DE3710829A1 - Device for assembling sealing rings - Google Patents

Abstract

Published without abstract.

Description

The invention relates to a device for introducing flexible rings, especially sealing rings, in the groove of Workpieces.

In machines, apparatus, but especially fittings, venti len and the like are often sealed axes or shafts required, and offer themselves as relatively simple seals O-rings on. However, it has been shown that such you ring for inserting them in the groove provided for them a considerable manual dexterity that also with There is considerable skill in this input gene is undesirably time-consuming, and shows as disadvantageous the danger of damage caused by manipulation the O-ring to be inserted. It therefore got there early Attempts have been made to introduce such flexible rings in grooves provided for them by appropriate devices accelerate and simplify without the ge wanted to achieve success.

The invention is therefore based on the task of a simple, easy-to-use and reliable working device too create that allows flexible rings quickly, safely and without damage in the grooves of work intended for them to bring in pieces, and which are both in manufacturing  use streets or at fixed locations leaves as well the possibility of simple manual handling allows.

This task is solved by a frame, which is an essay is upstream, which has a bore, the radius of which corresponds to the bore with the groove to be fitted; the attachment limits one with an insertion opening for Cylindrical chamber equipped rings, the radius of which the Bore exceeds and the outer diameter of the flexible Ring is adapted: this chamber is parallel to the axis Bore and arranged offset against this in such a way that one point surface lines of the bore and the chamber inside lie half of a common straight line; in a guide opening The frame is coaxial with the slide a slide which leads a thorn on the front, facing the bore has reduced diameter, from which a back up to one shoulder of the slider ramps up extends to the straight line of the generatrix. This will created a chamber, in each of which a flexible ring is easy to insert, if necessary. can also be fed by machine, and the slider is able to pass through this chamber be that he with his outstretched thorn low Ab measurements is able to penetrate the ring, which then slide the slide further in using the rampenar back against his shoulder, which is the takes the gripped end of the ring when it is pushed forward until after further advancement the shoulder reaches the groove and enter the advanced end of the ring into the groove can To ensure a safe insertion of the flexible ring it is enough to get the ring in the starting position retracted slider into the chamber and one trigger the complete slide cycle of the slide.

Appropriate and advantageous developments of the invention can be found in the subclaims.  

In detail, the features of the invention with reference to fol ing description of an embodiment and this drawings showing individual work functions explained. They show:

Fig. 1 in a longitudinal section of a device used to install gen flexible rings in their initial position after insertion of a ring to be introduced,

Fig. 2 to 6 canceled in the same representation aufeinan derfolgende working phases,

Fig. 7 is a workpiece equipped with an O-ring, and

Fig. 8 in broken longitudinal section, another device for inserting O-rings in offset or blind holes.

In Fig. 1, a substantially longitudinal section, a device for introducing O-rings is shown. A designed as a pressure medium cylinder handpiece 1 is connected by means of a screw 2 with a longitudinally sectioned frame 3 , and the piston rod 4 of the pressure medium cylinder engages in a longitudinally through the frame 3 he extending guide opening 24 and is by means of a pin 5 with one in this Guide opening connected longitudinally displaceable slide 6 . The slider has a slot 7 in its vertical center plane, and in this slot, pivotably held by a pin 8 , a rocker 9 designed as a two-armed lever is provided. An opening directed transversely to the guide opening 24 guides a bolt 10 , the lower end of which rests on the left lever arm of the rocker 9 , and the upper end of which is acted upon by a leaf spring 11 screwed to the frame 3 , and the left lever arm downwards against a cut-off of the Bottom of the slot 7 presses.

The frame 3 is connected to a flange 12 of an attachment 13 which is equipped with a bore 14 which is expediently designed with the same diameter as the bore of the component 15 which has the groove 16 to be fitted with the O-ring. The attachment 13 simultaneously delimits a chamber 17 which is essentially cylindrical with a diameter which corresponds to the outer diameter of the O-ring 19 to be inserted. This chamber lies with a line shown in the drawing plane above in a common straight line with the corresponding surface line of the bore 14 of the attachment 13 and, in the set state, with the bore of the dash-dotted line, component to be fitted. At the bottom, the chamber has an opening which allows the O-ring 19 to be inserted. In front of the chamber is the nose 18 of the slide 6 , which connects the two halves of the slide divided by the slot under the bridge, as well as its recessed lower part and the coupling area receiving the end of the piston rod 4 . The nose 18 here forms the end face of a front part of the slide bers 6 forming mandrel 20 , the divided back 21 rises to a shoulder 22 so that a trough 25 formed between the back and shoulder can take up and support the bulge of the O-ring ; laterally, the shoulder is rounded off into rearward / downward shoulders, which in turn end in the end face 23 of the continuous lower part of the slide 6 .

