[0001] This invention relates to an adjustable riveter comprising a head portion, a handle
and a fork-like pressure arm.
[0002] It is found that riveting is widely used to fasten two or more pieces of material
by passing the shank of a headed pin (rivet) through a hole in each piece and deforming
the end of the pin to form a second head. Hence, riveters have been developed to meet
this need. However, none of them can be used both in low and high positions. As such,
it is necessary for a worker to carry two kinds of riveters for low and high positions
respectively, thus causing much inconvenience to the worker.
[0003] A riveter has been described (EP-A-036210) having a jaw case, the orientation of
which is changeable as desired in accordance with the shape of the work to be riveted.
This riveter is comprising a turnable jaw case actuating support member disposed within
a forward end portion of a frame main body an mounted on a pivot for supporting a
lever on the frame main body, coupling means capable of locking the actuating support
member in a plurality of positions relative to the lever and displaced from each other
through a predetermined angle Θ, a jaw case turnable supported by the actuating support
member excentrically of the pivot and reciprocally movable straight by a reciprocal
turn of the lever through reciprocal turn of the actuating support member connected
to the lever, and a jaw case tubular housing turnably supported by the forward end
portion of the frame main body and lockable thereto in a plurality of positions angularly
spaced from each other by the same angle as the angle of displacement Θ.
[0004] Since the jaw case tubular housing of this riveter has to be positioned with bar
and two threaded bores in an upper and a lower position, it cannot be used as easily
as desired.
[0005] It is, therefore, an object of the present invention to provide an adjustable riveter
which can be regulated to adapt to low an high working positions, without the help
of any tools and without dismantling any component parts thereof.
[0006] It is still another object of the present invention to provide an adjustable riveter
which is simple in construction.
[0007] It is still another object of the present invention to provide an adjustable riveter
which ist economic to produce.
[0008] It is a further object of the present invention to provide an adjustable riveter
which is facile to manufacture.
[0009] These objects are solved by the features as defined in the claim.
[0010] The invention is explained in more detail by means of the accompanying drawings in
which
FIG. 1 is an exploded view of an adjustable riveter according to the present invention;
FIG. 2 is a sectional view of the adjustable riveter;
FIG. 3 is a working view of the adjustable riveter with the head portion at normal
position;
FIG. 4 is a working view of the adjustable riveter with the head portion at angular
position;
FIG. 5 is an exploded view of a prior art riveter with an angular head portion; and
FIG. 6 is an exploded view of a prior art riveter with a straight head portion.
[0011] For purposes of promoting an understanding of the principles of the invention, reference
will now be made to the embodiment illustrated in the drawings. Specific language
will be used to describe same. It will, nevertheless, be understood that no limitation
of the scope of the invention is thereby intended, such alternations and further applications
of the principles of the invention as illustrated herein being contemplated as would
normally occur to one skilled in the art to which the invention relates.
[0012] With reference to the drawings and in particular to FIG. 1 thereof, the adjustable
riveter according to the present invention comprises a head portion 1 with a vertical
through hole 13. A tubular member 11 is integrally formed with the lower part of the
head portion 1. On one side 14 of the head portion 1 there is an inclined surface
16 with an angle of 45 degrees. The vertical through hole 13 extends downwardly from
the top of the head portion 1 to the tubular member 11 forming a space 15. The inclined
surface 16 has a recess with threaded holes 161 at four sides and a through hole 17
at the center.
[0013] A lever 2 is provided in the space 15 by a pin 21 through a stepped hole 18 of the
head portion 1 and a through hole 22 thereof and then kept in position by a sleeve
211 and a retainer ring 212. Both ends of the lever 2 has a lug 23 with a fringe 24
adapted to engage with a slot 21 of the sleeve 12 and a neck 31 of a transmission
rod 3.
[0014] Two axial plates 4 and 5, rectangular in shape, are separately fixed on the recess
of the inclined surface 16 of the head portion 1 by screws 41 and 51 and a recess
61 in the front portion of a handle 6. The axial plate 4 is further formed with two
blind holes 42 for receiving two compressed springs 43 and steel balls 44. The axial
plate 5 is also formed with corresponding grooves 52 for confining the compressed
springs 43 and steel balls 44. The axial plates 4 and 5 have two center holes 45 and
53 so that a threaded sleeve 7 can be inserted through a hole 62 of the handle 6 and
the center holes 45 and 53 of the axial plates 4 and 5 and the center hole 17 of the
head portion 1 and then engaged with a nut 71.
[0015] The transmission rod 3 extends through the above-mentioed parts and connects with
a joint 8 at the threaded end 32 thereof. On the lower part of the transmission rod
32 there are two separated fringes 33 and 34 forming a space therebetween.
