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1. Field of the Invention
This invention relates generally to automatic riveting devices, and more particularly to a rivet magazine for an automatic feed blind or pop-rivet setting device.
2. Description of Related Art
Considerable technological effort has been expended in developing blind or pop or mandrel-type rivets, hereinafter collectively referred to as blind rivets, and the associated manually operated devices for setting such rivets. The primary requirement for setting blind rivets is to support the enlarged flange of the rivet body against an anvil or rivet table with the rivet body inserted through a closely mating hole in a work surface. The mandrel extends axially through the rivet table and is gripped by jaws which tension and pull the mandrel rearwardly, expanding the body of the rivet to a point where the mandrel is fractured away. Thus, blind rivets are particularly useful in situations where a conventional riveting tool does not have access to both sides of the working surfaces to be rivet-connected together.
What appears to be a second stage in the development of blind rivets has been toward the automatic setting of the rivet wherein a source of power such as a motor, a pneumatic actuator or hydraulics are utilized to replace manual effort in expanding and setting the rivet through mandrel pull.
This riveting technology has also expanded into the development of automatic riveting devices which include an automatic feed means for the rivets themselves. Prior to such development, the user has been required to manually insert each fresh rivet into the rivet table one at a time. Because these devices still require the user to depress an actuator or trigger to set each rivet, these devices are referred to as “semi-automatic” rivet machines having an automatic feed.
The bulk of these automatic feed rivet devices fall generally into two categories. The first category is one wherein the nosepiece and/or rivet table is pivotally or arcuately connected wherein these components swing apart radially outwardly from one another so that a new rivet may be passed forward longitudinally from behind this arrangement into position, whereupon the nosepiece and/or rivet table components are closed around the rivet body and mandrel with the flange of the rivet against the distal end surface of the rivet table.
The second general category of automatic rivet feed means is directed to an external arm arrangement which swings or pivots a fresh rivet into coaxial alignment forwardly of the rivet anvil and then either automatically draws or allows the rivet to be manually moved rearwardly wherein the mandrel enters the longitudinal aperture of the rivet anvil.
Despite this considerable effort and incentive in developing such an automatic feed rivet setting device, only one such machine has successfully been marketed and is disclosed in U.S. Pat. No. 5,136,873. A rivet magazine is also disclosed in U.S. Pat. No. 5,184,497.
The present invention provides an improved feed magazine for compactly holding a large quantity of blind rivets for such a rivet setting device, which in prototype and pre-production form, has operated successfully and reliably to date. This invention offers fully automatic rivet magazine feed means for an accompanying riveter which will set rivets automatically as quickly as an operator can act to position each new rivet head into another hole in the work surface and activate the riveter.
This invention is directed to an improved one-piece magazine for compactly holding and feeding therefrom a quantity of blind rivets to a blind rivet setting device which automatically feeds blind rivets into a specially designed rivet table, then sets the rivet by pulling and detaching the mandrel. The magazine holds a thin elongated strip or ribbon of flexible material which holds and grips the mandrel tips pierced through the strip in evenly spaced apart fashion. The strip, spiral wound on the magazine, is drawn from the magazine into a feed slot formed transversely through a rivet table of the rivet setting device generally transverse to the longitudinal axis of the riveter. A spring biased retracting device may be used to continuously pull the strip through the feed slot so that the next rivet in succession facing the rivet table is automatically drawn into axial alignment within the rivet table ready for positioning and setting into a work surface.
It is therefore an object of this invention to provide an improved magazine for grippingly holding a quantity of rivets for automatic feed into an automatic rivet setting device for setting blind rivets which includes an automatic rivet feed arrangement.
It is still another object of this invention to provide an improved economically manufactured one-piece magazine for holding a quantity of rivets as part of an automatic blind rivet feed arrangement for riveting devices.
In accordance with these and other objects which will become apparent hereinafter, the instant invention will now be described with reference to the accompanying drawings.
Prior Art
The complete specification and drawings disclosed in U.S. Pat. No. 5,184,497 have been previously incorporated by reference and are repeated herein.
Referring firstly to
When assembled, a length of flexible MYLAR or plastic strip or ribbon carrying spaced apart rivets as disclosed in the ′497 patent are windingly engageable around the outer distal longitudinal edges or margins 38 and 40 of each of the longitudinal panels 16 and 18, respectively, and in the same orientation of rivet heads inward and shanks outward as shown in FIGS. 17 and 18 of the ′497 patent. The end plates overhang the distal longitudinal edges 38 and 40 at 46 and 48, respectively.
