WO2001023708A1

WO2001023708A1 - Device for detachably fixing a rounded-shaft tool into a tool bushing

Info

Publication number: WO2001023708A1
Application number: PCT/AT2000/000257
Authority: WO
Inventors: Roman Gerer; Friedrich Pichlmair
Original assignee: Voest-Alpine Bergtechnik Gesellschaft M.B.H.
Priority date: 1999-09-28
Filing date: 2000-09-26
Publication date: 2001-04-05
Also published as: ES2176129T1; EP1216343A1; DE50004816D1; ES2176129T3; AU7761200A; EP1216343B1

Abstract

The invention relates to a device for detachably fixing a rounded-shaft tool (5) into a tool bushing which is fixed into a tool holder (1) so that it can be detached. In said device, the interior sleeve of the bushing (10) has an annular groove, into which an elastic fixing ring (13) engages that is located in an annular groove (12) of the tool shaft (11). The device is characterised in that the elastic fixing ring (13) is configured as a slotted, plastic ring which has a rib (16) running around its periphery and that the width of the annular groove (17) on the interior sleeve of the bushing, when measured in an axial direction, is greater than the width of the rib (16) which runs around the periphery of the elastic plastic ring and extends into said annular groove (17). In addition, the front face (18) of the ring rib (16) which faces the tool tip is positioned parallel to the front face of the annular groove (17) on the interior sleeve of the bushing (10), pointing towards said front face of the ring rib.

Description

Device for releasably fixing a round chisel in a chisel sleeve

The invention relates to a device for releasably fixing a round shank chisel in a chisel sleeve detachably fixed in a chisel holder, in which the inner jacket of the chisel sleeve has an annular groove in which a resilient fastening ring engages in an annular groove of the chisel shaft.

Chisel holders for holding round shank chisels are arranged on cutting heads or cutting rollers with a relatively large diameter. Depending on the speed of rotation of the cutting heads or the cutting rollers, relatively high centrifugal forces act. Round-shank chisels should generally be able to rotate about their axis in the receiving bore or in a corresponding chisel sleeve, so that a corresponding rotation of the chisel in the sleeve must be permitted. If, for example, valves are additionally arranged in the interior of a chisel holder, which allow the respectively engaged chisel and the associated cutting track to be cooled via an associated nozzle, an axial displacement of the chisel in the chisel sleeve is also required in order to actuate the corresponding valve. Both the chisel sleeve and the chisel itself are now subject to high wear and must be replaced if they are not worn. The time required for such a chisel exchange should naturally be as short as possible. In order to be able to pull a chisel out of its associated chisel sleeve, a corresponding axial displacement path must be ensured, which enables the use of an appropriate pulling tool for the rapid change of the chisel. Due to the permissible displacement and twisting movements, when the cutter head or cutter roller rotates, impact forces also act on the holder or the sleeve outside of the actual engagement of the chisel in the rock. The corresponding device for fixing the round shank chisel and the corresponding surface pressure of the chisel sleeve in the chisel holder must of course be chosen so that these impacts do not lead to an unacceptable loosening of the chisel. Because of this play, however, rock dust now also gets into the chisel sleeve and thus also into the area of the chisel fixing, which is usually formed by a resilient fastening ring, so that dust that has penetrated in this way considerably increases the axial displaceability for the purpose of quickly loosening a damaged chisel can restrict or even prevent.

AT 404 969 B has already proposed a solution for the rapid replacement of a worn chisel sleeve. In this known design, a chisel sleeve is non-positively connected to the chisel holder while maintaining a corresponding surface pressure between the conical outer jacket of the chisel sleeve and the inner wall of the receiving bore. Due to the required high surface pressure, which is intended to prevent unintentional loosening of the chisel bush, the possibility was provided for the bush to be pressed out hydraulically so that it could be released quickly. In this known design, the round chisel was held in the chisel sleeve via a clip ring made of spring steel. However, dust that penetrates between the chisel sleeve and the round chisel could block the axial movability of the round chisel, making it difficult to solve and quickly replace a damaged chisel.

EP 201 073 B1 proposed a ring made of elastic plastic in connection with a hard metal ring for the purpose of fixing the chisel, the hard metal ring being intended to secure the chisel in the chisel holder. However, the selected training required a continuous mounting hole in the chisel holder, since the assembly and disassembly of the chisel was only possible from the rear with access to the corresponding hard metal ring.

In WO 95/27840, in addition to a conventional slotted metal clip ring, a plastic ring is provided as an improvement. beat. The plastic ring had to be made of highly elastic plastic, since the elastic groove must be stretched to be pressed onto the rear end of the round shank chisel. After pressing on the plastic ring with elastic expansion of the sleeve-shaped component, this elastic sleeve m reaches a corresponding circumferential groove on the chisel shaft. To pull off the chisel, the projecting ring rib had to be sheared off as a rule, which places relatively high demands on the quality of the material of the elastic sleeve with the ring rib if an unwanted loosening of the round shank chisel is to be prevented with certainty.

