DE19932307A1 - Pipe connector comprises socket with cylindrical bore, male connector which fits into this and elastic ring which fits against conical wall of recess inside socket and cylindrical surface of second recess on male connector - Google Patents

Abstract

The pipe connector comprises a socket (2) with a cylindrical bore (21). A male connector (5) with a shoulder (9) fits into this. An elastic ring (3) fits against the conical wall (24) of a recess (22) on the inside of the socket and the cylindrical surface of a second recess (14) on the male connector The pipe connector comprises a socket (2) with a cylindrical bore (21). A male connector (5) with a shoulder (9) fits into this. An elastic ring (3) fits against the conical wall (24) of a recess (22) on the inside of the socket and the cylindrical surface of a second recess (14) on the male connector. The smallest internal diameter of the conical wall is smaller than the outer diameter of the ring in the locked position by an amount equal to at least one quarter of the difference between the inner and outer diameters of the ring. The outer diameter of the shoulder is greater than the inner diameter of the ring in the locked position by an amount equal to at least one quarter of the difference between the inner and outer diameters of the ring. The difference between the inner diameter of the conical wall and the outer diameter of the shoulder is slightly larger than the thickness of an unlocking ring (18) on the male connector.

Description

The invention relates to a detachable connector for Pipelines specified in the preamble of claim 1 type.

In a connector known from US 3 177 018 A. The outer diameter of the retaining ring is this type about the same or slightly smaller than the inside knife of a cylindrical section of the bore in the Outer part, on which the retaining ring in the locking position is supported in the radial direction. The Entrie Gelungshülse protrudes from the open insertion end into this hole section and forms with it Radial support surface for axial support tongue of the retaining ring. So that the retaining ring through the Unlocking sleeve held firmly in the hole in the outer part ten, the release sleeve with a second, encompassing the outer part on its outside Provided sleeve section, which with a vice versa beaded edge into an annular groove on the outside of the External part engages. The axial support of the entrances lungs sleeve on the outer part makes this known connector costly.

From DE 197 28 137 C1 is a connector for  Pipes known in which the retaining ring is in the Locked position against the direction of insertion on one conical side wall of an annular recess in Supports the outer part. The release sleeve is on the Plug pins arranged and limited with their end face an annular recess into which the retaining ring in the Locked position engages. To unlock To be able to put the sleeve on the plug is this known connector the shoulder of the plug pin on which the retaining ring is supported by one annular support member formed in a Circumferential recess of the plug pin engages and in axi aler direction is supported in the circumferential recess. In the locking position is through this connector axially clamped a prestressed spring element, which itself on one shoulder of the release sleeve and the outside partially supported.

From US 5 570 910 A is a detachable connector known, in which the retaining ring in the unlocked position on the one hand on a side wall of an inner recess in Outer part and on the other hand on one of the inner part th shoulder is supported. The unlocking element consists of an inner sleeve made of metal that the Grips spigot and a plastic sleeve that engages around the outer part and in the unlocked position with a locking bead in a groove in the outer part snaps. The inner, metallic sleeve is through with a going slot provided so that they widened and over the shoulder can be pushed onto the plug pin. The outer sleeve is unslotted and has a sealing lip to form a dust seal on the inner part is present.

The invention has for its object a connector creation of the type mentioned at the outset, which is characterized by  low construction costs and inexpensive production distinguished.

The object is achieved by that specified in claim 1 Invention solved. Advantageous embodiments of the Erfin are specified in the subclaims.

The design of the plug connection according to the invention is based considering that it is for the transfer of forces, that strain the inner part held in the outer part can, is sufficient if the retaining ring with only one Fraction of about 1/4 to 1/3 of its cross section in the Inner recess in the outer part and in the outer recess in Inner part engages. This leaves a radial one Distance between the shoulder of the plug and the radially inner edge of the outer side wall of the inner recess tion in the outer part of sufficient size so that a unslotted release sleeve provided and installed can be that does not participate in the power transmission and therefore no additional supports on the outer part requirement. The plug connection according to the invention has the front part that the inner part and outer part in one piece and thus are particularly inexpensive to manufacture and that the force transmission directly from the inner part via the holder ring on the outer part. The release sleeve can can also be produced as a simple sheet metal part and with simple means, for example an inside and an external sealing ring or sealed gas-tight. The characteristics according to Claim 2 determine a particularly favorable installation space for the release sleeve.

