DE202014105800U1 - Rotatable clamping device - Google Patents

Abstract

Rotatable clamping device (1) for optionally loosening or gripping a drill pipe (2) by means of clamping jaws (7), a chuck being provided which • can be rotated together with the drill pipe (2) • and has hydraulically movable clamping jaws (7) which are radial for the drill pipe (2) between a clamping position defining the drill pipe (2) and a release position releasing the drill pipe (2), a hydraulic unit (3) • is provided on the chuck • has an electrically driven hydraulic pump • and to the Clamping jaws (7) is hydraulically connected in such a way that they can be moved into the clamping position or the release position depending on the hydraulic pressure conditions, characterized in that the chuck has short-stroke cylinders (5) with a stroke of at most 40 mm, the short-stroke cylinders (5) are designed as a one-way cylinder that can withstand a maximum pressure speed of at least 350 bar and are arranged such that they can be moved into the clamping position under hydraulic pressure, return springs (19) are provided which force the short-stroke cylinders (5) from their clamping position into the release position, and the hydraulic unit (3) one maximum pressure of at least 320 bar is constructed.

Description

The innovation relates to a rotatable clamping device according to the preamble of claim 1.

A generic clamping device is from the DE 89 11 481 U1 known. Such clamping devices are used in casing rotary tables to clamp a typically hollow drill pipe, which is to be rotated in order to transmit the torque from the rotary drive to the drill string. The drilling devices are used, for example, to take analyzes or to carry out exploration drilling or to perform well drilling. In any case, a frequent change of location is typical for such drilling rigs, so that compact dimensions as possible, for example also the clamping device to be used, are advantageous for such applications. In addition, as compact as possible a dimension of the tensioning device, especially with regard to its radial extent, has a considerable influence on the design of the remaining drillings, for example, on the stability of the drilled mast, the stability of which again being reflected in the dimensions and weight of the drilled mast.

The innovation is based on the object to improve a generic clamping device to the effect that this allows the transmission of high torque to the drill string even with compact dimensions of the clamping device.

This object is achieved by a rotatable clamping device with the features of claim 1. Advantageous embodiments are described in the subclaims.

The innovation suggests in other words to equip the chuck with a Kurzhubzylinder. Such hydraulic short-stroke cylinders have been known from practice for years and have comparatively low strokes of 40 mm or less. Practical tests have shown that short-stroke cylinders with a stroke of 15 mm are sufficient to reliably grip the drill pipe on the one hand in order to transmit all-around torques to the drill pipe and, on the other hand, to be able to reliably detach the drill pipe in order to install or remove the drill pipe to be able to.

A particularly simple embodiment of the Kurzhubzylinder, which is thus designed to save weight and allows the smallest possible structural dimensions, is proposed in that the Kurzhubzylinder are designed as a disposable, which are thus movable under application of hydraulic pressure only in a single direction, namely in the direction of its clamping position , The provision of the short-stroke cylinder is not hydraulic as in two-way cylinders, but rather as proposed by means of return springs, which push the Kurzhubzylinder from its clamping position to the release position as soon as there is no corresponding hydraulic back pressure. It is further proposed by the provision that the hydraulic pump can build up a pressure of at least 320 bar. The maximum pressure indicated in the technical data of the pump, which the pump can build up, may advantageously be even at 500 bar or more, for example a pump which can build up a maximum pressure of 700 bar can be advantageously used.

Accordingly, the Kurzhubzylinder are also advantageous with correspondingly high pressures loaded, for example, with a pressure of at least 400 bar, which has shown in practice the use of Kurzhubzylindern excellent suited in the first test, in which the compressive strength is 500 bar.

Advantageously, the chuck may have a housing in which the clamping jaws are mounted. Advantageously, the return springs can be supported directly or indirectly with their one end on this housing, while they act with their other end on a short-stroke cylinder in order to return it from its clamping position to its release position.

The aforementioned housing may advantageously be formed from a monolithic block of material so that it can absorb the high forces that are introduced into the housing during the tensioning of the drill pipe.

Advantageously, the mentioned housing, which extends over a certain axial length of the drill string, be provided at one or both of its axial ends with a support ring which comprises the outer contour of the housing and thus contributes to the fact that the housing absorb forces and the Kurzhubzylinder can support when the Kurzhubzylinder be extended into its clamping position to tension the drill pipe.

The configuration of the support ring can advantageously take the form of a flat, annular disc which is attached to the housing from above or below, the support ring having a shoulder in its surface facing the housing. The step causes a radially outer portion of the support ring engages over the outer contour of the housing, so that in this way the outer contour of the housing is encompassed and is supported against radially outward forces.

