DE2538438C2 - Gas-tight thread connection of pipes - Google Patents

Description

because due to the different taper inclinations, these only spread over a large area in the final phase of tightening touch. There is no friction between the circumferential surfaces until the final phase of tightening, because due to the choice of diameter according to the invention, the circumferential surfaces of the pin and recess Only touch after the sealing pin and recess have expanded or contracted to the nominal size have been. The contact of the end faces always begins at a radially far inward one Conical point, which has a large radial lever arm for attacking the axial screw forces on an outer cone offers, which leads to a deformation of the end faces up to extensive contact. Here are manufacturing tolerances the taper slopes permitted; they have no effect on the final large-area contact of the end faces. There are also manufacturing tolerances on the circumferential surfaces of the sealing pin and recess permissible because these are compensated for by radial deformation. Then is the manufacture a cylindrical circumferential surface of the inner recess easier than that of a conical. Twice Flat support not only improves the sealing effect, but also increases the buckling resistance of the journal and reduces the surface pressure, which means that material compressions which are detrimental to reuse be avoided.

An embodiment of the connection according to the invention is shown in the drawings. It shows

F i g. 1 shows a plan view of the connection of two pipes with the aid of a pipe socket with one Partial section through the sealing point,

F i g. 2 shows the section of a circle in FIG. 1 on a larger scale when not tightened or tightened Link,

F i g. 3 shows a detail of the enlarged section according to FIG. 2 and

4 shows the enlarged section of FIG. 1 at tightened connection.

The inner member 1 with a bolt taper thread 2 ends with a sealing pin 3, which is rounded aspherically convex on its peripheral surface and the end of which is provided with a negative cone 4 with the inclination λ. The outer member 5, which is provided with a conical nut thread 6, has an inner cylindrical recess 7 at the thread end, the bottom of which forms a corresponding positive cone 8 with the inclination β . In the non-tightened state of the connection, the true diameter d in any cross section / of the sealing pin 3 is smaller than the nominal diameter Dj in the corresponding cross section of the cylindrical recess 7 and the true diameter D in the said cross section of the cylindrical recess 7 is greater than the nominal diameter dj in the corresponding cross section of the sealing pin 3, so that a gap 9 is created between the sealing pin 3 and the cylindrical recess 7. The envelope areas of nominal diameters dj and Dys are shown in FIG. 3 shown in dashed lines.

As shown in FIG. 2 and F i g. 3 is shown, the inclination α of the end face of the cone 4 of the sealing pin 3 does not coincide with the inclination β of the corresponding end face of the cone 8 of the cylindrical recess 7, so that before tightening the connection

ίο a gap 10 remains between these conical surfaces, the one with the gap 9 the friction of the sealing tape 3 in the inner cylindrical recess 7 prevented.

The described mounting of the sealing pin 3 of the inner member 1 in the cylindrical recess 7 of the outer link 5 reduces the geometric coupling of the position of both links of the Connection only to their taper threads 2 and 6 and the end faces of the cones 4 and 8, where the areas the edge 11 and 12 of the outer and inner link 5 and 1 essentially and to a sufficient extent effect the coupling. This simplistic geometric Coupling, even with a reduction in the requirements for the manufacturing precision wedge, results a high degree of sealing of the connection, because when tightening the two links the face of the Cone 4 of the sealing pin 3 on the end face of the cone 8 of the outer member 5 in the direction of the arrow slides, as shown in FIG. 4 is shown. This results in an elastic increase in the circumference of the end part of the sealing plug 3 until there is firm contact between the contact surfaces of the sealing plug 3 and the cylindrical recess 7 comes. This creates an initial seal of the connection causes. When the two links of the connection are tightened, elastic deformation occurs in the Area of the edge 11 on the face of the cone 8, whereby the gap 10 narrows and a labyrinth 13 is formed. This way it becomes very effective second seal of the connection formed.

In the embodiment according to FIG. 1, the outer member 5 is a pipe socket with tapered nut threads 6, and the inner links 1 are tubes with tapered bolt threads 2. This example represents a known three-part connection. In another variant of the connection of pipes, the in a known manner consists of only two members, but the outer member with the tapered thread can be a sleeve z. B. is created by pressing or stamping the pipe end. With another in itself known modification of the three-part connection, the inner link can be a nipple that attaches to both The ends have tapered bolt threads, while the outer links have tapered tubes Are nut threads that are connected by the nipple.