By the dimensioning of the bore specified in claim 3 the release sleeve and the shoulder of the plug pin is combined with a good exploitation of the for the Unlocking sleeve available installation space  achieved that the unlocking sleeve during the release process and after loosening the plug connection on the plug pin is held.

Particularly favorable power transmission ratios between the holding element on the one hand and inner part and outer part on the other hand, by those specified in claim 3 Tilt angle of the conical support surface achieved.

The invention is illustrated below with the aid of an embodiment game explained in more detail, which is shown in the drawing is. The drawing shows a cross section of an invented appropriate plug connection in the locking position.

The plug connection shown has an inner part 1 and an outer part 2 , which are detachably connected to one another by a retaining ring 3 . The inner part 1 has an axial through hole and is provided at its outer end with a spout 4 for fastening a pressure line. The other end of the inner part 1 inserted into the outer part 2 is designed as a plug pin 5 .

The front end section 6 of the plug pin 5 is cylindrical and carries a sealing ring 8 in an annular groove 7 . At the end section 6 is an annular shoulder 9 of larger diameter, which has a front, the Endab section 6 facing conical surface 10 , a rear, oppositely inclined conical surface 11 and a Kegelflä surfaces 10 , 11 interconnecting cylindrical surface 12 . The conical surface 10 has an inclination angle of approximately 35 ° in order to keep the resistance when inserting the plug pin small. Smaller or larger angles of inclination are also possible. The angle of inclination of the conical surface 11 can be in a range between 30 ° and 60 °, but to avoid larger radial forces, an angle of inclination of 45 ° or greater is preferred. In the illustrated embodiment, the conical surface 11 has an inclination angle of 50 °. The conical surface 11 delimits an annular outer recess 13 with a cylindrical surface 14 and an oppositely inclined conical surface 15 opposite the conical surface 11 . The Neigungswin angle of the conical surface 15 is irrelevant for the function of the fastex connection and can therefore be any. A cylindrical surface 16 adjoins the conical surface 15 and is delimited towards the spout 4 by an annular collar 17 of larger diameter.

On the surface 16 , an unlocking treatment sleeve 18 is arranged, which has a cylindrical sleeve boring 19 and at its end facing the ring collar 17 has a radially outwardly directed annular collar 20 . The inner diameter of the sleeve bore 19 and the outer diameter of the surface 12 are so mutually coordinated that the unlocking sleeve 18 can only be pushed over the shoulder 9 with considerable force by hand over the plug pin 5 . Such a fit can be achieved, for example, by producing the sleeve bore 19 and the surface 12 with the same nominal size in tolerance zones H7 / j6 or H7 / h6. The outer diameter of the surface 16 is significantly smaller than the outer diameter of the surface 12 , so that the unlocking sleeve 18 can be moved easily on the surface 16 . The unlocking sleeve 18 is surrounded by an elastomeric spring element 26 which bears against the collar 20 and the outer part 2 .

The outer part 2 has a continuous receiving bore 21 , the inner dimensions of which are adapted to the outer dimensions of the plug-in pin 5 and the unlocking sleeve 18 . In the bore 21 there is an annular recess 22 in which the retaining ring 3 is arranged. The radial depth of the recess 22 is dimensioned such that the retaining ring 3 can slide unhindered over the shoulder 9 when inserting or releasing the Steokzapfens. 5 The recess 22 has an inner side wall 23 perpendicular to the longitudinal axis and an outer, conical side wall 24 . The inclination of the conical side wall 24 can be varied to the same extent as the inclination of the conical surface 11 , but it must be equal to or smaller than the inclination of the conical surface 11 if the retaining ring 3 in the locking position is not on one in the recess 22nd provided cylindrical surface is supported radially to the eyes. In the illustrated embodiment, the side wall 24 has an inclination angle of 45 °. For insertion through a cylindrical bore surface 25 adjoins the side wall 24, which defines the smallest inner diameter of the side wall 24th Between the drilling surface 25 and the outer surface of the unlocking sleeve 18 , a play is provided to ensure the easy movement of the unlocking sleeve 18 .

