DE3246625A1 - Hollow rivet - Google Patents

Abstract

A hollow or blind rivet, which consists of an axial hollow shaft, a conical, annular rivet head for forcible engagement in a countersunk hole in the workpiece, and a mandrel, which can be pulled back from the accessible side of the workpiece, has, in order to improve the long-term strength of the rivetted joint and the clamping forces produced by means of the rivet, a design of the rivet head having an annular end surface, a first region, which tapers conically forwards and is arranged in front of the end surface for forcible engagement with the countersunk hole in the workpiece, and a second region, which tapers conically forwards and is arranged in front of the first conical region, the cone angle of the first conical region being approximately 2 DEG to 15 DEG , and being essentially smaller than the cone angle of the second conical region. In this case, the rivet head interacts with the workpiece in order to form an anchorage which contributes to maintaining an essentially vertical position of the rivet with respect to the workpiece and to the clamping forces.

Description

Hollow rivet

The invention relates to a hollow rivet, and relates more particularly to on a hollow or blind rivet connection on a workpiece that has excellent corrosion resistance and ensures high shear strength of the workpiece walls.

The use of the known rivets of the specified type, at where the excess exposed area of the mandrel can be cut off after the expansion process is recommended not in all cases, as a large diameter of the rivet head requires large holes in the workpiece.

In addition, in most cases a very large recess will be used in the rivet heads for attaching a tool to hold the rivet head and the hollow shaft against Co-rotation used while the mandrel is being withdrawn while rotating.

Furthermore, known blind rivets have a tendency to loosen due to vibrations and to deviate from their predetermined position Kit the consequence of reduced durability and destruction the sealing engagement between the rivet head and the countersunk hole, so that corrosive media gain access to the interfaces and the connection is destroyed.

Furthermore, the known blind rivets are generally not used for original riveting in the case of shear stress

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thinner walls, as the required rivet head heights are too Lead counterbores that are close to the knife edge condition and reduce the shear stress area, resulting in less Fatigue strength and loosening of the rivet leads. 5

The object of the invention is to provide a tubular rivet and a tubular rivet-workpiece connection to create a remedy for the above problems and difficulties.

This object is achieved according to the invention by an embodiment of the rivet according to claim 1.

The invention allows crrunds etch borrowed the use of a Hollow or blind rivet that does not require too much of the workpiece or wall material to be removed to accommodate the rivet head, so that neither the fatigue strength nor the shear strength are endangered.

As a result, the less drilling out of the workpiece to accommodate the blind rivet head reduces the overall diameter of the Counterbore, which avoids undesirable weakening of the workpiece. In addition, the press engagement generates radial compression and circumferential tension between the first conical rivet head area and the workpiece, which and increase the shear strength of the workpiece and prevent loosening or loosening of the connection by radially surrounding the mandrel and reduce the risk of the rivet changing position. Such a press engagement is the access counteracts corrosive media between the workpiece and rivet head and strengthens the connection between rivet and workpiece. Such rivets can be used both as original and replacement rivets.

Further advantages are that the first rivet head area in such a big one. Forced engagement with the countersunk hole, that a clamping force is generated which prevents the rivet head from rotating while the mandrel is rotating.

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Further features and advantages of the invention emerge from the subclaims and the description below in Connection with the drawing, in which several embodiments of the object of the invention are schematically illustrated are. In the drawing show:

Fig.1 is a partially sectioned side view of a

blind rivets according to the invention after their partial insertion into a bore of a workpiece arrangement, • JO Pig.2 a view corresponding to FIG. 1, but at

fully inserted rivet,
Fig. 3 is a partially sectioned side view of a

modified blind rivet according to the invention and FIG. 4 a partially sectioned view of the rivet according to FIG. 3 after insertion into a workpiece

drilling.

The hollow rivet 10 illustrated in FIGS. 1 and 2 has a hollow shaft 11 which extends in the axial direction and which is shown in FIG Bores 12 and 13 can be used from each other to connecting workpiece sheets or walls 14 and 15 formed are. The rivet also has an annular head 16 which forcibly engages the workpiece material, the one generally at 17 indicated conical countersunk hole forms, can be transferred and is sunk in the usual way. The rivet can e.g. be made of metal, such as alloy steel, aluminum or titanium, of aluminum or titanium alloys or of Monelmetall exist. The workpiece, such as the outer skin of an aircraft, can also be made of metal such as aluminum or titanium or aluminum or titanium alloys or other light metal alloys.

