tool with continued application of pressure onto the drilling tool through the inclined plane into the radially swiveled-out position is transferable. In this construction, one is placed in the axial direction on the drilling tool exerted compressive force over the inclined plane of the infeed element, in a substantially radially outward pivoting force of the lever arm carrying the cutting edge of the cutting tool implemented, creating complicated link guides or transmission articulated levers be avoided. If the inclined plane on the infeed element and the mating surface on the Cutting tool sufficiently wear-resistant, for example due to surface hardening can be formed even percussion with the drilling tool according to the invention Drilled if this is necessary in individual cases for particularly hard materials or should be desired.

In a preferred development of the invention, the feed element is inserted into the tool shank at the inner end of the bore in front of the cutting tool and guided out of the front end of the tool shank, and at that from the tool shank The end of the feed element that is led out can be placed on the bottom of the pilot hole Pressure piece provided. The compressive force acting on the feed element is then the reaction force that occurs when the pressure piece is supported on the one used as the abutment Reason of the pilot hole when pressing the equipped with the drilling tool according to the invention motorized drill is created.

Alternatively, the drilling tool can also be designed so that the feed element in the part of the tool shank facing away from the bottom of the hole at the inner end of a delivery company that is led out of the tool shaft is arranged, which in turn is longitudinally displaceable in the manner mentioned, However is guided non-rotatably in a longitudinal bore in the tool shank.

The drilling tool is clamped in the motorized drilling device then on the state society protruding from the tool shaft, and that on the inside The delivery element provided at the end of this delivery company presses with the inclined plane to the end of the bias spring, which points towards the mouth of the Bohuungs Lever arm of the cutting tool.

The axial compressive force on the infeed element can again be supported by support of the tool on the bottom of the hole by removing the inside end of the hole of the tool shank designed as a support head that can be placed on the bottom of the pilot hole is.

Alternatively, the support can also be on the surface of the undercut hole to be provided workpiece or substrate, wherein the design is then made so that protruding from the pilot hole rear end area of the tool shank a radially protruding from the tool shank, on the surface of the pad to be provided with the undercut hole attachable support disc is arranged, which also the insertion depth of the tool shank determined in the pilot hole. This support has the advantage that the undercut generated at a precisely defined distance to the workpiece or substrate surface even if the pilot hole is accidentally drilled deeper than necessary is.

to 8U prevent the tool shank from moving with a rigid attachment sm disc rotating under pressure on the surface worn on its contact surface or vice versa, the workpiece surface in the contact area due to the rotating If the disc is damaged, it is recommended that the support disc be rotatable in the longitudinal direction However, to be arranged on the tool shank in such a way that it cannot be moved.

The invention is in the following description of several exemplary embodiments explained in more detail in connection with the drawing, namely Fig. 1 shows a partially sectional side view of a first embodiment of an inventive Drilling tool, in which the feed force for the swiveling cutting edge of the cutting tool by means of one that is supported on the bottom of the hole and can be moved longitudinally in the tool shank arranged infeed element is generated; Fig. 2 is a partial sectional side view of an alternative embodiment of an inventive Drilling tool in which the feed force for the radial swiveling out of the cutting edge of the cutting tool by a lever arm which acts on the lever arm pointing towards the mouth of the bore and via a longitudinally displaceable, but non-rotatable, arranged in the tool shaft Delivery society displaceable delivery element is generated; and FIG. 3 shows a partial sectional side view of the upper end of an otherwise the drilling tool according to Fig. 2 corresponding modified Bohrwerkseug, in which the tool shank over a disk is supported on the surface of the workpiece.