Advantageously, a support ring may be provided at both axial ends of the housing. The determination of the two support rings can advantageously be such that clamping screws extend through the housing, which are referred to as clamping screws, because they clamp the two support rings together and press them to the housing, the clamping screws extend freely movable through the housing and are defined only on the two support rings. An advantageously simple handling of the clamping jaws can be effected in that a clamping jaw is mounted by means of a groove and spring contour in the axial direction, ie in the longitudinal direction of the drill string, movable relative to the short-stroke cylinder, which serves for the radial adjustment of the clamping jaw. The chuck surrounds the clamping jaw in the axial direction, thus preventing the axial movement of the clamping jaw. However, this impairment of the axial mobility takes place only when the clamping jaw is in the radial direction within a range which is referred to as a clamping stroke, ie within the range in which the clamping jaw or the acting thereon Kurzhubzylinder between a radially further outward release position and the radially further provided inside clamping position is movable, in which clamping position, the clamping jaw is applied to the drill pipe. Beyond this clamping stroke, however, the short-stroke cylinder can be moved radially further inwards and accordingly also move the clamping jaw radially inwards, so that the clamping jaw, beyond its clamping stroke, can continue to move radially inwards into a maintenance position in which it travels beyond the boundary of the clamping jaw Chuck protrudes. Consequently, in this maintenance position, the chuck does not hinder the axial mobility of the clamping jaw, so that it can be moved in its maintenance position in the axial direction and can be pulled out or pushed out of the chuck along its groove and spring contour.

An embodiment of a proposed tensioning device will be explained in more detail with reference to the purely schematic representations. It shows

1 a tensioning device in exploded view, and

2 a jaw of the clamping device of 1 in opposite 1 larger scale.

In 1 is a rotatable tensioning device 1 in an exploded view, which forms part of a casing turntable. The tensioning device 1 can be set in rotation in a conventional manner, wherein the corresponding rotary drive is not shown for clarity. The tensioning device 1 has a central clearance through which a drill string 2 extends. A hydraulic unit 3 has an electric hydraulic pump, wherein the power supply for the hydraulic unit in a conventional manner by means of slip rings, so that the hydraulic unit 3 with the entire clamping device 1 and the drill pipe 2 can be put into a common rotation. The hydraulic unit 3 is designed as a compact unit, which has comparatively small structural dimensions, but can build up a maximum hydraulic pressure of about 700 bar.

The tensioning device 1 has a housing 4 on, which is monolithically made of a single steel part, namely as a milled part of a steel block. The housing 4 has three outwardly projecting sections, in each of which a Kurzhubzylinder 5 arranged in a so-called recording 6 is arranged and on a jaw 7 acts so that the jaw 7 as well as the hydraulic cylinder of the short-stroke cylinder 5 radial to the drill pipe 2 are mobile. Simplifying in this context, the entire assembly as Kurzhubzylinder 5 referred to, which surrounds the actually movable, hydraulically movable cylinder, and in a similar manner in practice also of so-called "telescopic cylinders" or "hydraulic cylinders" is mentioned, if not only the actual cylinder component, but the entire assembly is meant.

Above and below the case 4 each is a support ring 8th and 9 intended. In the upper support ring 8th are two holes 10 recognizable, for receiving the electric motor and the hydraulic pump of the hydraulic unit 3 serve. Furthermore, at the upper support ring 8th a variety of screws can be seen as tightening screws 11 be designated because they serve the upper and lower support ring 8th and 9 to be clamped together and at the two axial outer ends of the housing 4 set. For this purpose, stretch some of the clamping screws 11 through through holes 12 passing through the housing in the axial direction 4 run.

Based on the lower support ring 9 it can be seen that the support rings 8th and 9 at her to the housing 4 aligned surface edges 14 have, wherein the area of the support ring 8th . 9 that is radially outside the edge 14 extends, is thicker than the areas of the support rings 8th and 9 that are radially within these edges 14 lie. The edges 14 run exactly along the outer circumferential contour of the housing 4 so that the support rings 8th and 9 the housing 4 radially outwardly embrace the radially outer areas, where the support rings 8th and 9 have a greater material thickness, in front of the peripheral surface of the housing 4 extend.

Between the three mentioned, outwardly projecting areas where the housing 4 the short-stroke cylinders 5 and the jaws 7 receives, resulting in three radially inwardly retracted areas of the housing 4 , Between the two support rings 8th and 9 is thus in the three areas between the Kurzhubzylindern 5 each created a free space in which, for example, the hydraulic unit 3 , a hydraulic accumulator 15 and one in 1 not shown hydraulic control unit can be arranged. These elements, all together with the clamping device 1 and the drill pipe 2 rotate with, so are arranged radially as far as possible inside, so that overall very compact dimensions of the clamping device 1 be enabled.

In the illustrated embodiment, the Kurzhubzylinder 5 a stroke of 15 mm. The case for clamping or releasing the drill string 2 required so-called clamping stroke is only about 6 to 8 mm. Within this clamping stroke are the jaws 7 in the axial direction between the support rings 8th and 9 guided. The chuck, which among other things, the housing 4 and the two support rings 8th and 9 has, leads the jaws 7 in favor of their safest possible determination not only within the clamping stroke, but also beyond when the jaws 7 be further pushed radially inward, which is always possible, for example, when no drill pipe 2 inside the tensioning device 1 located. This guide through the chuck can be done up to a stroke of, for example, 10 to 12 mm. The short-stroke cylinders 5 however allow - as already mentioned - a stroke of 15 mm. Be the short-stroke cylinder 5 maximally extended, get the jaws 7 Therefore, in a maintenance position in which they are free to move in the axial direction, since they no longer in the axial direction of the chuck, in particular the support rings 8th and 9 be overruled.

