DE1298777B - Blind rivet assembly - Google Patents

Description

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The invention relates to a blind rivet arrangement with FIG. 5 being drawn on a larger scale

a metal screw that has a threaded axial partial section of the screw and provided cylindrical shaft, one on the inner Fig. 6 a drawn on a larger scale

lying, concealed end of the shaft axial partial section of the screw-nut arrangement molded screw head and one for rotation 5 in the tightened or fastening position, the screw serving, at the other end of the In the figures, an embodiment of the inven-

Having the stem arranged approach; a nut screwed onto the threaded shaft according to the invention, with a covered end, with a tubular section (shown in the following “fastening device”), an end of this section remote from the screw-nut assembly A shown at the head fastening device has three items Neten head portion and one at the other end of the _{o f:} forming Schraubet _e ine the arranged covered part of the preliminary section is arranged, truncated cone-shaped supporting device, the one having a surface and a Gevon is formed in one piece when screwing the screw head 11 screw and nut from the screw head threaded shaft 10; see an internally threaded verunter deformation across the inner end of nut 15, usually also prior to attachment to a pushed-on bushing. the threaded shaft 10 of the screw to the

In known blind rivet assemblies of this type, screw head 11 is screwed-on socket C, which forms the concealed head of the fastening device made of ductile material; when tightening the screw deforming sockets and one of the outer or non-covered smooth, ie threadless holes. It has now been shown ao head of the fastening device forming, with that these known blind rivet assemblies internally threaded nut D, which has a tubular section 13 in supersonic aircraft and spacecraft, which at its one occurring high stresses does not end with a conical support surface 14 and have grown to seireichendem measure, since at these nem other end with a countersunk head 15 missiles provided high vibration loads 35 is. The socket C and the nut D are preferred, which can lead to loosening or destruction of the _we ise already during manufacture on the threaded blind rivet assembly. Also the shaft 10 of the screw 2? unscrewed so that the relationship between weight and load capacity socket C between the screw head 11 and that of the known blind rivet assemblies is arranged for the conical support surface 14 (FIG. 2). extreme lightweight construction not satisfactory. 30 When in use, the assembled front

The object of the present invention consists in the direction with the screw head 11 in relation to one another, a hole which is also aligned for aircraft and space travel, e.g. B. to create in the holes 16, 17 of the zeugbau suitable blind rivet assembly, plate-shaped Teilet, F, the to be connected which the above-mentioned deficiency of known components introduced so far until the countersunk head 15 avoids the orders. 35 nut!) Hits the surface of part E. the

According to the invention, this object is achieved by the largest diameter of the screw head 11, which is achieved in that the bushing C and the tubular section 13 are screwed onto the threaded shaft and at least on their screw nut D are essentially the same size, and the end facing the benkopf with internally threaded holes aligned with one another, z. B. the holes can be seen with at least two threads 40, 16, 17 of the parts to be connected to each other, are in engagement with the threaded shaft, and that, for example, carried out by drilling so that the inner diameter of the socket at no point the device as a whole Introduced into these holes is much larger than the maximum thread or can be pushed through them, but the diameter of the screw. does not sit loosely in this.

In a preferred embodiment of the invention, when the device ^ is inserted into the parts connecting to one another to the blind rivet arrangement according to the invention, the courage will be that the internal thread of the bush extends through the terD and the shaft 10 of the screw B extends further through the bush, Since this is screwed together, that is, the device is designed in the manufacture of the socket by turning the screw and the nut D of a simply shaped and therefore cheap herzu- 50 relative to each other, so that the cylindrical socket can be assumed that the nut D facing End of socket C to the can. pull the inner end of the nut D and

Further advantageous features of the invention appear on the conical support surface 14 to form a are given in the following part of the description to expand the head. It has proven to be useful the one embodiment of the invention on hand 55 pointed when putting on the device and for of the drawings. It shows widening of the head of socket C over the conical

