Source: https://patents.google.com/patent/DE60021730T2/en
Timestamp: 2020-08-12 06:49:50
Document Index: 153076008

Matched Legal Cases: ['art 72', 'art 74', 'art 74', 'art 72', 'art 74', 'art 72', 'art 74', 'art 72', 'art 72', 'art 72', 'art 74', 'art 72', 'art 74', 'art 72']

DE60021730T2 - High-strength blind bolt over an extended gripping area of uniformly high clamping force - Google Patents
High-strength blind bolt over an extended gripping area of uniformly high clamping force
DE60021730T2
DE60021730T2 DE2000621730 DE60021730T DE60021730T2 DE 60021730 T2 DE60021730 T2 DE 60021730T2 DE 2000621730 DE2000621730 DE 2000621730 DE 60021730 T DE60021730 T DE 60021730T DE 60021730 T2 DE60021730 T2 DE 60021730T2
DE2000621730
DE60021730D1 (en
1999-07-13 Priority to US09/352,128 priority Critical patent/US6247883B1/en
1999-07-13 Priority to US352128 priority
2000-06-14 Application filed by Huck International Inc filed Critical Huck International Inc
2000-06-14 Priority to PCT/US2000/016472 priority patent/WO2001004499A2/en
2005-09-08 Publication of DE60021730D1 publication Critical patent/DE60021730D1/en
2006-06-08 Publication of DE60021730T2 publication Critical patent/DE60021730T2/en
239000000789 fastener Substances 0.000 claims description 93
The The present invention relates to multi-part fasteners and in particular, a high-strength blind bolt of the thread-turning type or of the train type, which use a forged construction and which is a high final Provide clamping load on held together workpieces. Such blind bolts can, although of general utility, be particularly useful in constructions, use the closed profiles, such as box girders or -columns, bridges and the like and especially in applications where accessibility on one side of the workpiece blocked or restricted is.
The Fastener of the present invention generally relates Also multi-piece blind bolt fasteners, which has a main sleeve, a stretchable sleeve and include a pen, the expandable sleeve is radially expanded to form a blind head in response to a relative axial force which over the pen is created. In this regard, the blind bolt refers of the present invention to US Pat. Nos. 5603592, US Pat. issued on 18 February 1997 for "High Strength Blind Bolt With Uniform High Clamp Range Over An Extended Grip Range " with equally high Clamping area over an extended handle area) ("the '592 patent), 5,178,502, issued January 12, 1993 for "High Strength Blind Bolt" ("the '502 Patent"), and 5213460 on May 25, 1993 for "High Strength Blind Bolt With Uniform High Clamp Over An Extended Grip Range " with equally high Clamping force over one extended grip area) ("the Patent '460'). In US Pat. 5603592 becomes a blind bolt arrangement discloses a tension-controlled threaded nut and a Inner pin arrangement used. A mother's part is located over the Thread engaged with the threaded portion of the pen shank. One splined section is at the end of the pen shaft. An assembly tool with a central socket part, which formed for engagement in the splined portion is and an outer key member, which is designed to grip the nut is used to torque between the inner bolt or pin and the nut to apply for a relative Rotation, by which the nut is screwed onto the pin, to the desired To achieve parenthesis. A pair of sleeves, a stretchable sleeve and a main sleeve, which are on the pen work together to react to create a blind head on the applied torque.
As a result the applied torque between the nut and the pin initially transmits one axial force on the main sleeve over one Grip adjuster. At the same time, the pen has an enlarged head which has an opposite axial force on the extensible Sleeve transmits. While that Torque and the resulting relative axial force increases, The stretchable sleeve is in Reaction against the main husk radially expanded to form a blind head. A blind head with uniform shape is over provided the extended grip portion of the fastener.
In At this stage of assembly, the workpieces are still no clamping load between the mother and the handlebar and the blind head over the Subjected to pen. Around the blind head with the inaccessible side surface engaging the handlebar gripper with a fragile, Resistance or shear provided, which blocks a cavity. The fragile shear or resistance structure is formed around at a predetermined size relative axial force to break, causing the no longer blocked Cavity now accessible is and an axial movement of the main sleeve away from or out allows the load relationship with the expandable sleeve; this can the fully formed blind head in contact with the inaccessible side surface brought the workpieces be without axial restriction the main sleeve, which are essentially free from the load engagement with the extensible Sleeve has moved out. The workpieces are now contracted by the further application of torque, the resulting relative axial force being substantially exclusively between the blind head acts through the pin and the nut. The clamped together the workpieces Force continues to increase until a torque magnitude is reached at which a splined portion of the pin end of the inner pin or pin is broken off the pin. This breaking load determines the final Clamping load on the workpieces.
These Arrangement ensures a wide grip range capability, in which a high strength blind head with a uniform structure over this wide grip area is formed. The blind head with the uniform Structure indicates the inaccessible side the same supernatant over the Grip area on. additionally The blind bolt construction provides a structure in which high-strength materials can be used, resulting in a high-strength fastener results while at the same time a high, even clamping force is achieved.
However, the fastener requires two sleeves to function. The stretchable bead sleeve is made of a relatively soft steel, which can wöl ben at low loads and can also form around the pin head. The main sleeve is made of a hard steel, which as Punch can act to shear the shearing member.
The Patent '592 discloses that a one-piece sleeve can be used (see column 10, lines 40-42), but describes no such embodiment. In similar The patent '460 discloses, that a one-piece sleeve can be used (see column 16, lines 13-15), but does not describe any such embodiment. In view of the different requirements for the two sleeves (the main sleeve must be hardened be to shear off the shearing, the stretchable sleeve must be soft be enough to bulge out and to form a blind head), therefore, disclose the two patents the production of the main sleeve and the stretchable sleeve made of different steels, each having a different hardness. Neither the '592 patent nor the' 460 patent discloses how a one-piece sleeve is made of a single steel type, which meets all requirements of the two types of pods Fulfills, which would replace them.
The The present invention is an improvement over the Construction of the fastener disclosed in the '592 patent. An embodiment the blind fastener has a pen with an enlarged head portion, a shank portion and a gripping portion. A single one Sleeve becomes provided between the enlarged head section and the fragile one Part and the mother. Since only a single sleeve is used, the single sleeve is optimized that it has a section which is below the desired one Parameters well bulges while he still has sufficient strength and hardness to after formation of the bead to pierce the fragile part and jamming the workpieces to enable.
