DE1161084B - Coupling for releasably holding two tubular components that are plugged into one another - Google Patents

Description

Coupling for releasably holding two nested tubular Components Dia invention relates to a coupling for releasably holding two nested tubular components with one of the outer part in one extended end loosely held, acting in an inclined position to the insertion axis clamping Locking ring, which can be moved by hand using an actuating device, optionally in a locking or an unlocked position can be moved.

With this coupling, the two nested ones are locked tubular components are due to the fact that the diameter of the locking ring when tilting the ring is reduced and parts of the ring with the inserted inner tubular component come into contact and the inserted Hold the tubular component firmly in place.

In a known locking device that works according to this principle for releasably locking two tubular components that can be pulled apart telescopically a rigid flat ring is used as the locking ring, which in the expanded End of the outer part in the inclined position by a spring arranged in this end is pressed. In this known device, the telescopic can be pulled apart Parts can be pulled apart as far as you want, while pushing them together Parts is prevented by the clamping effect of the locking ring. The well-known Device can be used in tent poles, tripods and the like, which are based on a extended to a certain length and then locked in this position have to. In the known device, the lock is released in that the ring against the spring force in a perpendicular to the axis of the tubular components Position is moved, whereby it comes out of contact with the inner tube, so that this can be pushed into the outer tube.

Since in the known locking device, the tubular components only locked against sliding into one another, but not against being pulled apart this device is not suitable as a coupling for releasable retention two nested tubular components.

Another one that also works according to the principle given above known pipe coupling uses two locking rings arranged side by side, which are loosely held in the same place in the enlarged end of the outer member are and by a helical compression spring with respect to the longitudinal axis of the tubular Components are pressed apart in a V-shape. For plugging the components into one another are these locking rings by hand by means of an actuating device compressed so that they are perpendicular to the pipe axis. If you then after the Plugging the components into each other are released, they are restored by the spring inclined and come into contact with the inner component, one ring prevents the component from moving longitudinally in one direction while the other Ring secures this component against displacement in the opposite direction.

This known coupling also requires a separate spring for tilting The Rings.

Another known arrangement for axially limiting the to be coupled tubular components in both directions consists of one on the outer component arranged, axially fixed oval spring ring with an opening at one of the two points at which the ring rests on the outer component, and a locking lug on the outer circumference of the inner component, which when plugged into the opening of the spring ring engages, which initially gives way in the radial direction and springs back when the latch is aligned with the opening. As a result of his The spring ring is oval in shape at diametrically opposite points above the Circumference of the outer component. In addition, the inner component must be inserted when it is inserted are precisely aligned in the outer with respect to the ring, and it is with this working according to a known coupling other than the principle mentioned at the beginning cooperating devices both on the inner component and on the outer component in the form of the locking lug on the one hand and the spring ring on the other hand required.

The invention now creates a coupling for releasably holding two nested tubular components that follow a similar basic principle works like the first two known locking devices and the Parts against movement in the direction in which they are pulled apart, locked, but no spring to load the locking ring in the inclined position needed.

The coupling according to the invention is characterized in that the Ring made of resilient material in a clamping position to reduce its size Inner diameter along a center line either bent or curved is, however, in the unlocked position under the action of the actuating device is flattened to enlarge its inner diameter.

In the case of such a coupling, the known locking devices necessary spring due to the inherent resilience of the clamping ring is omitted, whereby a Simplification of the overall arrangement is achieved.

The actuator can be angled by one with the Ring can be formed from one piece of existing handle.

When using curved rings, the actuating device can be used as Bush formed with the front side provided cams and in the widened Be rotatably mounted at the end of the outer part.

The distance by which the inner part tucked into the outer part can be, by a known shoulder on one of the nested Parts, by known complementary tapers on the inside of the outer Part and on the outside of the inner part or by a second, in the widened end of the outer part held arched locking ring limited will. whose curvature is opposite to that of the first locking ring is. In the latter case, according to a further expedient embodiment of the Invention designed as a sleeve actuator for simultaneous Unlocking both rings should be provided with cams on both sides.

