NL194014C - Mechanical pipe clamp. - Google Patents

Description

1 194014, Short designation: Mechanical pipe clamp

The invention relates to a mechanical pipe clamp with a round body which arranges a plurality of radially movable wedges and an axially movable compression ring, which body and wedges comprise co-acting wedge surfaces so that relative axial movement between the compression ring and the body one direction of radial movement of the wedges causes in a clamping direction and in the other direction permits radial movement of the wedges in a relief direction, tightening means are provided for effecting the relative axial movement in one direction and relief means are provided for triggering of the relative axial movement in the other direction, the relief means comprising bolts for moving the compression ring away from the body for releasing the wedges, the wedges also being mounted on the body by mounting means comprising a spring member the wedges from clamping collaborator king forces.

Such a mechanical pipe clamp is known from U.S. Pat. No. 2,329,801. Herein is described a pipe clamp comprising radially movable wedges, an annular body, a plate which abuts the wedges, a plate from which the annular body extends, one of the plates comprising a bolt extending therefrom through the annular body and the other plate, and a nut on the bolt acting against the latter plate. The known mechanical pipe clamp has the drawback that the wedges are more difficult to release from the clamping contact due to the friction between inclined surfaces of the wedges and similar inclined surfaces on the member forcing the wedges into clamping contact.

It is an object of the present invention to provide a mechanical pipe clamp in which at least this drawback is eliminated.

For this purpose, a mechanical pipe clamp of the type described above according to the invention is characterized in that the round body is annular and the wedge applicators are accessible from the interior of the annular body for manipulation thereof, to release the wedges from clamping cooperation. This solves the disadvantage that the wedges are more difficult to release from the clamping contact.

It is also noted that an annular body for pressing radially movable wedges is known per se from German Offenlegungsschrift DE-A 3,339,800, but this annular body 30 is completely filled by a disc-shaped wall, so that the wedges do not accessible from the interior of the annular body. In addition, the wedges do not interact directly with the interior of the pipe, but through elastic seals, while it is a mobile pipe sealing device.

The invention further provides that the tightening means comprise a plurality of circumferentially positioned bolts for moving the compression ring toward the body to drive the wedges to their clamping position.

Preferably, the compression ring and the wedges also comprise co-operating wedge surfaces.

It should be noted that German Offenlegungsschrift 3,339,800 discloses arc segmental wedges per se, the compression ring and the wedges also comprising co-acting wedge surfaces, 40 wherein the arc segment wedges have at least one inclined surface which can cooperate with a corresponding inclined flat on the body and the compression ring According to the invention, each segment is mounted on a bolt extending through an elongated slot of the body, while the spring is interposed between the bolt head and the elongated slot.

In a preferred embodiment of the clamp, an extension pipe is provided on which a work tool 45 can be attached.

Advantageously, the work tool is a pipe plug.

The invention will be explained in more detail below with reference to the drawing, which shows by way of example an embodiment of a pipe clamp according to the invention. In the drawing 50: figure 1 shows a partial top view of a mechanical clamp, figure 2 a section according to the line IHI of figure 1, and figure 3 a section along the line Ill-Ill of figure 1.

An extension pipe 12 is welded to a mechanical clamp 10 located within a pipe 14. The pipe 14 can be part of an oil or a gas pipeline.

The clamp 10 has a body 16, a compression ring 18 and a number of equally spaced arc segments.

Claims (6)