The Invention
Referring now to
The magazine 52 is formed as a single unit of molded plastic and includes a central support passageway 72 for the mounting of the rivet magazine 52 onto a mating support or drive shaft either attached to a rivet setting tool (not shown) or a separate support. Each of the four longitudinal panels 70 includes stiffening ribs 76 and stiffened distal longitudinal edges 78 longitudinally extending therealong. An end plate 74 is disposed at one end of the magazine 52 to provide structural strength and stability for each of the longitudinal panels 70 and to provide some supportive assistance in preventing the heads 62 of the rivets 58 from falling outside of the end envelope of the rivet magazine 52.
However, because of the relative spacing along the flexible strip 56 of each of the mandrel end portions 60a, the rivet heads 62 each press against one of the longitudinal panels 70 thus acting together in pairs tipped inwardly as best seen in
Referring now to
The peripheral edges of each end panel 84 are scalloped at 86 between corners 88 thereof and between each of the adjacent longitudinal panels 82 for weight reduction and rivet carrying strip loading and packaging convenience. The flexible strips loaded with rivets as previously described and shown in
To prevent the tightly wound flexible rivet carrying strip from inadvertently slipping off of the distal longitudinal edge 96 of one or more of the longitudinal panels 82, the tips or corners 88 of each of the end panels 84 extend radially outwardly beyond the distal edge of each longitudinal panel 82 as best seen in
Still another embodiment of the magazine of the invention is shown generally at numeral 100 in
To insure that the flexible rivet carrying strip (not shown in these drawings) is prevented from slipping off of the distal edges 112 of each of the longitudinal panels 102, overhang tabs 106 are also provided which extend radially outwardly at 114 a distance sufficient to prevent slippage of the flexible rivet carrying strip therefrom.
In
Note in this embodiment 120 that the reinforcing end panels 124 are only for providing a drive aperture 130 and for reinforcing the orientation of the end panels 122 so that they do not substantially flex when the loaded flexible rivet-carrying strip is wound therearound. That is to say that the stability of the rivets held between each adjacent longitudinal panel 122 is maintained and the rivet heads are kept from substantial movement outside of the end profile of the magazine 120 by the biased effect of the rivets against the side walls of the longitudinal panels 122 created by the flexing of the flexible rivet-carrying strip by the biasing of the entire rivet against the sides of each of the longitudinal panels 122 as previously described.
Referring now to
To insure that the MYLAR carrying strip 56 shown in phantom in
As best seen in
The support shaft 160 is best seen in
The inner shaft 174 is held in position by a threaded fastener 172 which exerts pressure against a spring or crush washer 176 positioned between an enlarged head 164 of the outer shaft 162 and an enlarged flange 168 of the inner shaft 174. By this arrangement, by adjusting the tightness of threaded fastener 172, which variably compresses the spring washer 176, relative resistance to frictional rotation between the outer tapered member 162 and the threaded proximal end 170 which remains stationary and locked into the rivet setting tool is accomplished. The threaded proximal end 170 threadably engages into a mating female thread formed into a side portion of the rivet setting tool housing as described in U.S. Pat. No. 5,136,873 which has previously been incorporated by reference to support the magazine 140.
While the instant invention has been shown and described herein in what are conceived to be the most practical and preferred embodiments, it is recognized that departures may be made therefrom within the scope of the invention, which is therefore not to be limited to the details disclosed herein, but is to be afforded the full scope of the claims so as to embrace any and all equivalent apparatus and articles.
Number | Name | Date | Kind |
---|---|---|---|
4127954 | Hausmann | Dec 1978 | A |
5184497 | Hanlon et al. | Feb 1993 | A |
5335800 | Liu | Aug 1994 | A |
5666710 | Weber et al. | Sep 1997 | A |
6098442 | Walldorf et al. | Aug 2000 | A |
6301948 | Weiland | Oct 2001 | B1 |
7076866 | Iannucci | Jul 2006 | B2 |
7347078 | Hopkins et al. | Mar 2008 | B1 |
Number | Date | Country | |
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20060102648 A1 | May 2006 | US |