In the exemplary embodiment, the attachment of the device is made easier by the fact that the workpiece has an opening which is concentric with its equipping bore and which is adapted to the attachment 13 and is capable of receiving it centering. The conical taper of the free end of the attachment facilitates insertion.

Is shown in FIG. 1, the slider 6 withdrawn by means of the provided in the handpiece 1 pressure medium cylinder and the chamber 17 equipped with an O-ring 19, so the insertion of the O-ring may be in the workpiece, the device 15, begin.

In the first feed phase according to FIG. 2, the slide 6 is advanced by means of the piston rod 4 . Here, the mandrel 20 engages the O-ring 19 , and its upper portion slides over the back 21 into the shoulder 22 vorgeordne th trough 25 and is taken along by the shoulder to the left, while the lower portion of the O-ring 19 still remains in chamber 17 .

After further advancement of FIG. 3, the lower cut from the O-ring has been pulled over its rounded limiting abge out of the chamber and is now close to the lower end face 23 of the slider 6. The O-ring can be found, obliquely elongated, z. T. in the bore 14 of the attachment 13 , and on the other hand already in the bore of the component 15th When sliding forward, the pin 8 holding the rocker 9 has now passed the spring-loaded bolt 10 . The biasing force of the spring thus now acts on the lever arm of the rocker 9 shown on the right, so that this pretensioning moment is now reversed and increases with further advancement of the slide.

After advancing further, the position according to Fig. 4 it is sufficient. The advanced upper portion of the O-ring 19 has reached the groove 16 to be fitted and is, not only by the ramp-like rising back 21 of the mandrel 20 , but essentially has been pressed into the groove by means of the rocker 9 biased by the leaf spring 11 .

Upon further advancement of FIG. 5, the end surface 23 has now reached the lower portion of the O-ring and pushes it against further so that the O-ring is inlaying with increas ingly further sections in the groove 16. Supporting effect here is that at this end face transverse to the plane of the drawing, provided laterally on the mandrel 20 , inclined lugs connect, so that the insertion of the O-ring actually takes place continuously, starting from its upper section according to FIG. 4, until according to Fig . 6 and 7 the insertion of the O-ring 19 in the groove 16 is completed. If the arrangement is not precisely adjusted with regard to its stroke, the stroke may possibly. continue blindly. In any case, the useful stroke has now ended, and for the preparation of another working cycle, the slide 6 can be returned to the starting position shown in FIG. 1, in which the mandrel 20 has completely left the chamber 17 , so that another O-ring 19 can be introduced into this from below.

The invention is capable of a large number of variants. In particular, the device can be part of larger devices, but it is also possible to create it as a closed single tool that is capable of any handling. There are also various options for adapting the device to a workpiece. Thus, projections of the same can be overlapped, and with a device designed according to FIG. 8, for example, O-rings can be inserted into bores that narrow shortly behind the groove receiving the O-ring or that end shortly after the groove as a blind hole .

In Fig. 8 is broken a device provided as Antriebsvorrich device pressure medium cylinder shown, which engages with a screw 2 in the frame 3 . With the piston rod 4 is in the guide opening 24 of the frame 3 axially displaceable body 26 verbun the, which in turn has the slide 26 in a sliding guide. The slide 6 is supported via a helical spring 27 against an attachment of the body 26 ; the path of the slide is limited by a cross-extending guide pin 28 which is displaceable in an elongated hole 29 of the body 26 and an elongated hole 30 of the frame 3 . As in the already described embodiment of FIGS. 1 to 6, the slide 6 has a slot 7 in which a rocker 9 is held pivotably about an axis. The rocker is biased here by a screwed to the frame 3 spring housing 31 , in which a spring bolt biased by a coil spring 32 is displaceable, the free end of which is supported against the rocker 9 .

Here too, the device is applied by inserting the attachment 13 into a bore in a workpiece, expediently after the O-ring to be inserted is inserted into the device. When the drive device is triggered, the body 26 and, supported by the helical spring 27 , the slider 6 are pushed forward. Here he grips the free front end of the rocker and pushes the lower area of the O-ring to be inserted, while the upper end lies against the upper area of the body 26 . If the axis 8 passes the spring bolt 32 , the rocker tilts over and tries to insert the O-ring into the groove that receives it.