At the preferred embodiment For example, the fastener was designed to provide strength properties which is at or above the strength properties of the fastener disclosed in the '592 patent although there is a smaller overall diameter of the fastener and having fewer constituents. The smaller number of components, which is used in the fastener of the present invention will reduce the cost of the manufacture and assembly of the fastener in Comparison to the fastener of the '592 patent.
In In one form of the invention, the single sleeve has a generally straight, tubular construction having a generally uniform cross section, d. H. without one significant change the cross section along its length, and the blind head becomes by column loading formed by bulging out a portion of the expandable sleeve, which is beyond the inaccessible Side of the workpiece located. The formation of the blind head at a preselected location is facilitated by placing a circular strip on the extensible Sleeve at the desired Spot annealed becomes. The bead-shaped Blind head provides an enlarged bearing area to disposal and is therefore particularly useful in applications where the workpiece openings are significantly larger as the effective diameter of the fastener.
Although the features of the present invention in connection with a threaded fastener shown goes from US Pat. No. 5,213,460, that some of these features also on fasteners of the train type or the forged type can be applied. At the same time Features of the present invention are used in fasteners, in which the blind head is formed by radial expansion a stretchable sleeve by a rejuvenating projecting portion on a main sleeve part, see US patents Nos. 5178502 and 5213460.
Of the High-strength blind bolts of the present invention is thus without further customizable for Use in applications where high strength bolts are used such as those which the specification ASTM A325 or Japanese specification F8T. Of the Use is also there desirable, where blind welds, Nuts and other complex construction fastening systems be used in such structural elements as box girders, where the backside not accessible to the connection is. In this regard, the blind fastener of the present Invention particularly suitable for the construction of buildings, bridges and the like, where high strength and durability, along with the ability provide high clamping loads are of considerable importance.
As As you will see, the Grip Control can be constructed relatively simply be made of a high-strength material, which the strength of the fragile resistance or shear section can be set at a high level. In this regard This relatively simple design allows the load to shear off of fragile resistance section well stated on a level which is high enough to the formation of the blind head to ensure, and low enough to obtain the final torque load for the final clamping and before to break the breaking of the fragile neck.
It is therefore desirable to provide a unique blind bolt construction which facilitates the use of high-strength materials, resulting in a high-strength fastener with a large grip area leads.
It is also he wishes, to provide a blind bolt construction which is a unique Includes handle, a big one Provide grip area.
It is still desired, to provide a unique high strength blind stud with a construction which forms a high-strength blind head, which is a uniform, desirable Arrangement over a big Has grip area.
It is desired to provide a unique, high strength Blinzbolzen which a high final Provides clamping load.
It is desired to provide a unique high strength blind bolt for which a threaded construction of the tension-controlled Type is used and which is a generally uniform final Clamping load over a big Grip area provides.
It is desired to provide a unique high strength blind bolt which has fewer constituents than known constructions.
It is desired to provide a unique high strength blind bolt which extends over the entire Bolt has a reduced diameter, which is the same or better strength properties than known constructions.
The The present invention provides a blind pin according to claim 1.
The The foregoing and other objects, features, features and advantages of the present invention Invention as well as the modes of operation and functions of the associated structural elements and the combination of parts and the savings in manufacturing will be apparent from the following detailed description and the pending claims in conjunction with the accompanying drawings, of which all one Form part of the description, wherein like reference numerals match Designate parts in the various figures.
1 Figure 3 is a side view of the fastener of the present invention in mounting relationship with workpieces to be fastened together, with some portions shown in section;
2a 10 show a mounting cycle for the fastener of the present invention, with some sections shown in section and some sections shown schematically;
3a is a partial view of the head of an embodiment of the pin of the fastener of the present invention,
3b Fig. 4 is a pictorial representation of a photograph of an actual portion of a portion of the in 3a illustrated fastener after bulging of the sleeve,
4a is a partial view of the head of an alternative embodiment of the pin of the fastener of the present invention,
4b Fig. 4 is a pictorial representation of a photograph of an actual portion of a portion of the in 4a illustrated fastener after bulging of the sleeve,
5a is a partial view of a head of an alternative embodiment of the pin of the fastener of the present invention,
5b Fig. 4 is a pictorial representation of a photograph of an actual portion of a portion of the in 5a illustrated fastener after deformation of the sleeve,
6a is a partial view of the head of an alternative embodiment of the pin of the fastener of the present invention,
6b Fig. 4 is a pictorial representation of a photograph of an actual portion of a portion of the in 6a illustrated fastener after bulging of the sleeve,
7a Fig. 3 is a sectional view of an embodiment of a sleeve of the fastener of the present invention;
7b is an alternative embodiment of a sleeve of the fastener of the present invention,
8a is a partial view of the fastener of the present invention, for which the sleeve of 7a is used, after bulging of the sleeve,
8b is a partial view of the fastener of the present invention, for which the sleeve of 7b is used, after bulging of the sleeve,
9a Fig. 12 is a view of the end of an embodiment of a shear washer of the fastener of the present invention;
9b is a sectional view of the in 9a Shear plate shown,
10a Figure 11 is an end view of an alternative embodiment of a shear washer of the fastener of the present invention;
10b is a sectional view of the in 10a Shear plate shown,
10c is an enlarged view of a portion of 10b out of the circle 10c in 10b .
11 Figure 3 is a side view of an alternative embodiment of the fastener of the present invention in mounting relationship with workpieces to be fastened together, with some portions shown in section, and
12 is a typical hardness profile for the soft annealed strip of the sleeve of the present invention.
As in 1 can be seen, closes a fastener 10 an inner bolt or pin 12 , an annular nut 14 , a stretchable tubular sleeve 16 and a shear disk 18 one. The pencil 12 has an enlarged head 20 on which a surface 21 for engaging the sleeve and a tapered edge 23 for easy insertion into a hole. The pencil 12 also has an extended shaft 22 on which a smooth shaft section 24 having a threaded portion 26 , a breakline 28 and a section 30 for gripping the pin end for gripping by a mounting tool (see 2a ). The break groove 28 has a reduced cross-sectional area which is formed to break at a predetermined torque load at the completion of the assembly cycle. The section 30 for gripping the pin end includes a plurality of axially extending splines 32 and in one form of the invention, includes a generally conventional 12 spline design. The grip section 30 also includes an overlying thread of the same size as the threaded portion 26 for the intervention in the mother 14 one, because the mother 14 on the pen 12 is screwed.