In Fig. 1 is a designated in its entirety by 10 according to the invention a Drilling tool for drilling out an undercut in a previously customary manner generated pilot hole in a substrate made of stone, concrete, masonry or the like. shown. The drilling tool 10 has a tool shank 12 in which the pilot hole The lower end region to be introduced is a longitudinally extending slot-like open on one side Recess 14 is provided. A cutting tool is located on a bolt 16 in this recess 18 in the form of a flat, elongated, fitted in width into the recess Double lever mounted pivotably, on its pointing to the inside of the bore, in of the drawing below HebLarm 18a that to the open side of the recess 14 facing cutting edge 20 is formed, with which the undercut in the wall a pilot hole is incorporated. On the other side of the lever arm pointing towards the mouth of the bore 18b of the cutting tool 18 engages one at the bottom of the recess supported Compression spring 22, which turns the cutting tool into the position shown in the drawing pretensioned swiveled-back position. The tool shank is in this position can be introduced into the pilot hole to be provided with the undercut without the cutting edge protrudes beyond the diameter of the tool shank 12.

The tool shank 12 is in its below the recess 14 for the cutting tool 18 located area with a central, axially extending and provided to the bottom of the hole open hole 24, in which a complementary bolt-shaped Infeed element 26 is arranged to be longitudinally displaceable. The feed element 26 is on its upper or end facing the bore mouth at an angle of approximately 4 # O bevelled so that its front side forms an inclined plane 28. This crooked The plane thus engages the rounded lower end of the lever arm 18a of the cutting tool 18 indicates that this lever arm and thus also the cutting edge 20 during an upward movement of the feed element 26 with compression of the compression spring 22 radially out of the recess 14 is pivoted out. One into a transverse through hole 30 in the tool shank 12 and a longitudinal slot 32 in the feed element 26 penetrating Bolt 34 holds the feed element 26 in a rotationally fixed manner, within the scope of the length of the elongated hole but longitudinally displaceable in the bore 24. Am The lower end of the feed element 26 pointing towards the bottom of the bore is in some Distance in front of the end face of the tool shank 12, a pressure piece on the feed element attached, its to the bottom of the hole directed front end accordingly the shape of the inner end of the pilot hole produced with the pilot drill is frustoconical is trained. With this frustoconical end the introduced into the pilot hole Drilling tool 10 can be placed on the bottom of the pilot hole. If so, then a pressure exerted on the driven drilling tool 10 in the direction of the inner end of the bore is, the pressure piece 36 pushes the feed element 26 inward and its oblique Plane 28 pivots the lower lever arm 18a and thus the cutting edge 20 radially outwards, whereby the cutting edge 20 creates an undercut in the wall of the Incorporated a pilot hole. When the inward pressure ceases, the compression spring urges 22 the cutting edge 20 of the cutting tool 18 back again, wherein the feed element 26 is pushed back again.

The in the drawing above the recess 14 and from this to Bore 38 running through to the outer end of tool shank 12 can be used for suction the drilling dust produced when working with the tool 10 are used.

The drilling tool 40 shown in FIG. 2 corresponds to the drilling tool 10 largely, and since the same reference numerals are used for the same parts in the drawing are, it is sufficient with regard to the arrangement of the cutting tool 18 in the recess 14 in the tool shank 12 to refer to the description of FIG. 1.

In a departure from the drilling tool 10, the cutting edge is delivered 20 of the cutting tool 18, however, on the upper lever arm facing the mouth of the bore 18b of the cutting tool 18, for which the elongated shaft-shaped Infeed element 42 in one of the bores 38 in the drilling tool 10 corresponding bore 44 is inserted longitudinally displaceable but non-rotatable.

The end of the infeed element 42 facing the cutting tool 18 is again provided with an inclined plane 46 at the rounded end of the lever arm 18b engages and the direction of inclination is placed so that when exercising an axially into the interior of the bore directed pressure on the Zuabilelement 42 the cutting edge 20 of the cutting tool 18 is pivoted out. The one during delivery to the delivery element exerted pressure is closed by the at its inner end and as a support head 48 formed end of the tool shank 12 supported on the bottom of the hole.

For the longitudinally displaceable and rotationally fixed mounting of the infeed element 42 in Werkseugrohaft 12, the tool shank at the rear end is cylindrical Counter bore 50 of the bore 44, in which a correspondingly enlarged diameter, At the rear end of the feed element attached guide section 52 is arranged is. A bore 54 in the tool shank 12 and an elongated hole 56 in the guide section 52 penetrating pin 58 connects the guide section and thus the feed element longitudinally displaceable in the desired manner but non-rotatably with the tool shank 12. The guide section 52 is guided backwards out of the tool shank 12 to such an extent that that they are clamped in the chuck of a motor-driven drill can. In contrast to this, the in connection with Fig. 1 described drilling tool 10 the # rear end of the tool shank 12 in the Drilling rig clamped.