The retaining ring 3 is designed as a slotted, elastically deformable round wire snap ring with a circular round wire cross section and can be made of spring steel, spring bronze or plastic. The inner diameter of the ent-loaded retaining ring 3 is somewhat smaller than the outer diameter of the surface 14 of the Außenausnehmung 13, so that the retaining ring 3 rests in the locking position on the surface 14 and its inner diameter is determined in this position by the diameter of the surface fourteenth Manufacturing-related fluctuations in diameter of the retaining ring 3 therefore have no effect in the unlocked position. The eye diameter of the end portion 6 and the sealing ring 8 is smaller glides than the inner diameter of the expanded retaining ring 3, thus slightly during the insertion process, the retaining ring 3 on the end portion 6 and the sealing ring 8 and the sealing ring 8 is not damaged.

Before inserting the plug 5 into the bore 21 of the outer part 2 , the retaining ring 3 is loose in the recess 22nd During the insertion process, the retaining ring 3 is first centered by a conical surface 27 at the front end of the insertion pin 5 , wherein it is supported on the side wall 23 . Subsequently, the end section 6 and the shoulder 9 are pushed through the retaining ring 3 , the latter initially being widened by the conical surface 10 and then latching into the outer recess 13 . During the final phase of the plug-in process, the spring element 26 is tensioned so that it keeps the plug pin 5 in the illustrated locking position after the plug-in process has ended. In this position, the retainer ring 3 between the cone surface 11 and the side wall 24 is clamped and additionally secured against radial expansion due to the difference union inclination of the conical surface 11 and the side wall 24th Under the connector is a strong Schwingungsbean stress, the retaining ring 3 can also be positively secured by an attached to the side wall 24 , dashed school 28 ter. The recess 22 would then have to be correspondingly longer in the axial direction.

To release the plug connection, the release sleeve 18 is pressed into the outer part 2 while the spring element 26 is deformed, and the retaining ring 3 is brought radially outward along the conical surface 11 into the position shown in broken lines. The plug pin 5 can then be pulled out of the bore 21 of the outer part 2 together with the unlocking sleeve 18 , the retaining ring 3 remaining in the recess 22 .

In the described embodiment, the outer diameter of the shoulder 9 is 1/3 of the difference between the outer diameter and the inner diameter of the retaining ring 3 larger than the inner diameter of the retaining ring 3 determined by the diameter of the surface 14 . Furthermore, the drilling surface 25 , which determines the smallest diameter of the side wall 24 , is smaller by 1/3 the difference between the outer diameter and inner diameter of the holding ring 3 than the outer diameter of the holding ring 3 . Thus, at the given inclination of the conical surface 11 and the side wall 24, the points of contact between the retaining ring 3 and the conical surface 11 or the side wall 24 are at a clear distance from the edges thereof, so that a secure support even against high pressure forces on the retaining ring 3 ben is. For the arrangement of the unlocking sleeve 18 there remains a free annular space, the radial width of which is 1/3 the difference between the outer diameter and inner diameter of the retaining ring and which is still at a diameter of the round wire of z. B. 1 mm is large enough to accommodate an unlocking sleeve of the required wall thickness.

Claims (8)

