FI125665B - Method for mounting a drawbar collar on a ring insert - Google Patents

Description

METHOD OF ATTACHING A TOWING COLLAR TO A RING BLADE

The invention relates to a method of attaching an annular pull collar to a rotatable cylindrical drill belonging to a drilling device drilling a hole, wherein at least one transverse groove rotating about said inner surface is formed on the inner surface of the rear

It is previously known from the Finnish Application Publication FI-972209, whereby a pull collar is first made so large that it can be fitted around a ring knife and then the collar is shrunk by an external shaping so that a shoulder included in the pull collar is located on the outer surface of the ring. axially-locking joint.

A disadvantage of the method of attachment described above is that an annular groove must be made on the outer surface of the annular knife for shrink engagement and this groove is exposed to drilling debris circulating around the annular annular member, which is easily accessible to this groove. The function of the Kim groove is to act as a connection allowing the rotation of the annular blade and also as a traction joint, causing drilling waste entering the groove to cause the parts of the rotating joint to wear considerably.

Further, WO 2009115638 discloses a snap-on snap-on socket which has an internal seam-type seam. The front end of the shield tube is fitted inside the shear blade, and a multi-piece ground shoe is also placed inside the shear blade on the outer surface of the shield tube end. The ground shoe is welded to the end of the protective tube. The ground shoe may rotate inside the hole blade, but due to the shoulder stroke it will not get out. No part of the joint is expanded.

The pulling collar method according to the invention solves the problems associated with the known fixing method by locating a locking groove on the inner surface of the annular blade, characterized in that the annular portion fitted to said groove of the pulling collar is modified to increase in diameter and locking in said axial direction.

An advantage of the invention is that the outer surface of the annular blade is obtained as an intact cylindrical surface when a joint allowing rotation of the annular blade is formed inside the annular blade. As in the known solution, drilling waste does not reach the connection allowing rotation from the outside. The annular blade can be made very thin in wall thickness, with all locking forms of the annular blade, such as grooves, located on the inner surface of the annular blade.

Expansion of the drawstring or the front of the drawstring can be easily accomplished by means of an expanding / expanding tool fitted inside the drawstring. A preferred embodiment is to deform only the front part of the pull collar to a larger diameter, whereby even smaller bending forces are sufficient to cause the front part to expand.

In the following, the invention will be explained in more detail with reference to the accompanying drawing, in which Figure 1 shows a side blade and a pull collar.

Fig. 2 shows an enlarged diameter of the pulling collar inside the annular blade.

Figure 3 is a front view of the ring blade.

Fig. 1 shows a ring blade 1 having front blade buttons 3 and a rear transverse groove 4 on the inner surface of the blade blade. The portion 6 on the backside of the groove 4 has a thinner wall than the front. The pull collar 2 for pulling the protective tube is made as shown in Fig. 1 and has a leading edge including a shoulder 5 which can be inserted into the ring blade 1 up to the groove 4. At the rear of the pulling collar 2 is a portion 7, to which the front end of the protective tube to be drawn into the drill hole is fitted and secured thereto by welding. The coupling sleeve 2 indicates by reference numeral 10 the point at which the wall thickness changes. The point 10 may be a border point on which one side of the pulling collar 2 is not modified and the other side is modified by increasing the diameter.

Fig. 2 shows the front end of the pull collar 2 inside the annular blade 1 and the expansion of the front end of the pull collar is made by means of an expansion tool 8. An example of an expansion tool is a hydraulic cylinder 8, at both ends of which the piston rods protrude and, by arcuate pieces 9, extend the front end of the pull collar 2 to expand radially. The curved portions 9 may be slightly less than 180 ° or close to 90 °, with the piston rods extending in four directions at a time. Their radius of curvature is the same, to which the inner surface of the pull collar 2 is to be extended.

Expansion modifications of the pull collar 2 can also be accomplished by means of a rolling tool, a weight-turning or a known expanding tool mounted within the pull collar, which is inflated, for example, by the force of a screw in said tool or by an eccentric body or

The pulling collar 2 of Figures 1 and 2 is extended only at its front. In particular, the shoulder portion 5 must be widened so that the shoulder 2, by virtue of the shoulder 5, remains in the groove 4, rotates there, and can move axially for a limited distance. The pull collar 2 is expandable over the entire course if such an embodiment is required.

Fig. 3 is a front view of a ring blade 1 and a pulling collar 2 attached thereto, a pilot blade is drilled inside the ring blade 1 and drills the center of the hole. The pilot blade at the extension of the pull collar 2 is generally of such a large diameter that it prevents the extended portion of the pull collar 2 from returning to a smaller diameter and thus ensures that the locking between the ring blade 1 and the pull collar 2 is maintained.

Claims (5)

A method of attaching an annular pull collar (2) to a soil in a rotatable cylindrical drill, such as an annular drill (1), which comprises at least one transverse groove (4) and a draw collar (2) at least one annular portion (5) being adapted to be slidable in diameter within said annular blade (1) at said groove (4), characterized in that the annular portion (5) fitted to said groove (4) of the pull collar (2) located and locked axially in said groove (4). Method according to Claim 1, characterized in that the diameter of the pulling collar (2) is increased by means of a tool (8, 9) extending said deformable section (5) inserted into the pulling collar (2). Method according to Claim 1, characterized in that the increase in the diameter of the pulling collar (2) is stopped when the pulling collar (2) rotates freely within the annular blade (1). Method according to Claim 1, characterized in that the pulling collar (2) has at least one shoulder portion (5) whose diameter is widened. Method according to Claim 1, characterized in that the diameter of the pulling collar (2) on the annular portion (7) into which the front end of the protective tube is fitted is maintained.