The rivet head 16 has an end surface 18, a first after front conically tapering area 19, which is arranged immediately in front of the end surface, and a second forward conically tapering area 20, which is arranged in front of the first area. The cone angle B of the second area exceeds

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increases the cone angle A of the first region considerably, such that when the shaft of FIG the workpiece bore inserted and the rear "rivet head surface" receives an impact or pressure is exerted on this, the rivet head the seat illustrated in FIG. 2 receives.

A hollow impact tool for impacting the rivet head is shown generally at 24. The rivet can be constructed that way

TO be that he after one or more by the impact tool exerted blows gets its full seat illustrated in FIG. 2, eliminating the need for a repeated application of the head is omitted and the Noise at the installation site is largely reduced. The hollow shaft 11 typically comprises an elongated main portion 11a in front of the rivet head region 20 and one End area 11b in front of the main section 11a, which extends to the front is tapered conically and is used to the rear ■ part 50a of a ring 50 for holding the rivet in the position shown in Fig.

illustrated workpiece connection position to expand radially outward.

In order to achieve the best possible results and with regard to the rivet, the cone angles A and C are typically approximately the same and can be about 2 ° to 15 °. If the angle A is approximately 2 °, the length L of the rivet head region is 19 about 3.5 mm (0.140 "). At an angle A of about 15 °, the length L is about 0.25 mm (0.010") (i.e. the smaller the angle A, the greater the length L), and these two coordinates (2 ° and 3.5 mm or 15 ° and 0.25 mm) form a line in one right-angled coordinate system that relates L to A.

According to FIG. 2, the rivet head region 19 is also in press engagement over its entire length with the counterbore surface 22, the total amount of such press engagement being within a range of about 0.025 mm (0.001 ") to 0.25 ram

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(0.010 ") is located. The main portion 11a of the rivet shaft can thereby communicate with the bores 12 and 13 in compressive engagement, the Gesaratbetrag accordingly within a range of about 0 to 0.20 mm (0 to 0.008 inches typically" is located).

The rivet according to FIG. 1 further comprises a mandrel 30 which extends through the hollow shaft and the rivet head. The mandrel is provided with an external thread 31 which is threadedly engaged with an internal thread 32 of the hollow shaft, whereby the mandrel is retractable as it rotates with respect to the hollow shaft after the rivet head has assumed its seat illustrated in Fig. 2, which seat causes a clamping lock that prevents rotation of the rivet head and the rivet shank. A device is also provided which, as a result of the retraction of the mandrel, expands at the protruding end of the rivet in order to hold the rivet in its position in the axial direction with the rivet head section 19 fixed in the bore 22 by clamping engagement. Here, the clamping lock at 22 prevents the rivet head and the rivet shank from rotating when a torque is applied to the mandrel to retract it and to expand the ring 50 radially Completed connection.

In some cases there is a holding device in the rivet head, e.g. a Kreuzschiitz recess, illustrated at 16a, is provided, to counteract rotation. The required size of the recess is, however, in view of the Clamp lock at 22 largely reduced, which reinforces the rivet head. In addition, the rivet head diameter be reduced.

The end of the mandrel facing away from the rivet head carries a flange 34 which forms an annular shoulder 34a. When withdrawing of the mandrel, the annular shoulder 34a displaces the ring 50 to and over the cam surface 11b of the rivet shank, to expand the ring 50 according to FIG. Here is the

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The outer diameter of the shoulder 34a is smaller than the outer diameter of the riveting area 19. The arrow 36 shows the drawing-in direction of the mandrel which is gripped at its threaded end 30a of reduced diameter.

The three load-bearing surfaces (at 12 and 13 as well as at 22) cause the rivet to be substantially perpendicular to the workpiece when the latter is subjected to shear stress is to withstand such shear stress-TO hold shut and maintain the riveted connection.

In the rivet 60 according to FIGS. 3 and 4, the structure of the ring head 61 is the same as in FIGS. 1 and 2. The rivet head and bore parts are therefore provided with the same reference numerals as in FIGS. Also the seat of the rivet head area 19 in the conical counterbore 22 is identical to that described above.