The stretchable tubular sleeve 16 is generally uniformly tubular in shape and generally has uniform inside and outside diameters. The outer diameter is substantially the same or slightly smaller than the outer diameter of the pin head 20 , The inner diameter of the tubular sleeve is chosen so that the tubular sleeve over the pin shaft 22 can slide and a desired tolerance between the tubular sleeve 16 and the smooth shaft portion 24 provided. The tubular sleeve 16 closes an end face 34 one for engaging the surface 21 of the pen head 20 and an end surface 36 for engagement in the shear disc 18 , The tubular sleeve 16 is constructed of hardened steel, but closes a section 35 one which has been annealed to the bulge of the sleeve 16 when mounting the fastener 10 to facilitate and facilitate.
In the presently preferred embodiment, the best in 1 . 9a and 9b can be seen, closes the shear disk 18 a counterbore 38 which is an end face 39 has to engage in the end face 36 the sleeve 16 , a through hole 40 passing the passage of the pen 12 allowed, an end face 42 for engaging in the accessible surface 44 of the workpiece 46 and an end surface 48 for engagement in an end surface 50 mother 14 , A second workpiece 56 has an inaccessible surface 58 and a hole 60 on which with a hole 62 in the workpiece 46 is aligned.
The mother 14 has an outer surface 51 with a conventional hexagonal shape for engaging the mounting tool and includes a counterbore 52 which has a sufficiently large outer diameter, around an end portion of the tubular sleeve 16 to be able to record when the shear disc 18 is sheared off. The choice of the depth of the counterbore 52 defines the effective grip area of the fastener. The mother 14 also includes a threaded hole 54 one to the handle section 30 and the threaded portion 26 of the extended shaft 22 to engage by means of thread. The mother 14 may also be provided with alternative exterior shapes as desired to intervene in alternative assembly tool drives.
The shear disc 18 has a preselected thickness below the counterbore 38 in order to define a shear section which is designed to be at a preselected shear load relative to the circumference of the counterbore 52 due to the relative axial force between the pin 12 , the sleeve 16 and the mother 14 breaks. The relatively tight tolerances between the pin 12 , the sleeve 16 , the counterbore 38 and the threaded hole 54 mother 14 keep the components in a generally coaxial relationship.
When using the fastener 10 are the sleeve 16 and the pen shaft 22 designed so that they are within the aligned holes 60 and 62 in the workpieces 56 respectively. 46 are located and extend through this, the surface 42 the shear disc 18 in the surface 44 of the workpiece 46 intervenes. In this regard, the surface possesses 42 a sufficiently large effective load-bearing surface to allow for a desired distribution of the mounting loads of the fastener 10 on the surface 44 of the workpiece 46 as well as the operating loads on the workpieces 46 and 56 after mounting the fastener 10 to care. In addition, the opposite load-bearing surface engages 48 the shear disc 18 in the load-bearing area 50 mother 14 and provides a sufficiently large effective load bearing area to accommodate the mounting and operating loads. The outside diameter of the pen head 20 and the sleeve 16 are chosen so that they are in a seat with desired clearance through the aligned holes 60 and 62 fit.
The fastener 10 is designed for fixation by a torque which is between the pin 12 and the mother 14 is applied via the engagement by means of the thread of the nut 14 on the threaded section 26 of the pen 12 , 2a shows the fastener 10 in the workpieces 46 and 56 plugged in and engaged by a mounting tool 70 , The tool 70 has a well-known in the art construction, and it is therefore only a part of the tool 70 and its specific details have been omitted for simplicity. The outer surface 51 mother 14 is designed to be of a tubular fitting part 72 of the assembly tool 70 can be detected to drive, wherein the socket part is designed so that it is the outer shape of the nut 14 can capture appropriately. The assembly tool 70 closes an inner frame part 74 a, which is designed so that it the toothed handle portion 30 of the pen 12 can capture appropriately. In one form of the tool is the inner frame part 74 spring biased axially forwardly for sufficient engagement in the handle portion 30 to care. The outer frame part 72 and the inner frame part 74 are designed so that they can be rotated relative to each other. Therefore, for the mounting of the fastener 10 the tool 70 to the outer end of the fastener 10 created, with the outer frame part 72 in engagement with the mother 14 located and the inner frame part 74 in engagement with the handle portion 30 of the pen 12 , When the tool is operated, the outer frame part becomes 74 rotated relative to the inner mount part, causing the mother 14 continue on the threaded section 26 of the pen 12 is screwed.
There are two conventional variations of the assembly tool 70 , In the first type, both the inner frame part can 74 as well as the outer frame part 72 with respect to the mounting tool, depending only on the relative torque required to rotate either the pin or the nut. In this type of tool, the inner mounting part can be to Be start of the assembly cycle 74 rotate while the outer frame part 72 can remain stationary, causing the pen 12 relative to the fixed nut 14 is turned. If the components of the fastener 10 in an increased load ratio with the workpieces 46 and 56 Usually, the outer frame part and the nut turn 14 while the inner frame part 72 fixed.
For the other type of assembly tool 70 becomes the inner frame part 74 always fixed with respect to the tool, and only the outer socket part 72 turns with respect to the assembly tool. With such a tool, the pen 12 always kept stationary and the mother 14 is turned.
In any case, the pen moves during this process 12 axially relative to the nut 14 , At the same time allows the resilient axial bias on the inner mount part 74 in that it is moved axially backwards, in order thus to effect the additional axial movement of the pin 12 relative to the tool 70 take. In this way, a relative axial force is developed between the pin 12 and the sleeve 16 due to the torque generated by the tool 70 between the pen 12 and the mother 14 is created.
While the pen 12 starts to change due to the relative rotation with the mother 14 to move axially, the applied relative axial force simultaneously increases the column load on the sleeve 16 , which causes them to be on the soft annealed section 35 extends radially outwards (or bulges) around a bead-shaped dummy head 80 at one point to completely determine which of the inaccessible side surface 58 of the workpiece 56 is spaced, see 2 B , In the presently preferred embodiment, the bead is formed at about 50,000 to 60,000 pounds of axial force. As the relative axial force increases, the fragile shear washer breaks 18 in a shear section 82 at the counterbore below the sleeve 16 , please refer 2c , In the presently preferred embodiment, the shear disk breaks at about 57,000 - 61,000 pounds of axial force. This allows the shear section 82 and the sleeve 16 To begin with, in the counterbore 52 in the mother 14 enter and remove any substantial axial load on the section of the sleeve 16 below the bead-shaped dummy head 80 , The shear section 82 the shear disc 18 it's so chosen to have sufficient strength to accommodate the magnitude of the relative axial force required to form the bead-shaped dummy head 80 Essentially complete before shearing.