For guiding the bushing during rotation in the widened end of the outer part, this end can be provided with a slot extending in the circumferential direction through which projections formed on the bushing extend. The bushing can then expediently be rotated by means of a cap which is rotatably mounted on the outside of the widened end and which is firmly connected to the bushing via the projections of the latter. Exemplary embodiments of the invention are described in more detail below with reference to the drawings: FIG. 1 shows a section through a coupling according to the invention, FIG. FIG. 2 shows a perspective view of part of the device according to FIG. 1, Fig. 3 is a perspective illustration of an end cap according to FIG. 1, Fig. 4 is a view of a spring ring according to Fig.l. F i g. 5 shows a section of the FIG. 1 shown coupling immediately before engaging the ring at the end of the interior of the parts to be put together, F i g. 6 is a view similar to FIG. 5, but after the coupling has been fully locked, FIG. 7 is a view similar to FIG. 5 and 6, but after loosening the engagement position of the spring ring on the inner part, F i g. 8 is a view; square spring washer, F i g. 9 is a view similar to FIG. 1, but to illustrate a somewhat different embodiment of the invention, FIG. 10 is a perspective view of an end cap as part of the FIG. 9 shown device, F i g. 11 shows a section through part of the coupling according to another embodiment of the invention, FIG. 12 a section along the line 12-12 in FIGS. 1.1, F i g. 13 is an end view of a spring washer as part of this embodiment, FIG. 14 is a section along line 14-14 in FIG. 13, fig. 15 is a perspective illustration of an actuating device in the form of a bushing with cams provided on the end face as part of this embodiment, FIG. 16 shows a section through the entire coupling according to this exemplary embodiment with the parts in the locked position, FIG. 17 shows a section similar to FIG. 16, but in the unlocked position of the parts, FIG. 18 shows a section through part of the coupling according to another exemplary embodiment of the invention, FIG. 19 is a perspective illustration of an actuating device in the form of a bushing with cams provided on both sides as part of this embodiment.

F i g. 20 a section through the outer part of the coupling according to this Embodiment.

F i g. 21 a section through this coupling in the locked position of the two parts and F i g. 22 a section similar to FIG. 21. but with unlocked Spring washer.

In the drawings. in particular in FIG. 1 to 7, denotes that Reference numeral 10 denotes the outer one of the parts to be assembled. In the present embodiment This is a pipe elbow that is part of a suction nozzle of a vacuum cleaner serves, but any hollow part could be used in its place. The inside diameter of the pipe part 10 is in the direction of view of FIG. 1. Expanded at the left end and forms a shoulder 12. The flared end is with a relatively large one Slot 14 provided with an open end, off the shoulder 12 extends to the end of the part. Located diametrically opposite the slot 14 a narrow slot 16.

The reference numeral 18 denotes generally a curved or Deep-drawn spring ring, which is equipped with a handle part 20. This extends from an angled portion 21, diametrically opposite an outwardly projecting tab 22 is arranged. The ring 18 is made of elastic Material, such as spring steel, is made and is preformed in such a way that it is bent out of the plane. As in Fig. 1, the spring ring 18 is shown attached within the enlarged end of the part 10, the tab 22 of the Spring washer is received in the slot 16, while the handle part 20 is through the larger slot 14 extends outward. As mentioned earlier, the slot is 14 open at the end and thus allows the installation of the spring ring 18 in the enlarged end of part 10. An end cap 24 is more useful on the expanded part Manner, for example fastened by the fact that its edge 26 is rolled into an annular groove 28 is. The cap 24 closes the outer end of the slot 16 and thereby holds the Spring washer in the in F i g. 1 position shown. It can be seen that the lower half of the ring 18 of the shoulder 12 is closely adjacent, while the upper Section with the outer end of the part 10 includes an angle.

The inner bore of part 10 is tapered, as shown at 28, and the inner one of the mating parts 30, which may consist of a tube or plug commonly used between the nozzle and hose of a vacuum cleaner, is tapered accordingly End 32 provided. F i g. 5 shows the inner part 30 partially inserted into the outer part 10 . In this position the outer surface of the inner part 30 is in contact with the upper inclined portion of the spring ring 18. Movement of the part 30 to the right causes the upper portion of the spring ring to bend against the plane of the lower part thereof, whereby the inner diameter of the spring ring is expanded by a small amount, so that a movement of the inner part 30 is made possible in this direction. This movement can continue until the tapered end 32 is lodged in the tapered bore 28, as shown in FIG. 6 shows. It can be seen that when the two parts to be plugged together have assumed this position, the upper section of the spring ring 18 is bent against the plane of the lower section, the spring force of the ring tending to move the upper section into the position shown in FIG . 5 position shown. This results in substantial friction between the ring and the outer surface of the part 30 to be inserted. In an attempt to pull out the inner part, the friction between this and the upper section of the ring tends to pivot this upper section further out of the plane of the lower section, whereby the inner diameter is reduced and the clamping of the inner, inserted part is tightened and thus it is prevented from being pulled out.

In order to separate the two parts now, the handle 20 is in the F i g. 7 moves position shown in which the upper portion of the ring is essentially in the same plane as the lower section, so that the inner diameter of the ring is enlarged and the ring is the outer surface of the Part 30 releases. As long as the spring ring is held in this position, you can the two parts can be easily detached.

