CH650708A5 - BLIND RIVET DEVICE. - Google Patents

Abstract

1. Blind riveting device having a support (3) resting on the hollow rivet (37) and a jaw part (9) which, by means of automatic clamping jaws (15), grips on the rivet (32) provided with an upset head (41), which jaw part (9) is retractably guided out of its initial position supported on the support (3), with a jaw device (21) and a return device (11) being provided for the jaw part (9), with the clamping jaws (15), in the initial position of the jaw part (9), resting on a stop (6) and at the same time being driven back out of their active position, characterised in that a displacement space (19) of a piston (9) connected to the jaw part (9) is in communication with a space (12) provided on the rear of the clamping jaws (15), with the displacement space (19) and the ejection space (12) being designed in such a way that, when the jaw part (9) is returned, a highly compressed air cushion is formed in the said spaces, which air cushion shoots the rivet shank (33) outwards when the clamping jaws (15) become non-active.

Description

The invention relates to a blind riveting tool with a support resting on the hollow rivet and a pulling part which engages by means of automatic clamping jaws on the rivet pin provided with a compression head and which is retractably guided from its starting position which is supported on the support, a pulling device and a backing device being provided for the pulling part are.

In blind riveting devices of this type, the hollow rivet, which is provided with a rivet head at its end and surrounds the shank of the rivet pin, is inserted into aligned holes in the parts to be connected, usually made of sheet metal; then, by means of the device resting on the rivet head with its support, the rivet pin is pulled, the upsetting head of which widens the other end of the hollow rivet and deforms it into a second rivet head. The rivet pin with the compression head can be pulled out of the hollow rivet. In other designs, the shaft of the rivet pin is provided with a predetermined breaking point, so that part of the rivet pin remains in the hollow rivet and at the end of the operation there is only a stub of the shaft of the rivet pin between the clamping jaws. In any case, the rivet pin carried or held by the clamping jaws or its stub must be removed in order to allow the insertion of the rivet pin of a further blind rivet between the clamping jaws.

The present invention has for its object to provide a blind riveting device in which the condition required for the insertion of a new blind rivet is given after completion of a riveting process without manual intervention. In the broadest sense, this means that the device parts assume their starting position; in the narrower sense, the rivet pin carried by the clamping jaws or the stub of this pin should also be ejected. This object is achieved with the features stated in the characterizing part of claim 1. In fact, thanks to this arrangement, a compressed air cushion is created in the space on the back of the clamping jaws when the drawn part is returned to its starting position, by means of which, as soon as the drawn part reaches its starting position and the clamping jaws are pushed back out of their operative position, the rivet pin or the stub the rivet pin is ejected.

An embodiment of the subject of the invention is shown schematically in the accompanying drawing. It shows:

FIG. 1 shows the front part of a blind riveting device which is decisive in the present context, in axial section, the device parts being in their starting position;

Figure 2 shows the device according to Figure 1, but the device parts are in their position at the beginning of the riveting process and

Figure 3 shows the device after completion of the riveting process before the support returns to its original position.

In the illustrated embodiment, the housing of the electric drive motor, not shown, has a cylindrical extension 1, in which a cylindrical sleeve

2 of the support designated 3 in total is guided in a longitudinally displaceable manner. Under the action of a first return spring 4, the sleeve 2 is supported at 5 with its deposition on a shoulder of the extension 1. The support

3 has a support head 14 in the form of a hollow cone, which is firmly connected to the sleeve 2. The front end of the support head 14 is formed by a guide piece 6 designed in the manner of a cap screw with an axially extending guide channel 7. The latter serves to receive the rivet pin 32, the shaft 33 of which is inserted into the channel 7 from the front and has a predetermined breaking point at 34. The guide piece 6 is preferably made of magnetic material to give the blind rivet a temporary hold.