The invention now aims, starting from a device for fastening the round shank chisel in the chisel bushing described above, to provide an embodiment in which a clip ring can be used which, on the one hand, can be assembled with the least amount of effort and, on the other hand, certainly also occurs axial forces takes up enough to prevent unwanted loosening of the picks, which enables a quick and easy assembly and disassembly of all wear parts and especially the picks. This safe and quick installation should also be guaranteed with certainty if dust and dirt in connection with water penetrate between the round shank chisel and the chisel bush and settle on the bottom of the fastening groove, the fastening element being able to be blocked.

To solve this problem, the design according to the invention, based on the device mentioned at the outset, essentially consists in the fact that the resilient fastening ring is designed as a slotted plastic ring and has a rib running in the circumferential direction that the width of the ring groove on the inner jacket of the bushing Measured in the axial direction is greater than the width of the rib of the resilient plastic ring which extends into the annular groove and extends in the circumferential direction, and that the end face of the annular rib facing the chisel tip is parallel to the end face of the end face of the Ring groove is arranged on the inner jacket of the sleeve. Due to the fact that the resilient fastening ring is designed as a slotted plastic ring, corresponding dimensionally stable plastic rings can be used, the elasticity of which is ensured by the slotted design when inserted into the corresponding groove of the shaft. The fact that the width of the annular groove on the inner jacket of the bushing is greater in the axial direction than the width of the rib of the resilient plastic ring which extends into the circumferential direction and which is immersed in this annular groove, now ensures that even when dust and dirt are in contact with water has penetrated and an axial displaceability of the fastening ring in the corresponding receiving groove of the shank is no longer guaranteed, a corresponding axial displaceability of the chisel can be achieved, which enables the attack of a tool in order to change the chisel quickly in this way. Because the end face of the ring rib facing the chisel tip is now arranged parallel to the end face of the annular groove facing this end face on the inner jacket of the bushing, a corresponding stop is formed which, even with high axial forces due to the centrifugal force, reliably fixes the chisel in the bushing guaranteed.

The design according to the invention is advantageously made such that the width of the annular groove of the chisel shank, measured in the axial direction, exceeds the width of the plastic ring. In this way, a greater axial play is permitted for an axial displaceability of the chisel in the chisel sleeve, with the penetration of dust and dirt only having the effect that the axial displaceability of the ring relative to the chisel shaft is impaired, but the axial displaceability in the corresponding one Groove of the chisel sleeve usually remains in order and thus ensures easy disassembly.

The resilient fastening ring advantageously consists of polyacetal and in particular polyacetal copolymer. Such plastic f - Rings can withstand the mechanical stress with regard to wear resistance, hard stiffness and the required suspension capacity without the required holding force being impaired. Particularly preferred are training in which the resilient plastic ring contains additives of M0S2 and / or PTFE and / or is reinforced by inserts made of steel wire or glass fibers.

The pushing of the fastening ring or clip on the shaft of the round shank chisel is, as already mentioned, facilitated by the corresponding slot of this ring, the design preferably being such that the slot running transversely to the circumferential direction of the fastening ring has an angle of 30 ° to Includes 60 °, in particular approximately 45 ° with the circumferential direction

Advantageously, the rib of the fastening ring running in the circumferential direction as well as the annular groove on the inner jacket of the bushing have a trapezoidal cross section, the end face of the rib of the fastening ring facing the chisel tip being particularly advantageously at an angle between 0 ° and 60 °, in particular approximately 45 ° with the cross-sectional plane of the fastening ring. In this way it is ensured that an unintentional loosening is reliably prevented by sudden axial forces in the direction of loosening of the round shank chisel.

In a particularly advantageous manner, the design is such that the depth of the ring groove of the chisel shank exceeds the total thickness of the fastening ring in the area of the ring rib. This ensures that the clip ring for assembly can be reduced in diameter in such a way as to enable the chisel m to be inserted easily

The invention is explained in more detail below with reference to an exemplary embodiment shown schematically in the drawing. 1 shows a section through a chisel holder with an inserted bush and inserted chisel with an internal nozzle, in which a nozzle can be acted upon with cooling medium via a valve which can be actuated by axial displacement of the chisel, and FIG. 2 shows an axial view of one Round-shank chisel with inserted fastening or clip ring, Fig. 3 shows a detail of the area of the wall of the sleeve and the bit holder designated in Fig. 1 with 3 and Fig. 4 is a side view of the clip ring or fastening ring, partly in section.