It should also be noted that the described Drilling tools 10 and 40 the restoring force for the cutting tool 18 and the feed element 26 or 42 is generated exclusively by the compression spring 22. In some cases It may be useful to have the feed element returned by its own (not shown) spring to support. In the case of the drilling tool 10, this spring could for example between the back of the pressure piece 36 and the end face of the tool shank 12 and in the case of the drilling tool 40 between the bottom of the bore 50 and the front one Ring surface of the guide section 52 be arranged.

Of the drilling tool 60 shown in FIG. 3, only the rear one is End part shown, while the tool corresponds to the rest of the drilling tool 40 may.

In contrast to the tools 10 and 40 described, the compressive force exerted on the drilling tool 60 to advance the cutting edge 20 at the bottom of the hole, but on the surface of the hole with the undercut to be provided underlay supported.

For this purpose, there is a support washer at the outer end of the tool shank 12 62 is provided, the back of which rests against a collar 64 of the tool shaft 12, and against displacement towards the front end of the tool by means of a locking ring 66 is held. The support disk 62 is rotatable relative to the tool shank 12, i.e., it does not rotate when working with the drilling tool 60 with. If necessary or desired, the support disk 62 can also be equipped with roller bearings be rotatably mounted on the Werkseugschaft 12.

Claims (6)

P a t e n t a n 8 p r ü c h e ================================ 1st drilling tool for creating undercuts in pilot holes in masonry, concrete, stone and the like. with a pilot hole that can be introduced into the pilot hole to be provided with the undercut, rotatably driven Verkzeugschaft, in the end area at least one cutting unit is arranged so that its cutting edge after the insertion of the shaft into the The pilot hole can be gradually advanced radially outward into the wall of the pilot hole is, according to patent ........ (patent application P 25-35 066.7), characterized that the cutting tool (18) as in a longitudinal slot-like recess (14) at the inside end of the tool shank (12) pivotably mounted two-armed Lever (18a, 18b) is formed, at the end of the lever that can be swiveled out inside the bore (18a) the cutting edge (20) is formed, while its other lever end (18b) through a spring (22) is biased into a position pivoted back into the recess (14) is, and that in a longitudinal bore (24; 44) in the Verkzeugschaft (12) a feed element (26; 42) rotatably, but is arranged displaceable in the longitudinal direction of the shaft, the by exerting pressure in the longitudinal direction of the shaft on the drilling tool (10 ~ 40; 60) with an inclined plane (28; 46) on the swiveled back cutting tool (18) can be applied, wherein the cutting tool (18) with continued application of pressure the drilling tool through the inclined plane (28; 46) into the radially pivoted position is uborfile. 2. Drilling tool according to claim 1, characterized in that the feed element fits (26) at the inner end of the bore in front of the cutting tool (18) in the tool shank (12) is inserted and led out of the front end of the tool shaft (12), and that at the end of the feed element (26) which is led out of the tool shank a pressure piece (36) that can be placed on the bottom of the pilot hole is provided. 3. Drilling tool according to claim 1, characterized in that the feed element (42) in the part of the tool shaft (12) facing away from the Bohuungsgrund on the inner side Arranged at the end of a supply company led out of the tool shaft (12) is. 4. Drilling tool according to claim 3, characterized in that the interior of the bore End of the tool shank (12) as a support head that can be placed on the bottom of the pilot hole (48) is formed. 5. Drilling tool according to claim 3, characterized in that on the a radial end region of the tool shank (12) protruding from the pilot hole protruding from the tool shank (12) on the surface of the one provided with the pilot hole Support disc (62) that can be placed on the base is arranged, which determines the insertion depth of the tool shank (12) determined in the pilot hole. 6. Drilling tool according to claim 5, characterized in that the support disc (62) rotatable, but attached to the tool shank in the longitudinal direction is arranged.