F i g. 1 see a partially sectioned view of the support surface 14 of the nut D, the screw B of the blind rivet assembly according to the invention, whose to rotate. This creates a fixed clamping connection part in the unassembled state, shown with the covered or inner side of the construction site, 60 partly F, and the head 15 of the nut D is firmly attached to FIG. 2 is a view of the assembled, accessible side of component E in front of the uncovered, accessible side of the holes of two parts to be connected. The shaft 10 of the screw B is arranged on blind rivet assembly, the end opposite the head 11 with F i g. 3 shows an axial section through the projection 20 for the purpose of turning the screw, which protrudes into the one normally inserted blind rivet assembly 65 nut D through the countersunk head 15 of the holes in the two parts. The approach 20 Fig. 4 is an axial partial section like Fig. 3, but is provided with two opposing, flattened tightened or fastening position, th surfaces 21 and can be of a suitable

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Neten, complementary opening of a drive mechanism is expediently also beveled to capture the stuff and take it with you. The countersunk insertion of the adjacent part of the nut D to head 15 of the nut D has slots 22 into which it is easier. Preferably, both ends of the bushing can be engaged by a suitable tool in order to be chamfered, so that the sides of the bushing can be interchanged to secure the countersunk head 15 in order to rotate the attachment 20 together. If th. The slots 22 can be omitted, the individual parts B, C, D in their fastening position when the device is tightened by a tool that is pulled from the socket C, that no connection with the countersunk head on the inner conical Mut-15 support surface required. ter D exerted pressure compressing and

The approach 20 of the threaded shaft 10 of the io bending of the conical part of the nut,

Bolt B is flattened at the inner ends of the nut causing a jamming between nut D and

th surfaces 21 through a notch 23 GE threaded shank 10 of the screw B is reached. on

weakens. The remaining at the notch this way becomes the screw connection between

Core cross-section has a predetermined size, which is secured to the screw B and the nut D and a

is less than the cross-sectional area of any untwisting or loosening of the tightened device.

other part of the screw B. If the device yi, e.g. when vibrations occur,

tungy4 is tightened, the screwing is prevented.

Turned long until the one with the flattened sides 21 In practice, the devices are made in accidental approach 20 at the notch 23 of the correct size, the various threaded shank 10 breaking off. As a result, an analog individual parts are dimensioned in such a way that when the device is pulled up to a predetermined size, maximum strength is guaranteed with minimal tension. If the device A times the weight is reached. The threaded shaft 10 is tightened to the predetermined tension, then the screw B is expediently designed according to the plate-shaped components E, F firmly with standardized screw sizes, e.g. B. according to the other connected or between the norms for fine thread applied to the surface of component E facing 95 sizes 6-40, 8-36, 10-32, 12-28 , etc. of the USA. A predetermined countersunk head of the nut D and the inner, threaded shaft 10 largely determines the construction of the other individual parts, which are arranged on the component F and lie against the component F, since they are clamped to the widened head of the bushing C. The screw head 11 directly adjoining a hole 16 in component E is countersunk to accommodate the countersunk 30 complex stresses caused by shear and torsion head 15 so that when the threaded shaft 10 is installed and subject to tensile stresses, the countersunk head 15 is the outer surface of the part who could be the first to fail. The outer component E forms a smooth surface. If you look at the material from which the various This feature is made for the inventive advantages items of the device, then direction is not essential, but in many cases 35, the diameter α of the screw head 11 should be used, z. B. when the countersunk head on the outside of the screw B is approximately one and a half times the area of an aircraft and a smooth upper core diameter of the threaded shaft 10 or surface is desired. It is obvious that others are slightly less.

Embodiments with recessed or protruding- In the embodiment shown, the structure is

the minds are applicable. 40 thread 36 of the threaded shaft 10 of the screw B.

