DE9408297U1 - Coupling for a drilling device - Google Patents

Description

- 1 —

Geissler & Kuper

Limited liability company

Diamond tools -

machinery

29227 Celle

20.05.1.994. 197G2794

Coupling for a drilling device«

The invention relates to a coupling for a drilling device with power transmission from a hollow cylindrical drive part to a driven coupling part.

From EP 0 235 581 A1 of the applicant it is known to simplify and improve the coupling and the effectiveness of drilling devices operated with it by a first coupling part and a second coupling part having hollow cylindrical coupling areas that can be plugged into one another for coupling, by mutually facing coupling surfaces of the two coupling parts being able to be pressed against one another and by the first coupling part being provided with projections and the second coupling part being provided with depressions, grooves or recesses that engage with one another during coupling, and by a clamping ring being provided on the first coupling part to achieve the pressing effect, which is mounted so that it can rotate and thus be displaced in the axial direction by means of a screw connection arranged on the first coupling part. This known arrangement has proven itself in practice.

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It is also known to close the shaft tube of a drilling device with an attachment that has a conical coupling surface and engages in a correspondingly designed coupling of the drive part. A cap screws both coupling parts together and creates a contact pressure. It is also known to combine suction devices for the drilling cuttings or flushing devices with such known drilling devices.

It is also known to equip diamond core bits with centering drills, which are inserted into the coupling from the front through the shaft tube to initiate the drilling. However, with such drilling devices it has been shown that the drilling dust generated causes the centering drills to seize up in their holders and are difficult to replace.

The invention is based on the object of creating a new coupling and a new drilling device that enables simple and safe drilling operations. This object is achieved by the invention defined in claim 1. Further developments of the invention are characterized in the subclaims.

In principle, the invention consists in a coupling for a drilling device with power transmission from a hollow cylindrical drive part to a driven coupling part, in which two opposing coupling surfaces arranged obliquely to the axial direction are pressed against one another for coupling, in that the driving coupling part has a preferably frustoconical coupling surface tapering towards the other coupling part and that the driven coupling part has a corresponding, narrowing coupling surface, that one of the coupling parts is provided with a screw cap with an internal thread and the other coupling part with a corresponding external thread, and that bolts are fastened in the driving coupling part, which protrude outwards through the wall of the coupling part and engage in corresponding recesses in the driven coupling part, whereby the bolts and recesses are covered by the screw cap in the coupled state.

20.05.1994, 197G2794

To explain the invention in more detail, exemplary embodiments are described below with reference to the drawings. These show in

Fig. 1 a perspective view of a diamond core bit with shaft tube and a coupling for pipe thread connection,

Fig. 2 is a sectional side view of the interconnected parts according to Fig. 1,

Fig. 3 is a partially sectioned side view of the arrangement according to Fig. 2 in an exploded view,

Fig. 4 The partially sectioned side view of a center drill ,

Fig. 5 is an enlarged view of the use of a center drill in the driving coupling part.

In Fig. 1, a diamond drilling device 1 is shown in perspective. A drilling machine B can be coupled to a shaft tube 2 via a drive part 3 and a coupling part 4. The drive part 3 can be connected directly to the pipe thread connection of the drilling machine B via its threaded connection 45, which can be connected either via an internal thread or an external thread. For this purpose, the part 45 is designed to be interchangeable. The threaded connection 45 can therefore be designed as an interchangeable adapter 451 for many different drilling devices in order to make the drilling device usable for drilling machines with different threads. The shaft tube 2 is provided on one end with a drill bit 5 made of diamonds 6 arranged in a crown-like manner. These diamonds 6 (or other hard materials) can be inserted as pieces and soldered or mixed into a hardening filling compound that forms the drill bit 5 of the shaft tube 2.

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or welded on by laser or the like. The front side 5 can also be provided with cuts or the like for the passage of water. The driven coupling part 4 is fastened to the other front side of the shaft tube 2, for example connected to the shaft tube 2 to form a unit. The coupling part 4, which is preferably made of plastic, e.g. a polyamide, is connected to the shaft tube 2 to form a unit by shrinking, pressing in, gluing and/or screwing, or can be connected to it in an interchangeable manner. This coupling part 4 is designed as a hollow cylinder with a conically tapering opening width so that drilling dust can pass through unhindered by suction air with or without drilling cuttings. As indicated by the lines, the shape behind the coupling in the direction of the front side 5 can be designed differently. The driving coupling part 3 is also designed as a hollow cylinder and allows the passage of air or liquid with or without drilling cuttings. The inner wall 36 of the drive part 3 is wide enough so that drilling dust can quickly and unhindered reach the openings 40 of the suction device and be sucked away. The outer wall 8 of the coupling part 4 outside the shaft tube 2 is provided with a thread 27 and in the end area 21 is provided with preferably two diametrically opposed recesses 12. The drive part 3 is provided with a coupling surface 9 which tapers in the direction of the shaft tube 2 and corresponds to the conical design 14 of the coupling part 4. In the case of coupling, the two coupling surfaces 9, 14 lie against each other in a centering manner. The recesses 12 engage via bolts 11 which protrude from the wall 31. The bolts 11 are formed by a single bolt 11, which penetrates the wall 31 and keeps larger chunks away from the dust extraction with its part located inside the part 3. A screw cap 25 is mounted on the outer wall of the coupling 3, which has an internal thread and is screwed to the coupling via the external thread of the coupling part 4. The screw cap 25 seals off the parts 9, 14, 11, 12 tightly.