1. Detachable plug connection for pipes with an outer part which has a bore with an open insertion end and a dividing the bore, ring-shaped inner recess which is bounded by an inner side wall and an outer, conical side wall,
an inner part provided with a through-hole with a plug-in pin which can be inserted into the bore of the outer part and which has an annular outer recess which is delimited on the front side in the plug-in direction by an annular shoulder of the inner part which has conical surfaces on both sides,
an elastically expandable retaining ring, the outer contour of which lies on a toroidal surface and whose inner diameter is smaller than the outer diameter of the shoulder and which is arranged in the inner recess of the outer part, can be displaced by radial elastic deformation into the inner recess during the insertion and removal process and in which Locking position engages in the outer recess of the plug pin, whereby it holds the plug pin on the shoulder in the outer part,
an unlocking sleeve which is arranged to be axially movable in the bore of the outer part on the insertion side of the inner recess and whose sleeve bore is dimensioned so large that the front end of the plug pin can be inserted with the shoulder through the unlocking sleeve,
characterized in that
the retaining ring ( 3 ) in the locking position on the outer, conical side wall ( 24 ) of the inner recess ( 22 ) in the outer part ( 2 ) and on a cylindrical surface ( 14 ) of the outer recess ( 13 ) of the plug pin ( 5 ) or the inner recess of the Outer part fits,
the smallest inner diameter of the outer, conical side wall ( 24 ) of the inner recess ( 22 ) in the outer part ( 2 ) is at least 1/4 the difference between the outer diameter and inner diameter of the retaining ring ( 3 ) smaller than the outer diameter that the retaining ring ( 3 ) in the locked position,
the outer diameter of the shoulder ( 9 ) of the plug pin ( 5 ) by at least 1/4 the difference between the outer diameter and the inner diameter of the retaining ring ( 3 ) is greater than the inner diameter of the retaining ring ( 3 ) in the locking position and
A radial distance is provided between the smallest inner diameter of the outer, conical side wall ( 24 ) and the outer diameter of the shoulder ( 9 ) of the plug pin ( 5 ), which is slightly larger than the thickness of the unlocking sleeve ( 18 ). 2. Plug connection according to claim 1, characterized in that the smallest inner diameter of the outer, conical side wall ( 24 ) of the Innenausneh tion ( 22 ) in the outer part ( 2 ) by 2/3 of the difference between the outer diameter and inner diameter of the retaining ring ( 3 ) larger is as the inner diameter of the retaining ring ( 3 ) in the locking position and that the outer diameter of the shoulder ( 9 ) of the plug pin ( 5 ) by 2/3 of the difference between the outer diameter and inner diameter of the retaining ring ( 3 ) is smaller than the outer diameter of the Retaining rings ( 3 ) in the locking position. 3. Plug connection according to one of claims 1 or 2, characterized in that the sleeve bore ( 19 ) of the unlocking sleeve ( 18 ) and the outer diameter of the shoulder ( 9 ) of the plug pin ( 5 ) have the same nominal dimensions, the manufacturing tolerances for these dimensions so are set that the unlocking sleeve ( 18 ) can still be pushed by hand but not without exerting force over the shoulder ( 9 ), and that the outer diameter of the in the bore ( 21 ) of the outer part ( 2 ) is the unlocking sleeve ( 18 ) required movement is smaller than the surrounding drilling area ( 25 ) of the outer part ( 2 ). 4. A plug connection according to one of the preceding claims, characterized in that the angle of inclination of the conical side wall ( 24 ) and that of the outside recess ( 13 ) in the plug pin ( 5 ) facing the conical surface ( 11 ) of the shoulder is 30 ° to 60 °, whereby the angle of inclination of the conical surface ( 11 ) of the shoulder ( 9 ) is equal to or greater than the angle of inclination of the conical side wall ( 24 ). 5. Plug connection according to one of the preceding Ansprü surface, characterized in that the retaining ring ( 3 ) is a slotted ring made of a circular cross-section wire made of spring material, for. B. spring steel, spring bronze or plastic. 6. Plug connection according to one of the preceding Ansprü surface, characterized in that the diameter of the portion of the plug pin ( 5 ), relative to which the unlocking sleeve ( 18 ) is axially displaceable when used as intended, has an outer diameter which is at least smaller than that required for movement Sleeve bore ( 19 ). 7. Plug connection according to one of the preceding Ansprü surface, characterized in that on the inner part ( 1 ) on the one hand and the eye part ( 2 ) on the other hand, a spring element ( 26 ) biased in the locking position in the axial direction is supported. 8. Plug connection according to claim 7, characterized in that the spring element ( 26 ) is supported on a shoulder of the unlocking sleeve ( 18 ).