The support surface facing the threaded shaft 10 has a trapezoidal thread with a flat thread base and

25 of the screw head 11 of the screw B can also have a flat threaded head. The thread

- as shown - be back-turned. When it is 36 on the threaded shaft 10 by thread

is to be back-turned, are preferably made about rolls and extends onto the shaft 10

the outer two thirds of the radial extension of 45 to the screw head 11 of screw B. The

Support surface turned conically so that with a core diameter of the thread 36 of the thread

to the longitudinal axis of the screw B normal shaft 10 is opposite to the standard thread

An angle of about 20 ° is formed on the plane. It has the same size or the same nominal thread

however, other angles can also be selected. knife b made larger. By sanding down the

The part of the 50 tips of the threads that is located inward in the radial direction of the for making the

Support surface 25 goes with a smooth, circular arc thread used rollers, a thread is made

shaped groove into the threaded shaft 10 over. represents whose core diameter c is greater than the

If the screw head 11 of the screw B is against the standard-compliant core diameter d belonging to the nominal thread diameter b, the side of the socket C facing this head. The core diameter is drawn by the 55 ser d facing the nut D but is not so large that it passes the screwing-in end of the socket C over the conical side of the nut that is covered in the internal threads 37 and 38 of the socket C or covered D arranged support surface of the nut D prevents. The internal threads are to be pushed with 14 , then the tapered, conical shape of the tapered tapping drill in accordance with the standard causes the shank 10 to be pulled. The core diameter c corresponds to about 83 to the turned side or support surface 25 at the combined 60 84% of the nominal thread diameter b.
pulling the items B, C, D into their fastening- the position closest to the screw head 11 a drawing in of the part of the shaft 10 resting on this surface is, as already mentioned, at the avoidance end of the socket C. To facilitate this most endangered . This is especially true for smaller operations, the fastening devices of this type resting on the support surface 25. Therefore, the end of the bushing C is chamfered on the outer circumference 65 core diameter of the threaded shaft 10 (at 30), so that the end of the bushing C is better screw B. in the area close to the screw head 11, the conical support surface 25 of the screw-end area is made larger. Therefore the head 11 fits. The edge of the bore of the socket C screw shank 10 of the screw J3 over a length

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Obvious advantages of about 3.2 mm (0.125 inch) away from the screw head are achieved in that the 11 measured from FIG. 11 is provided with a larger core diameter socket C with an internal thread. There move ser e provided from the rest of the threaded shaft. The z. B. the threads of the widening water enlarged core diameter e is created by bushing C at the same speed via the further grinding of the 5 nose of the support surface 14 of the nut D to make the thread, with which the rollers used are close to the head 11 - the threads of screw B in the nut are on the rear side. The core diameter e corresponds to approx. 85 move in. Mainly the flattened up to 86% of the nominal thread diameter b. th thread turns of the internal thread of the socket C

The devices are manufactured in different countries, the bearing surfaces between the socket C and the gene, to two or more components of in ία nut D. Due to the thread on the inside of the certain limits, the total thickness of the socket C is therefore the between the To attach socket C to the other. The lengths of the items, the and the nut D during the formation of the concealed to save weight and taking into account arranged head frictional force set as short as possible executed, whereby the tightening of the device are dimensioned so that when tightening or in 15. is facilitated. These devices may in Beangezogenen state of the arrangement, the concealed fastening position greater tension record disposed end of the nut D a distance of as such, are not equipped with an internally threaded desperation to six threads provided from the screw head socket C. Furthermore occurs on 11 has, so that a considerable part of the thread remains in engagement due to the increase in the wall thickness of the portion which is still in thread engagement 37 of the socket C with the thread 36 of the screw B 20. Socket within the area between the inner

The flexibility of the conical end can, if the lying side of the component F and this section is desired, by countersinking or drilling out an enlargement of the clamping area. Can be increased on nut over a short range. The reason for the caused by the internal thread The nut D is (Fig. 6) provided with a depression of 25 enlargement of the wall thickness in the aforementioned approximately 25 °. This is, however, for the invention the diameter of the socket may not be of essential importance. Screw head 11, the socket C and the pipe

The devices ^ are, as already shaped section 13 of the nut D a little different, manufactured in different lengths and are designed to be more than a similar one, but designed so that they have two or more components with 30 not one with an internal thread provided a certain total thickness can be connected to each other socket C equipped screw-nut arrangements. The thickness of the individual components is variable with the same mode of action and the same, since all components have certain tolerance strength properties.