In the sleeve 2 of the support 3, the cylindrical shaft 8 of an overall drawing piston 9 is guided. This has a conical piston head 10, which rests in the drawn starting position of the drawing piston 9 according to FIG. 1 under the action of a second return spring 11 on the inner wall of the support head 14, the drawing piston 9 being supported on the support 3. A spring chamber 12 extends through the piston head 10 and ends in the direction of the channel 7 at 13 in an inner cone. In the same clamping jaws 15 are arranged, which together form an extension of the channel 7 and act on the shaft 33 of the rivet pin 32 under the action of a spring 16 and the cone 13 located in the spring chamber. In the illustrated starting position of the drawing piston 9, however, the clamping jaws 15 are supported on the guide piece 6, being somewhat pushed back against the action of the spring 16, so that the shaft of the rivet pin is not held firmly by the jaws 15. The Touch2-

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surfaces of the jaws 15 with the guide piece 6 can be concave / convex, so that the jaws can not only be axially pushed back but also radially apart. Thanks to these precautions, the shank of the rivet pin can be inserted easily, but also - as will be explained later - can be easily pulled out or thrown out, namely after the magnetic holding force has been overcome. In this context, radial bores 17 (only one is shown) play a role, which connect the spring chamber, which is closed at its rear end by a screw 18 in an airtight manner, to the cavity 19 (see also FIG. 3) which lies in front of the drawing piston 9 when it is withdrawn from its starting position. The drawing piston 9 has an axial bore 19 in which a slide 20 is guided, which is located at the end of a threaded spindle 21. However, the thread 22 begins at a distance from the slider 20 and extends up to an oblique shoulder 23. A threaded nut segment 24 provided with a corresponding internal thread is located in a radially displaceable manner in an inner bore 25 of the shaft 8 of the drawing piston 9. The arrangement is made in this way that in the illustrated starting position of the parts explained so far (FIG. 1), the threaded segment 24 of the threaded spindle 21 is upstream and is supported radially outward on the inner surface of the sleeve 2. The segment 24 is held against a movement 25 radially inwards by means of a locking ball 26, which is under the action of a spring 27. The segment 24 is radially centered so that it can be brought into engagement with the thread of the spindle 21 against the force of the spring 11 when the support 3 is moved. At its end comprising the spindle 21, however, the sleeve 2 has an extension 28. If the segment 24 comes into the region of this extension, it can be displaced radially outward to such an extent that it disengages from the thread of the spindle 21. The longitudinal displaceability of the sleeve 2 is limited by mutually interacting stops 29 and 30 of the support on the one hand and the extension 1 on the other. A wedge arrangement indicated at 31 enables the sleeve 2 or the pulling piston 9 to be displaced, but ensures that these parts cannot rotate. A further wedge arrangement 35 prevents the nut segment 24 from rotating about its own axis without preventing its radial displacement.

To connect two sheet metal parts 38 and 39 with the aid of a blind rivet 36, which consists of a hollow rivet 37 and the rivet pin 32, the shaft 33 of the rivet pin 32 is first inserted into the guide channel 7 of the guide piece 6 and then the hollow rivet 37 is joined together aligned holes of the sheet metal parts 38 and 39 inserted until the rivet head 40 is pressed by the guide part 6 against the sheet metal part 39. By pushing the device further towards the sheet metal parts, the sleeve 2 of the support 3 is pushed into the extension 1 as far as the stops 29 and 30 allow. The thread segment 24 of the support 3 comes into engagement - as can be seen in FIG. 2 - with the thread 22 of the motor-driven spindle 21, so that the drawing piston 9 is pulled away from the support which is in its stop position. First, the clamping jaws 15 stand out from the guide piece 6, so that they firmly grip the shaft 33 of the rivet pin 32 under the action of the inner cone 13. When the drawing piston 9 is forced to move further by the spindle 21, the rivet pin is also pulled. The threaded segment 24 is supported radially outward on the inner wall of the sleeve 2, which accordingly forms a regulation for the threaded segment 24 in the region of the drawing path. To relieve this locking, however, the spindle 21 is equipped with a saw thread, the thread flanks essentially perpendicular to the axis facing the drive motor, so that no or no significant radial force component is effective on the segment 24.