The further rotation of the mother 14 relative to the pen 12 guides the axial movement of the pen 12 and the sleeve 16 which causes the blind head 80 in contact with the inaccessible surface 58 of the workpiece 56 comes and the fastener 10 in terms of workpieces 46 and 56 is loaded until a desired clamping load is achieved. The desired clamping load is determined by the force at which the breaking groove 28 to break, thereby creating any further assembly force by the assembly tool 70 on the fastener 10 is limited. The application of the clamping force can be before breaking the breaking groove 28 also the bead-shaped blind head 80 continue to expand slightly. Please refer 2d and 2e which the fastener 10 mounted in the workpieces and up to the breaking point of the breaking groove 28 show what occurs in the currently preferred embodiment at about 66,000 - 71,000 pounds of axial force. 2d generally shows the maximum thickness of workpieces, for their attachment, the fastener 10 , as shown, is provided. 2e generally shows the minimum thickness of workpieces for fixing the fastener 10 , as shown, is provided.
The margin between the maximum and minimum thickness of the workpieces that the fastener can accommodate is determined by the depth of the counterbore 52 set, in which the shear section 82 the shear disc 18 and the sleeve 16 can occur when the shear section 82 is sheared off. The axial depth of the counterbore 52 is selected larger than the distance L from a free end surface 83 of the blind head 80 the stretchable sleeve 16 to the inaccessible side surface 58 of the workpiece 56 after complete formation of the blind head 80 , as in 2 B shown. The distance L may vary depending on the total thickness of the workpieces attached to each other. In a minimum grip condition, ie with a minimum total thickness of the workpieces 46 and 56 , as in 2e To see, the distance L is maximum, and therefore the depth of the counterbore should be 52 at least slightly greater than this maximum distance L, for all handle conditions within the grip area of the fastener 10 to ensure that the section of the sleeve 16 below the blind head 80 from the load engagement with the pen 12 is removed before the free end surface 83 the bead-shaped blind head 80 into the inaccessible side area 58 intervenes. This ensures that the end face 83 of the bulbous head 80 freely engaged with the inaccessible side surface 58 of the workpiece 56 can be moved, as in 2d and 2e will be shown. Thus, the total magnitude of the relative axial force resulting from the torque between the nut 14 and the pen 12 results in the workpieces 46 and 56 created, essentially alone between the mother 14 , the disc 18 and the pen 12 over the pin head 20 and the bulbous head 80 ,
The number of threads of the nut 14 , which with the threaded portion 26 The pen shaft is fully and definitively engaged, chosen so that it is sufficient to the desired high level of clamping of the workpieces 46 and 56 available and to withstand the maximum intended tensile load on the resulting connection. The length of the threaded section 54 mother 14 is thus chosen to be sufficient to provide the necessary number of threads to withstand these loads with full engagement of the thread (see 2d ). At the same time, the length of the threaded portion becomes 26 of the pin shaft chosen so that a complete threaded engagement in the threads of the nut 14 over the entire grip area of the fastener 10 is provided while providing a minimum protruding length after assembly. In this way, the total length of the fastener Ge 10 be minimized both in the assembled and unassembled state.
In order to minimize the torque loads during assembly and thus to assist the proper functioning of the fastener components and the consistent proper assembly of the fastener, a high quality, fired dry lubricant such as molybdenum disulphide has been found on the pin 12 and the surface 48 the disc 18 proved to be desirable to reduce the friction between the moving parts of the fastener 10 to reduce. In practice, it is also possible, though not preferred, for lubricant to be on the other surfaces of the disk during the application process of the lubricant 18 can deposit. This additional lubricant may then alternatively be removed from all surfaces except the surface 48 , A molybdenum disulphide lubricant such as Kalgard FA manufactured by Kalgard Corporation has been found to be satisfactory and is applied after a phosphate coating.
A corrosion-resistant galvanization with zinc is on the mother 14 desired, and a waxy lubricant such as paraffin is on the surface 50 mother 14 prefers. The sleeve 16 is not lubricated or coated. If the shear washer 18 shears off and the bulbous head 80 on the sleeve 16 yourself to the surface 58 of the workpiece 56 moves, creates the clamping load between the workpieces 46 and 56 by turning the nut 14 relative to the pen 12 and against the fixed disc 18 ,
In some applications it may be in addition to the coating and / or electroplating which the pen 12 , the mother 14 and the disc 18 be desirable to apply a corrosion protection oil on the sleeve 16 apply. One type of anticorrosion oil may be an oil sold under the trade name LANACOTE by Amrep, Inc.
The effect of the angle of the surface 21 to the pen 12 is in 3 - 6 shown. In prior art arrangements which employ two sleeves and in which the bulging sleeve is relatively soft, the surface has become 21 at a 12 ° angle over one to an axis of the pen 12 vertical plane. This was done to guide the soft, bulging sleeve material around the pin head to form a tulip-shaped bead. However, in the fastener of the present invention, it has been found that such "tuliping" of the sleeve is the strength of the fastener 10 reduced. It is therefore desirable to prevent the relatively hard sleeve of the present fastener from moving upwardly and around the pin head 20 shaped. It has also been found that undesirable variations in clamping load can occur when the outer circumferential corner of the surface 21 of the pen head 20 permanently deformed or even shears off. Thus, the angle of the surface 21 more critical when combined with the harder sleeve of the present invention, and has been designed to minimize the above-mentioned deficiencies.
The preferred angle was 1 ° below one to the axis of the pin 12 vertical plane detected as in 3a shown. In other words, this is an angle of 89 ° between the surface 21 and the extended shaft 22 , It has been shown that this angle of the tendency of the sleeve, over the head 20 high, as well as swelling or shearing the outer peripheral corner of the surface 21 of the pen head 20 minimized. A pictorial representation of an actual photograph of a portion of an already mounted fastener of the present invention having a pin head at such an angle is shown in FIG 3b shown. Out 3b It can be seen that the sleeve is not over the pin head 20 has slid up and that the outer circumferential corner of the surface 21 only very slightly swollen. It has been found that this embodiment improves the deviations of the clamping load between a plurality of fastening elements.