Up to now, under the action of the helical spring 27 of the slide 6 by means of its guide pin 28 on the limit of the slot 29 shown on the right. If the rocker strikes with its front edge against an inhibiting wall, be it an approach formed by a narrowing of the bore in the groove or the bottom of a blind hole, the slide and rocker no longer take part in the further advance, and the lower section of the O-Rin ges is already inserted in the groove that receives it. However, the slot 30 is expediently designed such that the slider is stopped shortly before reaching the base or the bottom of the bore by the lower end of the guide pin 28 laying against the limit shown on the right of the slot 30 of the frame 3 . In any case, only the body 26 takes part in the further movement of the piston rod 4 , which still pushes the upper sections of the O-ring into the groove receiving it. Here, the standing guide pin 28 moves within the sliding slot 29 while compressing the coil spring 27 . Due to the subdivision into body and slide and the compressible connection, O-rings can also be inserted in the grooves of bores, the depth and / or diameter of which is limited.

Finally, there is also the possibility of the device without using form-fitting elements that adjust their position the one for which a careful approach is required. Furthermore, a drive can be coupled to a third party driven as well as by an electric Li near a gearbox, for example an electric motor that uses spin del and spindle nut the rotary drive in a linear stroke changes. However, pressure medium cylinders have proven themselves are pneumatically or hydraulically operable, and that it allow to separate means limiting the stroke dispense.

Claims (12)

1. Device for introducing flexible rings, in particular special sealing rings, in the groove of workpieces, characterized in that
that a frame ( 3 ) has a bore ( 14 ) having an attachment ( 13 ) which limits a cylindrical opening ( 17 ) equipped with an insertion opening for rings ( 19 ), the radius of which exceeds that of the bore ( 14 ), and which is arranged parallel to one another and offset against it in such a way that surface lines of the bore and the chamber lie within a common straight line at one point, and that in a guide opening ( 24 ) of the frame ( 3 ) coaxial with the bore ( 14 ) a slide ( 6 ) is guided, which, facing the bore, has a mandrel ( 20 ), from which a back ( 21 ) to a shoulder ( 22 ) rises like a ram, which extends to the straight lines of the jacket. 2. Device according to claim 1, characterized in that the slide ( 6 ) in its straight line of the coat lines having the central plane has a slot ( 7 ) in which a two-armed lever (rocker 9 ) is pivotally mounted, at least in the End position of the slide can be pretensioned. 3. Apparatus according to claim 2, characterized in that the shoulder ( 22 ) is preceded by a trough ( 25 ). 4. Apparatus according to claim 2 or 3, characterized in that a the two-armed lever (rocker 9 ) biasing spring ( 11 ) is arranged so that when the slide ( 6 ) the point of application of the spring passes over the pivot axis of the two-armed lever. 5. Device according to one of claims 2 to 4, characterized by a leaf spring ( 11 ) which rests on a head surface of a transverse to the slide ( 6 ) in the frame ( 3 ) guided pin ( 10 ), the other end of which rests on the lever ( Rocker 9 ) supports. 6. Device according to one of claims 2 to 4, characterized by a housing ( 31 ) in which a spring bolt ( 32 ) which is biased by a helical spring is guided. 7. Device according to one of claims 1 to 6, characterized in that the slide ( 6 ) on its shoulder ( 22 ) facing away abge against this in the feed direction to reset and opposite end face ( 23 ). 8. Device according to one of claims 1 to 7, characterized in that the frame ( 3 ) is connected to a drive device for the slide ( 6 ). 9. The device according to claim 8, characterized in that the frame ( 3 ) is connected to an electric linear gear or a pressure cylinder. 10. Device according to one of claims 1 to 9, characterized in that the shoulder ( 22 ) and the end face ( 23 ) are connected to one another by obliquely extending and merging shoulders of the slide ( 6 ). 11. Device according to one of claims 1 to 10, characterized in that the bore ( 14 ) rounded in the chamber ( 17 ) goes over. 12. The device according to one of claims 1 to 11, characterized in that the drive device with a in the guide opening ( 24 ) of the frame ( 3 ) displaceable body ( 26 ) is connected, the back with the O-rings ( 19 ) ( 21 ) and shoulder ( 22 ) and which is axially displaceable in a sliding guide, the slide ( 6 ), that the slide is biased against the body by means of a spring ( 27 ), and that the slide makes its way towards the body and / or has positive elements delimiting the frame (guide pin 28 , elongated hole 29 , 30 ).