For this purpose 4 sheets of drawings

Claims (1)

Claim: Gas-tight threaded connection of pipes, in particular of drill pipes for deep boreholes, with an inner and an outer member, the inner member being screwed into the outer member, which is provided with a conical bolt thread and has a conical end face and a sealing pin which is convexly rounded on its circumferential surface and this is provided with a conical nut thread which ends with an inner recess which has an end face approximately in the same direction as the cone of the pin and in which, when the connection is tightened, the pin of the inner member is located and with its end and peripheral surface sealing rests on the end and peripheral surface of said recess of the outer member, characterized in that the peripheral surface of the inner recess (7) of the outer member (5) is cylindrical, that the inclination (α) of the conical end surface (4) of the inner member (3) 5 to 20% larger if the connection is not properly tightened than the inclination (ß) of the conical end face (8) of the inner recess (7) of the outer member (5) and that the actual diameter (d) in any cross section (i) of the sealing pin (3) is smaller than the nominal diameter ( Dj) \ n is the corresponding cross-section (i) of the cylindrical recess (7) of the outer member (5) of the connection and the actual diameter (D) in said cross-section (i) of the cylindrical recess (7) of the outer member (5 ) of the connection is larger than the nominal diameter (dß in the corresponding cross-section (i) of the sealing plug (3) of the inner link (1) of the connection. The invention relates to a gas-tight threaded connection of pipes, in particular of drill pipes for Deep holes, with an inner and an outer link, the inner with a tapered bolt thread provided and with a cone on the end face and on its peripheral surface convex rounded sealing pin ending member is screwed into the outer member and this with a tapered nut thread is provided, which ends with an inner recess, which is one of the cone of the Pin has approximately the same end face and in which the pin of the when the connection is tightened inner link is located and with its front and peripheral surface sealingly on the front and peripheral surface the mentioned recess of the outer link rests. From the German Auslegeschrift 15 33 619, such a gas-tight threaded connection is for deep borehole pipes known whose inner member also has a sealing pin with spherically convex or rounded having a spherical outer surface and with a conical end face. The face is on the corresponding conical bottom surface of the inner recess of the outer link and is mainly due to it characterized in that the angle of inclination of this Kegclfläche is greater than the angle of the self-locking, while that with the convex surface of the Pin cooperating circumferential surface of the inner recess of the outer member one to the End face narrowing hollow cone forms According to US Pat. No. 3,489,437 and her corresponding DE-AS 15 25 928 the face of the sealing pin is stepped by two cones, the one smaller outer cone on the outer edge of the forehead and a larger inner cone on the inner edge of the ίο Form your forehead. The im substantial cylindrical circumferential surfaces of the pin and the recess do not work together, but are at a distance from each other. These known connections are sufficiently tight, but the connections make high demands to the manufacturing accuracy, because the contact surfaces of their two links by some geometric or local coupling points are determined. The complete sealing of these connections will be caused by the tightening, whereby on contact surfaces of the sealing pin and the relevant Because of their geometrical identity, large friction surfaces arise in the place of the outer link Expose connections to the risk of frictional wear and thus damage. From US Patent 22 58 066 sine pipe connection is known in which the sealing pin has a Has inner cone and a substantially cylindrical peripheral surface. The perimeter of the recess the outer limb is conical. The face of the recess forms an outer cone. The angle of inclination of the inner cone is smaller than the angle of inclination of the outer cone. Between the Outer cone and the conical peripheral surface of the Aus-SS Saving is the sealing pin with simultaneous line contact on two radially approximately opposite one another Pinched places. Because of the resulting high and increasing when tightened Surface pressure, there is a high level of frictional wear with the risk of seizure. The invention is based on the object of specifying a connection of the generic type that is simpler is to be produced and is subject to less frictional wear. According to the invention this object is achieved in that the peripheral surface of the inner recess of the outer member is cylindrical, that the inclination of the conical face of the inner member is not fixed tightened connection by 5 to 20% greater than the inclination of the conical face of the inner recess of the outer member and that the actual diameter in any cross-section of the Sealing pin smaller than the nominal diameter in the corresponding cross-section of the cylindrical Recess of the outer link of the connection is and the actual diameter in that said Cross-section of the cylindrical recess of the outer link of the connection greater than the nominal diameter is in the corresponding cross section of the sealing plug of the inner link of the connection. Such a threaded connection can be easily established. The requirements for accuracy are small amount. Nevertheless, there is a high sealing effect, even if the threaded connection is dismantled several times. ' ^r - tied and screwed back together. Frictional wear or seizure is practically completely eliminated. Compared to the state of the art, there is less frictional wear on the tapered end faces,