4a shows an embodiment in which the surface 21 at an angle of 5 ° below one to an axis of the pen 12 vertical plane was provided. How, however, out 4b As can be seen in a pictorial illustration of an actual photograph of a portion of an already mounted fastener with a pin head at such an angle, this embodiment resulted in a significant permanent deformation of the outer peripheral corner of the surface 21 as well as to considerable permanent deformation to the outside of the sleeve 16 itself, which is sufficient to lead to unwanted deviations of the clamping load.
5a shows an embodiment in which the surface 21 at an angle of 5 ° above one to an axis of the pen 12 vertical plane was provided. How, however, out 5b As can be seen from an actual photograph of a portion of an already mounted fastener with a pin head at such an angle, this embodiment caused the sleeve to slip up over the pin head 20 , whereby a proper clamping load generation of the fastener was prevented.
6a shows an embodiment in which the surface 21 at an angle of 12 ° below one to an axis of the pen 12 vertical plane was provided. How, however, out 12b As can be seen from an actual photograph of a portion of an already mounted fastener with a pin head at such an angle, this embodiment resulted in severe permanent deformation and even shearing of the outer peripheral corner of the surface 21 as well as a severe permanent deformation to the outside of the sleeve 16 itself, and led to undesirable deviations of the clamping load. This embodiment is similar to the embodiment of the pen head disclosed in the '592 patent.
It was also found that the strength of the fastener 10 varies depending on the height of the portion of the sleeve 16 above the blind head 80 and below the surface 21 of the pen head 12 , As if from a comparison of 7a and 7b it can be seen, a height H of a foot 84 the sleeve 16 above the blind head 80 can be varied depending on the axial location of the annealed section 35 on the sleeve 16 , If the soft-annealed section is higher on the sleeve 16 is placed, forms the blind head 80 higher on the sleeve and provides a foot 84 with a smaller height H, as in 7a to se hen is. This height H can also vary by the width of the strip 28 to be influenced. On the other hand, if the soft annealed section 35 lower on the sleeve 16 is placed, forms the blind head 80 lower on the sleeve 16 and cares for a foot 84 with a higher height H.
8a and 8b show enlarged views of the on pen 12 mounted sleeve 16 from 7a respectively. 7b , Like when comparing 8a and 8b can be seen, puts the sleeve 16 with a short foot 84 actually a longer shear line between the pin head 20 and the workpiece 56 (not shown) ready as the sleeve 16 with the longer foot 84 , This results from the slight swelling to the outside of the sleeve 16 at the foot 84 when mounting the fastener in such a way that the shear line both the length of the blind head 80 as well as the length of the foot 84 includes. See also 3b ,
There is a similar swelling of the upper section of the foot 84 the sleeve, which in 7b and 8b is shown, such that the upper portion of the foot 84 the shear line overlaps. However, the swelling does not extend over the entire length of the foot 84 extends, the length of the shear line in this embodiment is not extended so that it is the length of the foot 84 but extends only over the length of the blind head 80 , The length of the shear line increases only as the foot increases in such a way that the shear line continuously both the blind head 80 and a section of the foot 84 overlaps, as in 7a and 8a will be shown. If the overlap is not continuous, as in 7b and 8b shown, the length of the shear line does not increase. The strength of the fastener will instead be based only on the length of the shear line through the blind head. Therefore, the embodiment of 7a and 8a Due to the longer shear line a stronger fastener ready and is the preferred embodiment, while the embodiment of 7b and 8b rather represents the state of the art, as can be seen in the '592 and' 460 patents.
When using high strength, high hardness materials, it is desirable to reduce stress concentrations, such as those at the interface between the inner surface 21 of the pen head 20 and the smooth shaft portion 24 , This is achieved by rounding the connection. In addition, chamfers are provided on the inner diameter on the opposite ends of the sleeve to prevent the sleeve from cutting into the rounded connection. Other joints and corners can be similarly rounded and bevelled.
In addition to the reduction of the mentioned Stress concentrations, it is desirable load concentrations between thread and counter thread to reduce. The threads of the with Threaded shaft portion are therefore shaped so that they generally have a small depth and a thread root having a generally streamlined contour. at an embodiment could for the threads therefore the groove shape and the ideas of US Pat. No. 5,090,852 which on February 25, 1992 for Dixon was granted to be used. With this structure of the thread root the stress concentration at the threads is also reduced.
As mentioned in the Dixon '852 patent, the threads may have a helical configuration of shallow depth, with a generally streamlined shape, whereby a high strength connection can be achieved with a desired high clamping load. In the mentioned low depth thread structure is a tight tolerance fit with the threads of the nut 14 he wishes. In one embodiment of the invention, similar tolerances were used as in a threaded fit of the class 3 ,
As mentioned, it is desirable that the high strength fastener of the present invention provide a high ultimate clamp load at the joint. To achieve this result, high mounting loads of the assembly tool 70 required, including the final breaking load of the pin at the break line 28 , However, these loads are applied by a torque and therefore are generally from the tool 70 recorded and essentially not transferred to the operator, which the mounting tool 70 handles. The high load, the breakage of the pin at the breaking groove 28 occurs, therefore, by applying the torque to the fastener 10 essentially from the tool 70 added. The size of the mounting torque, which by the assembly tool 70 can be applied, can be significantly reduced by the use of the selective lubrication already explained, so that the rotational speed, which ultimately from the tool 70 can be increased, whereby the time required for mounting can be significantly reduced.
An alternative embodiment of the shear washer is shown in FIG 10a -C to see. Instead of the counterbore 38 closes the disc of the alternative embodiment, which in 10a C is an annular groove 90 on every surface 42 and 48 one, concentric with the bore 40 , Each groove preferably has a semicircular Cross-section on, as in the enlarged view of 10c you can see. The groove may also have various shapes, including a V-shape, and may have different shapes and depths compared to each other. The two grooves 90 act as stress amplifiers on the disc 18 to form a frangible section therebetween, which shears off during assembly of the fastener. Alternatively, only a single groove 90 be provided on a surface of the disc. The force at which the shear disk breaks and shears can be varied as desired by varying the thickness of the disk, the material from which the disk is constructed, and the size, shape, and placement of the structures that enhance the load.