194014 2 wedge-shaped wedges 20. Each wedge has two inclined surfaces 20A and 20B corresponding to similarly inclined surface blocks 16A and IBA on the body 16, respectively. the compression ring 18. The compression ring 18 is attached to the body 16 by a number of equally spaced tightening-bolts 22. The bolts 22 engage in screw holes 24 of the body 16 and pass through holes 26 in the compression ring 18. The thrust washer also has a group of relief bolts 28 threaded through screw bores 30 of the thrust washer. The ends of the bolts 28 are in contact with a flat annular surface 32 of the body 16. Each wedge 20 is attached to the body 16 by an applicator provided with a bolt 34 which engages a screw bore 36 of the wedge, said bolt 34 passing through a diametrically elongated slot 38 in a ring 40 attached to the outer end of a bore 42 in the body 16. A spring 44 is disposed between a washer 46 on the underside of the head of the bolt 34, and a washer 48 below each washer 40. The effect of the spring 44 is to force the 15 out of contact with the bore of the pipe 14. keg. In use, a work tool such as a pipe block (not shown) is attached to the outside of the extension pipe 12. The work tool is placed together with the mechanical clamp within the pipe 14 by any suitable lifting and moving equipment. Once the mechanical clamp 10 and the attached attachment are properly positioned, the thrust washer 18 20 is moved toward the body 16 by tightening the bolts 22 in a predetermined order. All the relief bolts 28 are rotated back so that the end of each bolt 28 does not protrude from the inner surface of the compression ring. Upon movement of the compression ring 18 toward the body 16, the surfaces 20A and 20B on the wedge contact the surfaces 16A and IBA on the body 16, respectively. the thrust washer 18 so that each wedge 25 is moved radially outwardly against the load applied by the springs 44. Thus, the wedges 20 clamp in the bore of the pipe 14, securing the clamp and the attachment attached to the extension pipe 12 in place. When it is necessary to loosen the clamp, all tightening bolts 22 are loosened in a predetermined order. However, due to the friction between the surfaces 20A, respectively. 20B and 30 16A, respectively. 18A, the wedges 20 are unlikely to release from the clamping position under the load applied by the springs 44. Even if all bolts 22 have been loosened, the compression ring 18 in particular will not move away from the body 16. Therefore, all relief bolts 28 are screwed in in a predetermined order, so that the thrust washer 28 is retracted from the body 16, detaching the surface IBA of the washer 35 from the surface 20B of each wedge. Contact may still be maintained between surfaces 16A and 20A and between each wedge and the bore of the pipe 14. If such a situation arises, the head of each bolt 34 may be used either directly by hand or indirectly by using of any tool such as a hooked rod to be grasped to exert a leverage on the respective bolt 34 to release the wedge from the clamping engagement 40. Once all wedges 20 have been released from the clamping engagement, the mechanical clamp and attached work tool can be withdrawn from the pipe 14. It is clear that by applying separate tightening and relief bolts to the compression ring, the compression ring can be tightened and loosened in an independent manner, the manner of applying each wedge to the body also releases each wedge from the clamping cooperation. 45 A mechanical pipe clamp with a round body that arranges a plurality of radially movable wedges 50 and a thrust ring movable axially relative to the body, which body and wedges co-operate wedge surfaces so that relative axial movement between the thrust ring and the body is radial in one direction movement of the wedges caused in a clamping direction and in the other direction permits radial movement of the wedges in a relief direction, tightening means being provided for effecting the relative axial movement in one direction and relief means 55 being provided for triggering the relative axial movement in the other direction, the relief means comprising bolts for moving the thrust ring away from the body to loosen the wedges, the wedges also being mounted on the body by mounting means comprising a spring member extending the wedges from compelling cooperation, with it characterized in that the round body (16) is annular and the wedge applicators (34-48) are accessible from the interior of the annular body (16) for manipulation thereof to release the wedges (20) from clamping engagement. Mechanical clamp according to claim 1, characterized in that the tightening means comprises a plurality of circumferentially positioned bolts (22) for moving the compression ring (18) towards the body (16) about the wedges (20) towards their clamping float position. Mechanical clamp according to claim 1 or 2, characterized in that the thrust washer (18) and the wedges (20) also comprise co-acting wedge surfaces (18A, 20B). Mechanical clamp according to claim 3, wherein the arc segment-shaped wedges are provided with at least one inclined surface which can cooperate with a corresponding inclined surface on the body and the pressure ring, characterized in that each segment is arranged on a bolt (34) extending through an elongated slot (42) of the body, while the spring (44) is positioned between the bolt head and the elongated slot. Clamp according to any one of the preceding claims, characterized in that an extension pipe (12) is provided on which a work tool can be attached. Clamp according to claim 5, characterized in that the work tool is a pipe plug. Hereby 1 sheet drawing