When the rivet pin 32 is pulled back, the end of the hollow rivet 37 is widened by its upsetting head 41 and deformed into a second rivet head 42. As soon as this has happened, the predetermined breaking point 34 yields and the drawing piston can now be pulled back by the spindle without resistance until the segment 24 runs up against the inclined surface 23 of the spindle. Even if at this point in time the tool, as shown in FIG. 3, is still pressed against the sheet metal parts 38/39 and the support 3 is held in its stop position, the segment 24 is already in the area of the extension 28, so that it passes through the inclined surface 23 can be pressed radially outwards and can therefore be disengaged from the thread 22. As soon as this has happened, the spring 11 can push the drawing piston 9 back into the support 3 until the piston head 10 rests on the support head 14. In practice, however, after the rivet pin has been torn off, the tool will hardly continue to be pressed against the sheet metal parts 38/39, especially since the spring 4 tries to push the sleeve 2 of the support out of the extension 1. The support thus reaches its starting position shown in FIG. 1 before the drawing piston 9 is uncoupled from the spindle 21 under the action of the inclined surface 23. This leads to a further increase in the cavity 19 which arises in front of the piston head 10 of the drawing piston during its retraction. The air in this cavity is displaced by the drawing piston 9 during its movement under the action of the spring 11, in part by the radial one Bores 17 into the spring chamber 12. There is thus - especially after the torn shank 33 of the rivet pin enters the guide channel 7 and prevents further flow of air through this channel - a highly compressed air cushion which shoots the shaft 33 through the channel 7. as soon as the clamping jaws 15 striking the guide piece 6 and thereby pushed back by the inner cone 13 release the torn shaft 33.

Briefly summarized, the following phases result:

The blind rivet is inserted into the device and - if necessary - held by the magnetic force of the guide piece;

The blind rivet is inserted into the holes of the parts to be connected to one another and the device is pressed against these parts, the support reaching its stop position and the pulling piston being coupled to the spindle and being pulled away from the support;

The threaded segment of the drawing piston is locked in the area of the drawing section, after which the latter is decoupled from the spindle;

The drawing piston returns to its starting position, which is supported on the support.

It is irrelevant whether the shaft of the rivet pin has a predetermined breaking point or whether the upsetting head is pulled through the hollow rivet. In any case, the blind rivet is set in the manner described above and the rest of the rivet pin or the rivet pin is ejected after the riveting process.

The extension 28 ends in an inclined shoulder 43, the threaded segment 24 having a corresponding bevel 25. As a result, the threaded segment is pushed back into its locking position determined by the ball 26 when the drawing piston 9 is returned to its starting position by the spring 11.

3 sheets of drawings

Claims (6)

650 708 PATENT CLAIMS 1. Blind riveting tool with a support resting on the hollow rivet and a pulling part engaging by means of automatic clamping jaws on the rivet pin provided with a compression head, which is retractably guided from its starting position supported on the support, a pulling device and a backing device being provided for the pulling part characterized in that the displacement space (19) of a piston coupled to the drawing part (9) communicates with a space (12) provided on the back of the clamping jaws (15), the clamping jaws (15) in the starting position of the drawing part (9) rest on a stop (6) and are pushed back from their active position. 2. Blind riveting tool according to claim 1, characterized in that the pulling part (9) is designed as a piston guided in a bore (19) of the support (3) which has a connection (17) from its end face to which the clamping jaws (15) receive Has space (19). 3. Blind riveting device according to claim 2, characterized in that the support (3) has a sleeve (2) in which the drawing piston (9) is arranged and which in turn can be moved in the pulling direction against the action of a first return spring (4) into a stop position The pulling piston (9) can be coupled to its traction drive (21) by moving the support (3) and means (23) are provided for uncoupling the pulling piston (9) at the end of the pulling section and for resetting it to its starting position. 4. Blind riveting tool according to claim 3, characterized in that the drawing piston has a radially movably guided threaded nut segment (24) which is supported in the starting position of the drawing piston (9) on the wall of the sleeve (2) and at a distance from a threaded spindle (21 ) and can be brought into engagement with it by moving the support (3), the sleeve (2) having an extension (28) which, when the support (3) is in the stop position, in the region of one following the thread (20) arranged inclined shoulder (23) of the spindle (21). 5. Blind riveting device according to claim 4, characterized in that the drawing piston (9) has a second return spring (11) and that the extension (28) has an oblique transition (43) for drilling the sleeve (2). 6. Blind riveting device according to one of claims 1 to 5, characterized in that the clamping jaws (15) is a guide part (6) upstream of magnetic material.