The various features of the different disclosed shear discs can also alternatively combined in different combinations to alternative embodiments to create scissors.
In many applications with threaded fasteners, it is desirable that after assembly, it is possible to remove the fastener by unscrewing the nut from the bolt or, in some cases, re-tightening the joint by adding additional torque between the nut and the bolt is applied. In certain applications, the initial release torque for removal may be quite high, such that when a wrench is used, only the nut (such as nut 14 ) to remove or re-tighten both the nut and the associated pin or bolt rotate together and make removal by unscrewing or tightening somewhat difficult or even impossible. In the alternative embodiment of the present invention, which is incorporated in 11 is shown, a structure is provided which allows a separate detection of the pin and the nut after the mounting of the fastener for applying a torque, whereby a removal or tightening is facilitated.
How out 11 it can be seen, closes the threaded portion 26 inside the breakline 28 a secondary splined / threaded section 27 a, similar to the handle section 30 , In the final assembly and removal of the toothed Stiftendabschnitts ( 30 ) by breaking the breaking groove 28 thus remains the secondary toothed section 27 at the free end of the pin 12 , The other components of this embodiment of the fastener are the same as in FIG 1 shown embodiment.
The secondary toothed section 27 is chosen with a sufficient length so that it reaches far enough beyond the outer end of the nut in the maximum grip condition 14 extends to be properly grasped by a grooved mount portion (such as the inner mount portion 74 on the tool 70 ). The mother 14 can also be detected via a hexagonal socket part (such as the hexagonal socket part 72 on the tool 70 ). The pencil 12 becomes therefore relative to the mother 14 held, leaving a torque to remove or tighten between the pin 12 and the mother 14 can be applied (which component rotates depends on the type of assembly tool used as explained above). The minimum overhang of the secondary toothed section 27 over the outer end of the mother 14 would occur in a maximum grip condition, ie at a maximum total thickness of the workpieces 46 and 56 within the grip area of the fastener 10 , At the same time, the maximum protrusion of the secondary toothed section would 27 over the outer end of the mother 14 occur at the minimum grip state, ie at a minimum total thickness of the workpieces 46 and 56 within the grip area of the fastener 10 , It is desirable to keep the supernatant as short as possible. This is done by first checking the length of the secondary toothed section 27 it is determined which is required to provide sufficient engagement in the mating socket part to withstand the torque for removal in a maximum gripping condition. If this was set as short as possible, the maximum protrusion of the secondary toothed section would be 27 , in the minimum grip state, be a distance corresponding to the length of the handle plus the preselected length of the supernatant, which has been determined to be sufficient for the maximum grip condition.
In the preferred embodiment of the invention, the fastener has the following specifications, the dimensions given are approximate and subject to variations within tolerance parameters. The pencil 12 is made of 4140 steel and hardened after machining (or molding) to R 36-38. The pen head 20 has a diameter of 2.799 cm (1.102 inches) and a length of 1.207 cm (0.475 inches), the shaft 22 has a total length of 16,289 inches (6,413 inches), the smooth shank section 24 has a diameter of 2.2 cm (0.866 inches) and a length of 7.112 cm (2.80 inches), the threaded section 26 has an outside diameter of 2.2 cm (0.876 inches) and is 7.366 cm (2.9 inches) long and the break line 28 has a foot diameter of 1.549 cm (0.610 inches). The threaded section 26 has a 2.073 cm (0.816 inch) core diameter thread, a 0.109 cm (0.429 inch) reference screw tip, and a 0.318 cm pitch (0.125 inches), as well as the handle section 30 , wherein the handle portion 30 also has twofold splines for driving with an outer diameter of 2.151 cm (0.857 inches).
The tubular sleeve is made of 4130 steel and hardened to 46-49 RC after machining. It has an outer diameter of 2.989 cm (1.098 inches), an inner diameter of 2.283 inches (0.887 inches) and a length of 9.975 cm (3.927 inches). The soft annealed strip 35 is at about 1.524 cm (0.600 inches) from the endface 34 centered and has over its axial width a typical hardness profile, as in 12 will be shown. In this embodiment, after assembly, the blind head has a typical outer diameter of 4.161 cm (1.650 inches) and a height of 0.592 cm (0.233 inches), and the foot 84 is relatively short related to 7a and 8a described advantages, wherein it has after mounting the fastener has a typical length of 0.299 - 0.330 cm (0.090 - 0.130 inches). The outer diameter of the foot 84 Typically, after assembly, it will swell 0.51-0.27 cm (0.20-0.50 inches) from the initial outer diameter (or about 1.8-4.5%). In this regard, the swelling should be between 1.5 - 5.0. With this short construction of the foot 84 , as in 7a and 8a As shown, the fastener failure load typically exceeds 93,000 pounds. In comparison, the fastener construction, which in 7b and 8b typically has a failure load of approximately 83,000 pounds. The construction with the short foot 84 thus provides a considerable increase in the failure load of the fastener.
Alternatively, the corrosion resistance sleeve may be made of a suitable stainless steel. Although not preferred, the strip portion 35 not by soft annealing a section of the hard shell 16 instead, by placing the other portions of the sleeve with respect to the strip portion 35 be hardened.
The shear disc 18 is made of 4140 steel and is hardened to 41 - 44 RC after machining (or molding). It has a thickness of 0.584 cm (0.23 inches), an outside diameter of 4,648 cm (1.83 inches), a diameter of the counterbore 38 2,870 cm (1,130 inches), a diameter of the through hole 40 of 2.288 cm (0.887 inches) and a thickness below the throughbore 38 (ie, the thickness of the shear section) of 0.366 (0.144 inches).
The mother 14 is made of 4130 steel and hardened after machining (or molding) to 36-38 RC. Between opposite hexagonal faces, it has a width of 4,114 cm (1.62 inches), a total height of 3.81 cm (1.50 inches), a depth of the counterbore 52 1.397 cm (0.55 inches) and 2.858 cm (1.125 inches) in diameter and a threaded bore 54 Threaded with an outer diameter of 2.289 inches (0.894 inches), a core diameter of 2.121 inches (0.835 inches) and is designed to fit properly into the threaded section 26 of the pen 12 intervenes.
Of the Handle area of the fastener is ± 1 mm. It is for use at conventional nominal 27 mm applications are provided, in which the bore usually is drilled with a 30 mm drill. Of course, the fastener in alternative sizes and with alternative grip areas are provided.