In Fig. 1, 1 denotes a chisel holder, which is fixed by means of a weld seam 2 on the circumference of a cutting head or a cutting drum 3. In the illustration according to FIG. 1, the bit holder contains a valve 4 which can be actuated by axially displacing the round shank bit 5 in the direction of the double arrow 6 and releases or closes the supply of a pressure medium via the channel 7 and a nozzle 8. On the chisel holder, a further pressure medium connection 9 is provided, which opens into an annular channel between the chisel holder 1 and the bushing 10 inserted in the chisel holder, so that after the chisel 5 has been removed, the chisel sleeve 10 can be pressed out hydraulically. The chisel shaft 11 of the chisel 5 has an annular groove 12, into which a fastening ring 13 is used to hold the chisel 5 in the sleeve 10. By axially displacing the chisel 5 in the direction of the double arrow 6, the ring rim 14 which overlaps the sleeve 10 can be lifted from the sleeve 10 accordingly, so that a tool can be used to pull the chisel 5 out of the sleeve 10.

2, the arrangement of the clip ring 13 in the interior of the groove 12 of the chisel shank 11 of the chisel 5 is schematically illustrated in more detail. The chisel itself can be provided with a hard material tip 15.

3, which shows a detail of FIG. 1 corresponding to the area indicated by the circle III represents larger, it can be seen that the fastening ring or clip ring 13 carries a cross-sectionally trapezoidal rib 16 extending in the circumferential direction. The corresponding groove 17 on the inner wall of the sleeve 10 is formed larger than the width of the annular rib 16, so that an axial displacement in the direction of the double arrow 6 is possible. In this embodiment, the width a of the fastening ring, measured in the axial direction, is smaller than the width b, measured in the axial direction, of the annular groove 12 of the chisel shank 11. Dust can now penetrate into the gap between the bush 10 and the chisel shank 11 and the correspondingly wider area of the annular groove 12 , so that the axial displaceability of the fastening ring 13 in the corresponding groove 12 of the chisel shaft 11 can be blocked. In these cases, however, the axial displaceability of the annular rib 16 in the groove 17 of the chisel sleeve 10 still remains, so that a safe removal of the chisel 5 is facilitated using an appropriate tool. The inclined surface or end face 18 of the annular rib 16 facing the chisel tip runs parallel to the corresponding inclined surface of the groove 17, so that a corresponding surface contact is ensured, which prevents unintentional loosening of the chisel.

4, the slotted design of the clip ring or fastening ring 13 can be seen, the slot extending obliquely to the cross-sectional plane 19 of the fastening ring being indicated by 20. The two converging edges of the trapezoidal cross section of the rib 16 enclose an angle of approximately 90 ° and therefore extend at an angle of approximately 45 ° to the cross-sectional plane 19 of the ring 13.

Claims

Patent claims ■

1. Device for the detachable fixing of a round shank chisel in a chisel socket (10) detachably fixed in a chisel holder (1), in v / elcher the inner jacket of the socket (10) has an annular groove (17) into which an in an annular groove (12) the resilient fastening ring (13) of the chisel shaft (11) engages, characterized in that the resilient fastening ring (13) is designed as a slotted plastic ring and carries a rib (16) running in the circumferential direction that the width of the annular groove (17) on Inner jacket of the sleeve (10) measured in the axial direction is greater than the width of the rib (16) of the resilient plastic ring (13) which extends into this annular groove (17) and extends in the circumferential direction and that the end face (18) facing the chisel tip (15) ) of the annular rib (16) is arranged parallel to the end face of the annular groove (17) facing this end face (18) on the inner surface of the bushing (10).

2. Device according to claim 1, characterized in that the width of the annular groove (12) of the chisel shaft (11) measured in the axial direction exceeds the width of the plastic ring (13).

3. Device according to claim 1 or 2, characterized gekennzeichn t that the resilient fastening ring (13) consists of polyacetal and ms- special polyacetalcopolymeπsat.

4. Device according to claim 1, 2 or 3, characterized in that the resilient plastic ring (13) contains additives of M0S ₂ and / or PTFE and / or is reinforced by inserts made of steel wire or glass fibers.

5. Device according to one of claims 1 to 4, characterized in that the transverse to the circumferential direction (19) of the fastening i- ing ring (13) extending slot (20) an angle of 30 ° to 60 °, in particular about 45 ° with the Includes circumferential direction (19).

6. Device according to one of claims 1 to 5, characterized in that the circumferential rib (16) of the fastening ring (13) as well as the annular groove (17) on the inner surface of the sleeve (10) has a trapezoidal cross section.

7. Device according to one of claims 1 to 6, characterized in that the chisel tip (15) facing end face (18) of the rib (16) of the fastening ring (13) one in el between 0 ° and 60 °, in particular about 45 ° with the cross-sectional plane of the fastening ring (13).

8. Device according to one of claims 1 to 7, characterized in that the depth of the annular groove (12) of the chisel shank (11) exceeds the total thickness of the fastening ring (13) in the region of the annular rib (16).