zen are manufactured. Fluctuations in the overall Many of the advantages mentioned are already there-

thickness of the components to be connected to one another by 35 achieved by the fact that the socket C only at the end facing the approximately two to five thread turns affecting the screw head 11 with two to not the effectiveness of the device. Slightly five threads are provided and the remaining part larger overall thicknesses prevent the bush C having an inside diameter, the effect of the device and the protection against is essentially not greater than the unthreading of the connection either, since the co- 40 nominal diameter b of the screw B. niche end of the nut D spans in any case "The screw consists of homogeneous metal or is pulled together and bent in such a way that high tensile strength (preferably over 127 kg / mm ² , but not a clamp connection with the threads of the below 98 kg / mm ² , which corresponds to 180,000 shaft 10 of screw B. or 140,000 ψ) and one according to the cross-section

It has proven expedient to select the length 45 reduction, certain ductility of 15 to 40%, of the nut D so that in the fastening point, the difference between the initial transverse, the head end of the conical support surface 14, cut a test piece and the smallest transverse earth . H. the end of this area with the largest section of the piece after the breakage due to tensile measurement, with the inner or hidden side of the stress as a percentage of the initial cross-section of component F lies in one plane or is expressed around a short 50.

Pieces protruding less than 24mm. When the die screwing is carried out according to standard procedures

Socket C on the conical support surface 14 of the nut made and provided with thread. The material ter D is widened, that of the nut D is relatively soft and is therefore after the facing end of the bushing, its wall thickness is heat treated to be machined to thinner, and this end takes the shape of a 55 having the desired physical properties he truncated cone (Fig. 4, 6). The wall thickness is enough.

However, the opposite end of the socket C takes the forming the concealed head

as a result of the bushing C exerted by the screw head 11, it is cylindrical and there is pre-pressure. The inner 60 tensile strength between 35 and 102 kg / mm ² (50,000 end of the conical support surface 14 of the nut D in and 145,000 ψ), one after the other, is caused by the expansion in the socket C, preferably made of a homogeneous metal with a ring tension Cross-sections in the thread turns of the screw, whereby the lacing certain ductility of about 40 to nut D on the screw !? is firmly jammed. 76% and a work hardenability which is at least This effect is probably due to a reduction of 65 basic Siemens-Martin steel caused by the increase in wall thickness and that of the inner diameter of the bush C in the range of Increase in hardness, ie the difference between the nose of the conical support surface 14 is increased. initial hardness of the specimen and the hardness

So there will be many for those skilled in the art, none is determined after the deformation.

The internal thread of the bushing C is expediently produced before the bushing is heat treated.

It has proven to be advantageous to produce the nut D from a material with such a tensile strength and ductility that is not less than that of the socket C and is not significantly greater than that of the screw β. The screw and the nut D should be made of materials that do not tend to seize when screwed together.

The inclination of the conical support surface 14 of the nut D is also of some importance, since the longitudinal and radial forces caused by this surface and acting on the part of the cylindrical bushing forming the hidden head must be such that the bushing C does not tear, but does is sufficiently deformed and cold-hardened when the device is tightened. The dimensions of the individual parts and the materials from which the parts of the device are made are chosen so that when the screw-nut arrangement is tightened, the material at the widened end of the bushing is stressed beyond the yield point, but not up to the breaking point will. The bush C is as short as possible to reduce weight in accordance with other requirements, and preferably has a length of not less than 9 to 12 times the pitch of the thread. The socket C must not be widened too much and its wall thickness must not be reduced too much so that it can still absorb the operating pressures that occur in the installed state. The angle of inclination of the conical support surface is preferably about 15 to 21 °. The diameter of the screw head 11 corresponds approximately to one and a half times the core diameter of the shaft 10 of the screw !? or is slightly smaller. This determines the wall thickness of the bushing 10 and of the tubular section 13 of the nut D. The axial height of the head 11 of the screw B is made as small as possible and is about half to two thirds of the nominal thread diameter.

From the above it can be seen that the dimensions of the various parts of the screw-nut assembly should be within tight tolerance limits, e.g. B. the wall thickness of the socket C and the tubular portion 13 of the

ao nut D, which depends on the diameter ratio of the threaded shaft 10 of the screw B to the screw head 11. A number of preferred dimensions for some of the major screw sizes are shown below for clarity.