It It should be noted that different characteristics of different embodiments can be exchanged with each other to different embodiments provide. In addition, in the exemplary embodiments shown, it can be seen that that it is for fasteners of the same diameter for use in different grip areas actually only necessary, the pin and the sleeve to switch to the required changes in the length of the Accommodate fasteners. This feature is simplified the manufacture and requirements for the inventory of fastener components.
Although this invention in conjunction with the currently most practical and described as preferred embodiment became, of course, are further modification possible, and it should not be limited to the disclosed embodiment, and it is intended that this application cover all variations, uses, equivalents Arrangements or adaptations of the invention covering which the frame follow the invention as defined in the appended claims is.
Blindbolt ( 10 ) for attaching a plurality of workpieces ( 46 . 56 ) at a desired clamping load, wherein the workpieces aligned openings ( 60 . 62 ) and an accessible side surface ( 44 ) and an inaccessible side surface ( 58 ) and which is adapted for mounting by a relative axial force exerted by an assembly tool from the accessible side surface (10). 44 ) of the workpieces is applied, wherein the blind bolt ( 10 ) comprises: a pen ( 12 ) with an extended pen shank ( 22 ), which at one end in an enlarged pen head ( 20 ) and at the other end a threaded portion ( 26 ), wherein the pen head ( 20 ) on a lower surface a surface ( 21 ) for engaging the sleeve, wherein an angle between the surface ( 21 ) for engagement in the sleeve and the extended pin shaft ( 22 ) is between about 88 to 90 °; a generally elongated tubular sleeve ( 16 ) which is designed to receive the pen shaft ( 22 ), wherein the tubular sleeve ( 16 ) includes a first sleeve shaft portion adapted for placement in the aligned apertures (US Pat. 60 . 62 ) in the workpieces ( 46 . 56 ), and a second sleeve shaft portion ( 35 ), which on the pen shaft ( 22 ) is arranged between the pin head ( 20 ) and the first sleeve shaft portion, and which is arranged for engagement in the surface ( 21 ) of the pen head ( 20 ), which engages with the sleeve, wherein the second sleeve shaft portion ( 35 ) a band section ( 35 ) has a predetermined axial length, wherein the band portion 35 has a hardness less than the hardness of the first sleeve shaft portion; a threaded nut ( 14 ) for engaging in the threaded portion ( 26 ) of the pen and operatively connected to the tubular sleeve ( 16 ) and adapted for engagement by the mounting tool, whereby the relative axial force can be applied by the mounting tool between the pin ( 12 ) and the mother ( 14 ) to the workpieces ( 46 . 56 ) to be clamped together with a relative axial force of a first order of magnitude; wherein the second sleeve shaft portion is at the band portion ( 35 ) between the pen head ( 20 ) and the inaccessible surface ( 58 ) of the workpieces ( 46 . 56 ) radially deformable in response to the relative axial force of a second order of magnitude less than the first order of magnitude to form an enlarged bead-like blind head (US Pat. 80 ) in order to access the inaccessible side surface ( 58 ) and a sleeve foot section ( 84 ), which extends between the blind head and the surface ( 21 ) extends for engagement in the sleeve over a preselected length; a shear disc ( 18 ), which between the sleeve ( 16 ) and the mother ( 14 ) on the accessible side ( 44 ) of the workpieces is placed for transmitting the relative axial force of the second order of magnitude to the second sleeve shank portion ( 35 ) by the first sleeve shank portion and a fragile shearing portion ( 82 ), which shears in response to a third order of magnitude of a relative axial force that is less than the first order of magnitude and greater than the second order of magnitude, and the first sleeve shank portion of an axial load-bearing relationship with the pin head (US Pat. 20 ), causing the blind head ( 80 ) with the inaccessible side surface ( 58 ) so that the first magnitude of the relative axial force and the ultimate clamping load applied to the workpieces ( 46 . 56 ) is applied, substantially between the pin ( 12 ), the blind head ( 80 ) and the mother ( 14 ) occurs; and wherein the sleeve foot section ( 84 ) expands radially outward upon application of the relative axial forces, the preselected length of the sleeve foot portion (FIG. 84 ) is such that the sleeve foot section ( 84 ) sufficiently expands to the length of a shear line through the blind head ( 80 ) between the workpieces ( 46 . 56 ) and the pen head ( 20 ) to increase the preselected length of the sleeve foot section ( 84 ) consistently.
Blind bolt according to claim 1, wherein the shear disc ( 18 ) a page ( 42 ) which is designed to engage with the accessible side surface ( 44 ) of the workpieces ( 46 . 56 ) to be in a load-bearing relationship.
Blindbolt according to claim 1, wherein the threaded portion ( 26 ) of the pen ( 12 ) is determined by a spiral thread form, wherein the nut ( 14 ) has a mating thread shape adapted to engage with the threaded portion (Fig. 26 ), whereby the relative axial force between the pin and the nut ( 14 ) is provided by the relative torque that exists between the pin ( 12 ) and the mother ( 14 ) is created.
Blindbolt according to claim 1, wherein the pin shaft ( 22 ) a splined end portion ( 30 ), which is designed for the engagement of the assembly tool, whereby a torque can be applied between the pin ( 12 ) and the mother ( 14 ), wherein the splined end portion ( 30 ) a plurality of axially extending, tapered splines ( 32 ) which are defined by ribs which extend radially from the feet of the splines, wherein the splines ( 32 ) are distributed uniformly around the circumference in general, wherein a plurality of splines ( 32 ) in each quadrant around the end portion ( 30 ), wherein a spiral thread form of the threaded portion ( 26 ) of the pen ( 12 ) over the splined end portion (FIG. 30 ), wherein the outer and core diameters of the spline ridges and feet are substantially the same and compatible with the outer and core diameters of the helical thread form of the threaded portion, thereby 14 ) can be screwed on it.
Blindbolt according to claim 1 or 4, wherein the angle between the surface, the with the Hül se and the extended pen shaft ( 22 ) is about 89 °.
Blindbolt according to claim 5, wherein a portion of the band portion ( 35 ) has a hardness between 28 and 35 HRC.
Blindbolt according to claim 1, wherein a portion of the band portion ( 35 ) has a hardness between 28 and 35 HRC.
Blind bolt according to claim 6 or 7, wherein the first Collar shank portion a hardness between 46 and 49 HRC.