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Connection of the bolts 11 and the recesses 12 makes it practically impossible for the coupling part 3 and coupling part 4 to twist relative to one another. Holes 29 in the wall of the shaft tube 2 facilitate dust removal if the dust extraction is obstructed, for example by an inserted center drill.

Fig. 2 shows the arrangement according to Fig. 1 in a sectional side view, in order to make the flow-optimized design of the flow path for the cuttings and the firmly connected coupling parts clearly visible. The front edge 18 of the driving coupling part 3 and an annular groove 17 with O-ring 16 on the inner wall of the part 3 serve to seal an inserted center drill. The drive part 3 can be used as a replaceable coupling component for a large number of shaft tubes 2, which can have different lengths and diameters and are each provided with the coupling part 4. The coupling part 4 can itself be firmly connected to the front side 22 of the shaft tube 2. However, it is also possible to design the coupling part 4 to be replaceable in order to take into account the greater wear of the drill bits 5.

The drive part 3 forms a component with a housing 41. The housing 41 is provided with a connection 42 for liquid supply or air extraction, visible in Fig. 1. The drive part 3 has an area 37 which is rotatably mounted in the housing 41 by means of two bearings 38, 39 and connects the interior of the housing 41 and the area 37 through openings 40. The distance between these ball bearings is achieved in Fig. 2 by recesses in the wall of the housing 41. Between the ball bearings 38, 39, the area 37 is provided with openings 40 through which either liquids or suction air can pass, supplemented if necessary by the drilling cuttings. The further discharge or supply takes place through a connection opening 42 in the wall of the housing 4.1. The parts rotating against each other are secured against displacement and/or seizure by spacing or shaft locking rings. The gap between parts 39 and 25 can be filled with flexible foam.

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the parts 3, 11, 35, 36, 37 that are firmly connected to one another are rotatable, a hexagon 452 can be combined with the drive part 3. The bolt 11 also allows this hexagon 452 to be omitted and the overall length to be reduced at the same time. A key with an opening adapted to the shape of the bolt 11 can then be inserted into the opening of the separate drive part and slipped over the bolt 11 in order to hold it in place or to be able to rotate it together with its holder. The end face of the hexagon 452 facing part 3 can also be dimensioned so that it presses directly against the inner ring of the bearing 39 that ends with part 3 and thus saves the locking ring 48. This dimensioning can also save overall length.

The area 37 which can be rotated in the housing 41 is provided with openings 40, which allow the drilling cuttings to pass from the interior to the suction connection 42. These openings can be circular. It has been shown, however, that an oval or elliptical shape can be more advantageous in order to achieve a good passage effect with good stability of the wall provided with the openings. Starting from the pipe thread connection 45, a deflection body 453 is provided in the interior of the area 37, which directs the flow of the drilling cuttings, which emerges essentially axially from the shaft tube 2, through the holes 40 into the connection 42 and prevents drilling dust from settling in the area of the holes. The deflection body 453 is preferably provided with a conical tip. The holes 40 are arranged with their centers in a cross-sectional plane and the tip 454 of the deflecting body 453 is also in the area of this plane. The flanks of the deflecting body 453 end outside the area of the holes 40, so that any drilling dust can settle up to the edge of the holes 40 facing away from the flow and form or complete a surface that guides the flow.

To promote the flow in the shaft tube 2, a slope 28 is provided in the area of the transition to the drive part. This slope 28 is indicated here as linear, but can have a curved shape.

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Fig. 3 shows an exploded view of the arrangement shown in Fig. 2.

Fig. 4 shows a sectional side view of a center drill 49, 491 with a base 49 into which the drill 492 can be screwed «

Fig. 5 shows a representation of the center drill together with the parts of the coupling parts 3j4 and 25 assigned to it. The part of the drilling device shown in Fig. 5 shows the front side 18 of the driving coupling part 3 as a stop edge for a sealing ring 50 of a center drill 49, 491 that can be inserted from the front through the shaft tube 2 and the driven coupling part 4 into the driving coupling part 3. The base 49 of the center drill 491 has recesses 492 with which the center drill 49, 491 can be inserted over the bolts 11 in the driving coupling part 3. The base 49 of the centering drill 491 has a circumferential groove 55 for the sealing ring 50, the distance of which from the front edge 56 of the base 49 or from the bottom 57 of the recess 492 is such that the sealing ring 50 presses against the stop edge 18 of the driving coupling part 3 when the centering drill 49, 491 is fully inserted. The base 49 of the centering drill 491 has a circumferential surface 51 between the groove 55 and one of the seals 16 on the inside of the driving coupling part 3 when inserted, the diameter of which is larger than the diameter of the base area 52 which lies between the seal 16 and the recess 492 of the base 49. So that the center drill 49, 491 can be inserted into or removed from the drilling device, the diameters of the larger diameter peripheral surface 51 of the base 49 and the inner diameter of the driving coupling part 3 are dimensioned such that they can just about be moved against each other. The position of the peripheral surface 51 and the sealing ring 16 are selected and the diameter difference between the two peripheral surfaces 51 and 52 of the base 49 is dimensioned such that even a slight withdrawal of the center drill 49, 491 between the opposite walls of the coupling part 3 and the base 49 causes an increase in the distance. The center drill 491 can be screwed into the base 49 directly or by means of a base 493.