In this embodiment, neither the area 62 & of the mandrel 62 lying within the hollow shaft 63 nor the bore of the hollow shaft is provided with a thread. The expandable device consists of a thinner-walled end part 63a of the hollow shaft, FIG. 4 illustrating this part in a curved and expanded state in order to fix the rivet in its axial position. The curved portion 63a engages the workpiece surface 15a, as is the case in Fig. 2 with the expanded ring portion 50a. A flange 64 provided on the mandrel 62 has a shoulder 64a, which can be brought into engagement with the shaft end part 63a, in order to compress the latter when the mandrel is drawn in axially towards the rear with respect to the shaft. A locking ring 66 is deformed and wedged between a groove 67 on the mandrel and a tapered rivet head bore 68 to lock the mandrel to the rivet. Thus, the locking ring 66 assists the clamping lock at 22 and the latter in turn assists the locking of the locking ring 66.

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The construction of hollow or blind rivets described solves the problems with regard to loosening or loosening and a low fatigue strength of using such Rivets interconnected workpieces by blind rivets are provided with a rivet head that with the Workpiece cooperates to form an anchorage that contributes to maintaining an essentially vertical position of the rivet to the workpiece and the clamping forces,

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Claims (5)

* ■ Patent attorneys Dipl.-Ing. Dr iur V Busse Dipl.-Ing. Dietrich Busse FRANKLIN S. BRILES Dipl.-Ing. Egon Bünemann D 4500, Osnabrück Del Mai "GroBhaneJelsring 6 Post.'acf i ?? fc \ Fernsprecher (0541) 586081 υ 586 082 92 625 telegrams paigewar osnauruck U.S.A. 15 Dec. 1982 L / Hä Patent claims: 1. ) Hollow rivet, consisting of an axial hollow shaft for receiving in a workpiece bore, a conical, ring-shaped rivet head for a forced engagement in a counterbore of the workpiece and a mandrel, which is on the accessible side of the workpiece for expanding a device on the inaccessible side of the workpiece and is retractable to secure the rivet axially, characterized in that the rivet head (16) has an annular end surface (18), a first area (19) which tapers towards the front TO in front of the end face for forced engagement with the counterbore (22) of the workpiece is arranged, and a second conically tapering towards the front, in front of the first conical region arranged area (20) and that the cone angle of the first conical area (19) is about 2 ° to 15 ° and much smaller than the cone angle of the second conical Area (20) is. 2. hollow rivet according to claim 1, characterized in that the axial length of the first conical region (19) of the rivet head (16) is approximately 3.5 mm to 0.25 mm and within this length range with a decrease in the cone angle within of the specified angular range increases and that the axial length of the first conical region (19) of the Niäkopfes in their entirety a radial distance outwards from the second conical area (20) of the rivet head and from the mandrel (30; 63) occupies. BATH 3. Hollow rivet according to claim 1 or 2, characterized in that the mandrel (30) is withdrawn for application a torque on the rivet head and shaft is rotatable and a flange shoulder (34a) in its end region facing away from the rivet head, that the expanding device an expandable ring (50a) on the mandrel relatively rotatable about and engageable with the flange shoulder istv and that a cam surface (T1b) on the rivet shank (11) is provided for expanding the ring as a result of the retraction of the dome, the outer diameter of the flange shoulder is smaller than the outer diameter of the first conical region (19) of the rivet head (16). 4. Hollow rivet according to claim 1 or 2, characterized in that the expansion device is compressible in the axial direction End part (63a) of the rivet shank in the region of an annular shoulder (64a) which on the mandrel (62) in the from the rivet head (61) facing away from the end region is provided. 5. Hollow rivet according to one of claims 1 to 4 in connection with a workpiece with a workpiece bore receiving the rivet, the one counterbore in positive engagement with the first comprises conical area of the rivet head, characterized in that between the first conical area (19) of the rivet head (16) and the counterbore (22) there is a compression engagement of 0.025 mm to 0.25 mm which exerts radial compression on the mandrel to prevent loosening of the mandrel with respect to the rivet head and shank and a clamping force to block rotational movement of the rivet head is generated due to a torque applied to the mandrel when it is withdrawn to insert the rivet in the workpiece bore ¹ . BATH. ORIGINAL