Although nested parts are usually cylindrical Form are, the applicability of the invention is not bound to this prerequisite. F i g. 8 shows a square spring ring 18 a, which is suitable for use when connecting nested parts of square cross-section are suitable.

The in Fig. 9 and 10 is the embodiment shown in F i g. 1 to 7 shown largely similar, but the handle 20a of the spring ring 18 as a bent piece of one provided on the upper part of the spring ring and in Lobe lying on the same plane formed, and the jacket of the cap 24a is with a slot 32 which corresponds to the slot 14 of the part 10 is provided. Furthermore The construction and operation of this embodiment are the same as in the previously described embodiment.

In the embodiment according to FIG. 11 and 17 is for unlocking of the spring washer a rotatable bridge is provided with a cam arranged on the end face. As shown here, the exterior of the mating parts 40 is in the shape of a Rohres and can, for. B. the opposite end of the tube 30 according to F i g. 5, 6 and be 7. This tube is provided with an enlarged end 42 that has two in the circumferential direction arranged slots 44 is equipped, as particularly from Fig. 11 and 12 can be seen. The extended end is also with two each other oppositely arranged openings 46 provided.

The spring ring 48 (see, in particular, FIGS. 13 and 14) is provided with two lugs 50 diametrically opposite one another. This ring is made of spring steel, as in the case of the previously discussed exemplary embodiments, and is bent in such a way that different sections of the ring lie in different planes. As in Fig. 16, the ring is installed in the enlarged end 42 of the link 40 in such a manner that the tabs 50 are received in the small openings 46. Due to the fact that different sections of the ring lie in different planes, the inner diameter of the ring is smaller than it would be if the ring were leveled or if its sections were placed in a common plane.

F i g. 15 shows a perspective view of an actuating device 52 which serves to level the ring in order to bring it out of engagement with the other part which is shown here in FIG. 16 and 17 is denoted by the reference numeral 54. The interior of the parts to be plugged together can be a second piece of pipe which corresponds to part 40 in all respects. As in Fig. 15 and 17, the sleeve 52 is provided with oppositely arranged cams 70 on which projections 56 sit, which engage in slots 44 in the enlarged end 42 of the part 40 in the radial direction. The sleeve is open at 59 so that during assembly of the parts, the sleeve can be compressed enough that the projections 56 can enter the enlarged end 42 until they are in register with the slots 44. A cap 60 is attached to the sleeve 52 by means of screws 62 or the like, which are inserted into the small bores 64 in the projections 56. As shown in FIG. 15, the edge 66 of the sleeve has a profile which generally corresponds to the shape of the spring ring 48 in the relaxed or bent state. In Fig. 16 the bushing is shown in the position in which the cams do not attempt to push the spring ring into the leveled position.

In other words: the spring ring engages the outer surface of the tube 54 and holds it against being pulled out of the tube 40. As shown, are the two tubes to be nested with one another with corresponding shoulders 28 that limit the distance by which the inner tube is inserted into the outer can be.

When the spring washer is to be loosened from the inner tube, the cap will 60 rotated so that the sleeve 52 limited one of the ends of the slot 44 Angle is rotated. This has the consequence that the cam 70 with the spring ring to Come into contact, level it or flatten it against a plane, as in Fig. 17 shown. This has an increase in the inner diameter of the ring Result, so that this releases the inserted tube 54 and this is now pulled out can be.

In the case of the one shown in FIG. 18 to 21 are illustrated embodiment two oppositely curved spring washers to clamp the inner one to be inserted Member provided. Because one of the spring washers causes movement of the inner link in one direction, while the other prevents it from moving in the opposite direction prevents the two parts in any one Position to be locked against relative movement in both directions, and a stop in the form of corresponding tapers or shoulders is not required.

In Fig. 18 is the outer part 40, which in turn is a tube for may be a vacuum cleaner, with an enlarged end 76 provided with two in the circumferential direction arranged slots 78 and with two diametrically opposite arranged openings 80 and 82 is provided, the openings 80 in axial Distance on one side of the slot 78 and the openings 82 at an axial distance are arranged on the other side of the slot.

F i g: 19 shows a two-sided effective sleeve 84, with diametrically oppositely arranged radial projections 86 is provided. This can is, as shown at 88, slotted so that it is around a. compressed enough measure can be that the projections 86 are inserted so far into the enlarged end 76 until they are in register with the slots 78 and into them enter. Each side 90 of the sleeve 84 has an edge similar to the edge 66 the in F i g. 15 shown sleeve 52 is provided.