Blind bolt according to claim 1, wherein the nut ( 14 ) a reduction ( 52 ), which to the shear disc ( 18 ) adjoins, for receiving the fragile shear section ( 82 ), after moving from the shear disc ( 18 ) shears off.
Blind bolt according to claim 9, wherein the counterbore ( 52 ) the nut has a depth defining a gripping cavity of a preselected length generally corresponding to the gripping area of the fastener, the gripping area being defined as the difference between the minimum and maximum total thickness of the workpieces ( 46 . 56 ), which can attach a single fastener to each other.
A blindbolt according to claim 1, wherein the shear section ( 82 ) of the shear disc ( 18 ) includes a portion with a reduced thickness of the shear washer, which by lowering ( 38 ) in the shear disc ( 18 ) is formed.
Blind bolt according to claim 1, wherein the shearing section of the shear disc ( 18 ) includes a portion having a reduced thickness of the shear washer which is defined by at least one circular groove (Fig. 90 ) on one side of the shear disc ( 18 ) is formed.
Blindbolt according to claim 12, wherein the shear section ( 82 ) of the shear disc ( 18 ) includes a portion having a reduced thickness of the shear washer which is defined by at least one circular groove (Fig. 90 ) on each side of the shear disc ( 18 ) is formed.
Blind bolt according to claim 1, wherein the radially outward extension of the outer diameter of the sleeve foot portion ( 84 ) is between 1.5 and 5.0%.
Blind bolt according to claim 1, wherein the radially outward extension of the outer diameter of the sleeve foot portion ( 84 ) is between 1.8 and 4.5%.
Blind bolt according to claim 15, wherein the length of the sleeve foot portion ( 84 ) above the blind head ( 80 ) is between 0.229 and 0.330 cm (0.090 to 0.130 inches).
Blindbolt according to claim 1, wherein the length of the sleeve foot portion ( 84 ) after the formation of the aforementioned dummy head ( 80 ) is between 0.229 and 0.330 cm (0.090 to 0.130 inches).
DE2000621730 1999-07-13 2000-06-14 High-strength blind bolt over an extended gripping area of uniformly high clamping force Expired - Lifetime DE60021730T2 (en)
US09/352,128 US6247883B1 (en) 1999-07-13 1999-07-13 High strength blind bolt with uniform high clamp over an extended grip range
US352128 1999-07-13
PCT/US2000/016472 WO2001004499A2 (en) 1999-07-13 2000-06-14 High strength blind bolt
DE60021730D1 DE60021730D1 (en) 2005-09-08
DE60021730T2 true DE60021730T2 (en) 2006-06-08
DE2000621730 Expired - Lifetime DE60021730T2 (en) 1999-07-13 2000-06-14 High-strength blind bolt over an extended gripping area of uniformly high clamping force
KR (1) KR100752102B1 (en)
AT (1) AT301250T (en)
AU (1) AU760903B2 (en)
DE (1) DE60021730T2 (en)
TW (1) TW459103B (en)
WO (1) WO2001004499A2 (en)
CN100351531C (en) * 2005-04-30 2007-11-28 谢秉誉 Anti taking off nut
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WO2008045360A2 (en) * 2006-10-05 2008-04-17 Monogram Aerospace Fasteners, Inc. Dual-action disposable clamp
WO2011009068A1 (en) * 2009-07-17 2011-01-20 Monogram Aerospace Fasteners, Inc. Low profile dual-action disposable clamp
KR101449188B1 (en) * 2012-12-21 2014-10-13 주식회사 포스코 Fastening structure of blind bolt with a stabel head
CN105058315B (en) * 2015-07-22 2016-10-26 同济大学 A kind of rotating rod type unilateral bolt fastener auxiliary mounting tool
CN105150156B (en) * 2015-09-21 2017-10-13 南车株洲电力机车研究所有限公司 A kind of stud nut embedded sleeve barrel and built-in process
TWI615556B (en) * 2016-03-24 2018-02-21 High tension screw
KR102099898B1 (en) 2018-06-14 2020-04-10 (주)에이패스 Blind bolt auto-assembly and caulking device
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JPH0627525B2 (en) * 1988-02-27 1994-04-13 住金精圧品工業株式会社 Fastener
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1999-07-13 US US09/352,128 patent/US6247883B1/en not_active Expired - Lifetime
2000-06-14 DE DE2000621730 patent/DE60021730T2/en not_active Expired - Lifetime
2000-06-14 WO PCT/US2000/016472 patent/WO2001004499A2/en active IP Right Grant
2000-06-14 CN CNA008138109A patent/CN1498313A/en not_active Application Discontinuation
2000-06-14 ES ES00942839T patent/ES2246868T3/en not_active Expired - Lifetime
2000-06-14 CA CA 2379063 patent/CA2379063C/en not_active Expired - Lifetime
2000-06-14 KR KR1020027000528A patent/KR100752102B1/en active IP Right Grant
2000-06-14 EP EP20000942839 patent/EP1203163B1/en not_active Expired - Lifetime
2000-06-14 AT AT00942839T patent/AT301250T/en not_active IP Right Cessation
2000-06-14 AU AU57409/00A patent/AU760903B2/en not_active Expired
2000-06-14 JP JP2001509876A patent/JP4733887B2/en not_active Expired - Lifetime
2000-07-28 TW TW89113850A patent/TW459103B/en not_active IP Right Cessation
CA2379063A1 (en) 2001-01-18
WO2001004499A3 (en) 2001-07-19
JP2003504571A (en) 2003-02-04
EP1203163A2 (en) 2002-05-08
AU760903B2 (en) 2003-05-22
KR100752102B1 (en) 2007-08-28
AU5740900A (en) 2001-01-30
WO2001004499A2 (en) 2001-01-18
US6247883B1 (en) 2001-06-19
EP1203163A4 (en) 2003-05-28
KR20020042801A (en) 2002-06-07
ES2246868T3 (en) 2006-03-01
AT301250T (en) 2005-08-15
WO2001004499B1 (en) 2001-08-16
DE60021730D1 (en) 2005-09-08
EP1203163B1 (en) 2005-08-03
JP4733887B2 (en) 2011-07-27
TW459103B (en) 2001-10-11
CA2379063C (en) 2007-08-07
CN1498313A (en) 2004-05-19
ES2312776T3 (en) 2009-03-01 Nut blind remache type.
US7823262B2 (en) 2010-11-02 Method of replacing a nut plate fastener assembly