2 illustrates the structure of a jaw 7 , The radially inner surface of the clamping jaw 7 is profiled and as a clamping surface 16 designated. The jaw 7 lies with the clamping surface 16 the drill pipe 2 and the profiling is used for optimal transmission of forces, in particular the torque, on the drill pipe 2 , At its radially outer end, the short-stroke cylinder 5 adjacent, points the jaw 7 two grooves 17 on, which are axially parallel to the drill pipe 2 extend and those in the picture 6 two springs 18 are assigned in these grooves 17 engage, so that overall a longitudinal guide is created, along which the clamping jaw 7 in the axial direction, ie axially parallel to the drill pipe 2 can be moved. When the jaw 7 is in its maintenance position, it can therefore without tools from the recording 6 be pushed out or pulled out and replaced, for example, when the profiling of the clamping surface 16 should be worn.

The particularly compact dimensions of the clamping device 1 Among other things, the small structural dimensions of the Kurzhubzylinders 5 allows, since this is designed as acting only in one direction hydraulic cylinder. By appropriate hydraulic loading, the jaws 7 radially inward and against the drill string 2 be pushed. The return of the jaws 7 and the short-stroke cylinder 5 done by return springs 19 that act as spring packs on each receptacle 6 are arranged and against the housing 4 support. The return springs 19 are designed as compression springs by the Kurzhubzylinder 5 be compressed if this is the respective recording 6 and the jig attached to it 7 moves radially inward.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 8911481 U1 [0002]

Claims (11)

Rotatable clamping device ( 1 ) for selectively releasing or detecting a drill string ( 2 ) by means of clamping jaws ( 7 ), wherein a chuck is provided, which • together with the drill pipe ( 2 ) is rotatable • and hydraulically movable clamping jaws ( 7 ) which radially to the drill string ( 2 ) between a drill string ( 2 ) clamping position and a drill pipe ( 2 ) releasable release position are movable back and forth, a hydraulic power unit ( 3 ) • is provided on the chuck • has an electrically driven hydraulic pump • and the clamping jaws ( 7 ) is hydraulically connected, such that they are movable in response to the hydraulic pressure ratios either in the clamping position or in the release position, characterized in that the chuck Kurzhubzylinder ( 5 ) with a stroke of at most 40 mm, the short-stroke cylinders ( 5 ) are designed as a disposable cylinder, which have a maximum compressive strength of at least 350 bar and are arranged such that they can be moved under hydraulic pressure in the clamping position, return springs ( 19 ) are provided, which the Kurzhubzylinder ( 5 ) from its clamping position into the release position, and the hydraulic unit ( 3 ) is configured to build up a maximum pressure of at least 320 bar. Clamping device according to claim 1, characterized in that the Kurzhubzylinder ( 5 ) have a stroke of at most 20 mm. Clamping device according to claim 1 or 2, characterized in that the hydraulic unit ( 3 ) is designed to build up a maximum pressure of at least 500 bar and the Kurzhubzylinder ( 5 ) have a compressive strength of at least 400 bar. Clamping device according to one of the preceding claims, characterized in that the chuck is a housing ( 4 ), in which the clamping jaws ( 7 ) are stored. Clamping device according to claim 4, characterized in that return springs ( 19 ) are provided, one end of the housing ( 4 ) of the chuck and the other end on a Kurzhubzylinder ( 5 ). Clamping device according to claim 4, characterized in that the housing ( 4 ) is formed from a monolithic block of material. Clamping device according to one of claims 4 to 6, characterized in that the housing ( 4 ) at one or both of its axial ends with a support ring ( 8th . 9 ), which the outer contour of the housing ( 4 ). Clamping device according to claim 7, characterized in that the support ring ( 8th . 9 ) is designed as an annular disc, in which the housing ( 4 ) directed surface an edge ( 14 ) is provided, which on the outer contour of the housing ( 4 ) along. Clamping device according to claim 7 or 8, characterized in that at both axial ends of the housing ( 4 ) each have a support ring ( 8th . 9 ) is provided, with clamping screws ( 11 ) through the housing ( 4 ) and at the two support rings ( 8th . 9 ). Clamping device according to one of the preceding claims, characterized in that a clamping jaw ( 7 ) by means of a tongue-and-groove contour in the axial direction movable with respect to their Kurzhubzylinder ( 5 ) and that the chuck is the jaw ( 7 ) in the axial direction, such that it increases the axial mobility of the clamping jaw ( 7 ) is limited when it is in the radial direction within its clamping stroke, and wherein the clamping jaw ( 7 ) beyond its clamping stroke and beyond the boundary of the chuck further radially inwardly into a maintenance position is movable, such that it is movable from its maintenance position in the axial direction and removable from the chuck. Clamping device according to one of the preceding claims, characterized in that transmission means for transmitting electrical energy from a fixed energy source to the with the chuck and the drill string ( 2 ) rotatable hydraulic unit ( 3 ) are provided.

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