Claims (14)

· Protection claims 20.05-1994 197G2794 .1« Coupling for a drilling device with power transmission from a hollow cylindrical drive part (3) to a driven coupling part (4), in which two opposing coupling surfaces (9,1^) arranged obliquely to the axial direction are pressed against each other for coupling, characterized in that the driving coupling part (3) has a preferably frustoconical coupling surface (9) tapering towards the other coupling part (4) and that the driven coupling part (4) has a corresponding, narrowing coupling surface (14), that one of the coupling parts is provided with a screw cap (25) with an internal thread (26) and the other coupling part (4) with a corresponding external thread (27), and that bolts (11) are fastened in the driving coupling part (3), which project outwards through the wall of the coupling part (3) and engage in corresponding recesses (12) in the driven coupling part (4), wherein the bolts (11) and recesses (12) are covered by the screw cap (25) in the coupled state. 2. Coupling according to claim 1, characterized in that the bolts (11) are formed by a single bolt (11) penetrating the walls of the driving coupling part (3). 3- Coupling according to claim 1 or 2, characterized in that the bolts (11) and the recesses (12) are arranged outside the region of the opposing coupling surfaces (9, 14). 4. _ Coupling according to claim 1, 2 or 3, characterized in that the bolt (11) and screw cap (25) are arranged so that the bolts (11) are at least partially visible before the driven coupling part (4) is inserted. - A2 - 5« _ Coupling according to one of claims 1-4, characterized in that the driven coupling part (4) is connected or can be connected to the shaft tube (2) of a diamond core bit to form a unit. 6. _ Coupling according to one of claims 1-5, characterized in that the driving coupling part (3) is the front part of a hollow cylindrical tube (37) which has a stop surface (32) for the back of the screw cap (25) on the back of the wall area (31) penetrated by the bolts (C11) and in the wall of the end (33) facing away from the coupling surface (9) openings (40) for the dust extraction and bearings (38, 39) for receiving a housing (41) enclosing the openings (40) and a connection (42) for the dust extraction device and a threaded connection (45) with internal or external thread for the drive unit (B) to be connected. ■7- . Coupling according to one of claims 1-6, characterized in that the driven coupling surface (4) and the screw cap (25) consist of a plastic, in particular a polyamide. 8. Drilling device with a coupling according to one of claims 1 - 7 j , characterized in that the driving coupling part (3) has on its inner side below the coupling surface (9) a groove (17) for receiving a sealing ring (16). ■9- Drilling device according to claim 8, characterized in that the front side (18) of the driving coupling part (3) is designed as a stop edge for a sealing ring (50) of a centering drill (49, 491) which can be inserted from the front through the shaft tube (2) and the driven coupling part (4) into the driving coupling part (3). 10. Drilling device according to claim 9, characterized in that the base (49) of the center drill (491) has recesses 492 with which the center drill (49, 491) can be plugged over the bolts (11) in the driving coupling part (3). 11« Drilling device according to claim 9 or 10, characterized in that the base (49) of the centering drill (491) has a circumferential groove 55 for the sealing ring (50), the distance of which from the front edge (56) of the base (49) or from the bottom (57) of the recess (492) is such that the sealing ring (50) presses against the stop edge (18) of the driving coupling part (3) when the centering drill (49, 491) is fully inserted. 12. _ Drilling device according to claim 11, characterized in that the base (49) of the center drill (491) between the groove (55) and one of the seals (16) on the inside of the driving coupling part (3) has, in the inserted position, a peripheral surface (51) whose diameter is larger than the diameter of the base region (52) which lies between the seal (16) and the recess (492) of the base (49). 13« Center drill for a drilling device according to one of claims 9-12, characterized in that the diameters of the larger diameter peripheral surface (51) of the base (49) and the inner diameter of the driving coupling part (3) are dimensioned such that they can just be displaced against each other so that the center drill can be inserted or removed. 14. Drilling device according to one of claims 9-13, characterized in that the position of the peripheral surface (51) and the sealing ring (16) is selected and the difference in diameter of the two peripheral surfaces (51, 52) of the base (49) is dimensioned such that even a slight withdrawal of the centering drill (49, 491) between the opposite walls of the coupling part (3) and the base (49) causes an increase in the distance. 15- Center drill according to claim 14, characterized in that the center drill (491) can be screwed into the base (49) directly or by means of a base (493)«