»5 given. The internal and external threads have accordingly the USA ^ standards for fine threads (Unified Class 3 A and 3 B or American National Class 3) with the following deviations due to the respective dimensions and tolerances

30 measurements:

Screws
size a b C. d e 4-48 min.
Max. 0.156
0.160 0.1075
0.1120 0.0870
0.0895 0.0819
0.0864 0.0938
0.0965 6-40 min.
Max. 0.195
0.199 0.1320
0.1380 0.1070
0.1110 0.1036
0.1073 0.1146
0.1183 10-32 min.
Max. 0.255
0.260 0.1900
0.1840 0.1548
0.1578 0.1471
0.1517 0.1502
0.1627 12-28 min.
Max. 0.306
0.311 0.2095
0.2160 0.1750
0.1780 0.1672
0.1722 0.1807
0.1832 1 / 4-28 min.
Max. 0.369
0.374 0.2435
0.2500 0.2080
0.2120 0.2011
0.2062 0.2130
0.2165

As already mentioned, it is useful to produce the thread of the screw by thread rolling. This is done in the usual way, but giving the part of the blank, which is optionally intended to form a section of larger core diameter of the screw B , a slightly larger diameter than the other part of the blank. In practice it has been shown that with the screw sizes mentioned above, this larger diameter should be about 1 to 3% larger than the diameter of the actual blank.

In the screw-nut assemblies according to the invention, the components or plates E ₁ F are held together by a concealed, inaccessible head and by a non-concealed, accessible head. In each case, at least one of these heads is relatively extensible. The expandable head absorbs the vibrations to which the screw-nut assemblies are subjected when tightened and is not damaged by them. Therefore, this device will not fail even if it is subjected to vibrations in addition to high shear and tensile stresses. This is not the case with previously known connections of this type, which do not have a corresponding head part made of stretchable material exhibiting the features mentioned.

Comparisons of devices according to the invention with previously known devices of this general arrangement show that the device according to the invention, in which the socket C is provided with an internal thread and the end of this socket facing the nut D is widened so that part of the thread of the socket with the thread of the

909527/184

Screw B remains in engagement, which is far superior to the previously known connections. For example, tests show that the tensile strength and the clamping force far exceed the values of known connections, ie the components fastened to one another by means of the connection according to the invention can be pressed together much more tightly than known screw-nut arrangements and can withstand greater loads.

From the description of the preferred embodiment of the subject matter of the invention it becomes clear that the advantages enumerated above are achieved and a new and substantial improved one Screw-nut-arrangement is created, the optimal usage properties and especially has high tensile strength and clamping ability. Although the preferred embodiment of the Invention has been described in detail, the invention is not limited to that in the Figures shown and described embodiment limited. Rather, it should also include all modifications are protected by the arrangement described, which fall within the scope of the inventive concept.

In the claims under ductility is the work as Understand the material parameter that relates to the reduction in cross-section and is determined from this is. The ductility is the difference between the Initial cross-section of a test piece and the smallest after breakage due to tensile stress measured cross-section.

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Claims (2)

Patent claims: 1. Blind rivet assembly with a metal screw having a threaded cylindrical Shank, one formed on the inner, concealed end of the shank Screw head and one used to rotate the screw at the other end of the Having the stem arranged approach; a nut screwed onto the threaded shaft a tubular section, one at the end of this section remote from the screw head arranged head part and arranged at the other end of this section, frustoconical support surface and a when screwing together the screw and nut from the screw head with deformation bushing pushed over the inner end of the nut, characterized in that that the socket (C) is screwed onto the threaded shaft (10) and at least on its Screw head (11) facing end is provided with an internal thread with at least two threads with the threaded shaft (10) is in engagement, and that the inner diameter the socket is at no point significantly larger than the maximum thread diameter of the Screw. 2. Blind rivet assembly according to claim 1, characterized in that the internal thread of the Bushing (C) extends through the whole bushing. 1 sheet of drawings