Two spring washers 92 and 94 are arranged within the enlarged end 76. Each of these rings is the same as in FIG. 13 and 14, and each ring is provided with two tabs which are journalled in openings 80 and 82 , respectively. During the assembly of the parts, the one ring 94 is first brought into the position in which its lugs enter the openings 80 and the bent-out sections of the ring face the outer end of the tube 40. The sleeve 84 is then inserted and then the other spring ring 92 is inserted, but in the opposite position to the first, so that the bent-out sections are turned away from the outer end of the tube 40. A cap 96 is attached to the sleeve 84 by means of two screws 98 or the like, which engage in bores in the projections 86. In this manner, rotation of cap 96 with respect to tube 40 results in rotation of sleeve 84 which is limited by the arc over which slots 78 extend. If the parts are in the position shown in FIG. 20, the sleeve is rotated to the position in which the cams 90 press against the spring washers 92 and 94 so that they deform the various portions of each ring against a common plane, thereby increasing the inner diameter of each of the rings. In this position the inner part 54 can be inserted as far as desired, this distance being limited only by the length of the inner link, and this link can be moved freely in any direction.

F i g. 21 shows the sleeve 84 rotated so far that the spring washers 92 and 94 can take their normal scalloped position, in which the inner diameter each ring is diminished. In one attempt, the inner link 54 in the line of sight on F i g. Moving 21 to the right is the friction between this and the outer one Spring ring 92 strives to bend this even further. so that the inside diameter is even further reduced and consequently the clamping force exerted on the inner member is increased accordingly, with the result that the inner member is not in this Direction can be moved. On the other hand, in an attempt, the inner limb is pull out, the friction between this and the inner spring ring 94 endeavors, to increase the deflection of the latter and thus that exerted on the inner limb Increase clamping force. Accordingly, the inner limb is against movement in locked in both directions, and the links can be in any position can be locked without the need for shoulders or tapered surfaces.

To the. To separate links, the cap 96 is rotated in such a way that that the cams in FIG. 22 assume the position shown in which each of the Spring washers is pressed too flat against a plane and thus exposes the inner member 54. Accordingly, it is now possible to move this member in any direction.

Claims (9)

Claims: 1. Coupling for releasably holding two nested tubular members with one of the outer portion in a flared end loose held. locking ring with a clamping effect in an inclined position to the insertion axis, which can be switched manually by means of an actuating device into a locking one or an unlocked position can be moved, characterized in that the ring (18, 18a, 48, 92, 94) made of resilient material in the clamping position either bent along a center line to reduce its inner diameter or is arched, in the unlocked position, however, under the effect the actuating device (20, 52, 84) for Enlargement of his Inside diameter is flattened. 2. Coupling according to claim 1, characterized in that that the actuating device by one with the angled ring (18) from one Piece of existing handle part (20, 20a) is formed. 3. Coupling according to claim 1, characterized in that when using curved rings (48, 92, 94) the actuating device designed as a sleeve (52, 84) with cams (70, 90) provided on the end face and is rotatably mounted in the enlarged end (46, 76) of the outer part (40). 4th Coupling according to claim 3, characterized in that the widened end (46, 76) of the outer part (40) with a slot extending in the circumferential direction (44, 78) is provided and the sleeve (52, 84) has projections (56, 86) which extend through the slot and the sleeve in the widened end in the direction of rotation to lead. 5. Coupling according to claim 4, characterized in that a cap (60, 96), which is rotatably mounted on the outside of the widened end, over the projections (56, 86) of the sleeve (52, 84) is firmly connected to this. 6. Coupling according to one of claims 3 to 5, characterized by a second, in the widened one End (76) held arched locking ring (92 or 94), the curvature of the of the first locking ring (94 or 92) is directed in the opposite direction. 7. Coupling according to claim 6, characterized in that the sleeve (84) for simultaneous Unlocking both rings (92, 94) is provided on both sides with cams (90). B. Coupling according to one of Claims 1 to 7, characterized in that for limiting the distance by which the inner part can be inserted into the outer part, in a manner known per se, complementary tapers on the inside of the outer one Part (10) and on the outside of the inner part (30) are provided. 9. Coupling according to one of claims 1 to 7, characterized in that to limit the Distance the inner part (54) is tucked into the outer part (40) can, in a known manner, a shoulder (68) on one of the nested Parts (40, 54) is provided. Publications considered: German patent specification No. 387 688; German utility model No. 1687 475; French patent specification No. 1114117; U.S. Patent Nos. 2,483,395, 2,090,550, 2200,712, 1447,519.