[0016] The handle 6 has a front end with an inclination of 45 degrees and a stopper 63 at
the other end. On two vertical arms 64 of the handle 6 there is a stepped hole 641.
[0017] A fork-like press arm 6, with two throngs 92 each having a front curved portion 921
and a rear curved portion 922 respectively formed with two pin holes 93 and 94, is
disposed on the handle 6. A pin 641 extends through the hole 93 of the front curved
portion 921 and out of the vertical plate 64 of the handle 6 to engage with a collar
642 and is kept in position by a retainer ring 643. A pin 941 passes through the hole
94 of the rear curved portion 922 and an elongated slot 81 of the joint 8 thereby
enabling the joint 8 to move along the handle 9.
[0018] Looking now at FIGS. 2 and 3, when not in use, the lever will urge the sleeve 12
to move to the lower position and the transmission rod is disposed at the upper position.
When the sleeve carries a rivet, press the press arm which will in turn force the
transmission rod to move downwards. Hence, the the lever will be activated to turn
upwards via the stepped pin thereby achieveing the purpose of riveting.
[0019] When desired to change the angle of the head portion 1 of the adjustable riveter,
simply turn the head portion 1 to press the steel balls to leave the grooves. As the
head portion 1 rotates through an angle of 180 degrees, the steel balls will go back
into the grooves to form a riveter as shown in FIG. 4.
[0020] Although this invention has been desribed with a certain degree of particularity,
it is understood that the present disclosure is made by way of example only and that
numerous changes in the construction and the combination and arrangement of parts
may be resorted to without departing from the spirit and scope of the invention as
hereinafter claimed.
1. An adjustable riveter comprising a head portion (1), a handle (6) and a fork-like
pressarm (9), the head portion (1) having a vertical through hole and an inclined
surface (16) having a recess with threaded holes (161) at four sides and a through
hole (17) at the center, a tubular member (11) integrally formed with the lower part
of said head portion (1), a lever (2) pivoted within said head portion (1), two axial
plates (4, 5) fixedly mounted on the top of the inclined surface (16) of the head
portion (1), the first axial plate having blind holes (42) for receiving compressed
springs (43) and steel balls (44) while the second axial plate having corresponding
grooves (52) for confining the compressed springs (43) and steal balls (44), a threaded
sleeve (7) with a top flange, extending through said axial plates (4, 5) and said
head portion (1) and kept in position by a nut (71), a transmission rod (3) extending
through said threaded sleeves (7) and provided with two spaced flanges (33, 34), the
handle (6) having a stopper (63) at the one end, and two vertical arms (64) with a
stepped hole therein, the fork-like press (9) arm having a front curved portion (921)
pivotally connected with said handle (6) and rear curved portion (922) pin connected
with a sleeve and two stepped pins disposed in the stepped holes of said head portion
(1) and said handle (6) and kept in place by a retainer ring (212), and wherein the
inclined surface (16) on one side (14) of the head portion (1) has an angle of 45°,
the handle (6) has a front end with inclination of 45°, and the front end of said
handle (6) is attached to the inclined surface (16) of the head portion (1) in such
way that the head portion can be rotated against the handle (6) around an axis orthogonal
to the inclined surface.
1. Verstellbare Nietvorrichtung, mit einem Kopfabschnitt (1), einem Handgriff (6) und
einem gabelähnlichen Preßarm (9), wobei der Kopfabschnitt (1) versehen ist mit einer
vertikalen Durchgangsbohrung und einer schrägen Oberfläche (16), die eine Aussparung
mit Gewindebohrungen (161) an vier Seiten und einer Durchgangsbohrung (17) in der
Mitte besitzt, einem röhrenförmigen Element (11), das mit dem unteren Teil des Kopfabschnittes
(1) einteilig ausgebildet ist, einem Hebel (2), der im Kopfabschnitt (1) angelenkt
ist, zwei axialen Platten (4, 5), die an der Oberseite der schrägen Oberfläche (16)
des Kopfabschnittes (1) fest angebracht sind, wobei die erste axiale Platte Blindbohrungen
(42) für die Aufnahme von Druckfedern (43) und Stahlkugeln (44) aufweist, während
die zweite axiale Platte entsprechende Rillen (52) besitzt, um die Druckfedern (43)
und die Stahlkugeln (44) einzuschließen, einer Gewindebuchse (7) mit einem oberen
Flansch, die sich durch die axialen Platten (4, 5) und den Kopfabschnitt (1) erstreckt
und mittels einer Mutter (71) an ihrer Position gehalten wird, und einem Übertragungsstab
(3), der sich durch die Gewindebuchse (7) erstreckt und mit zwei voneinander beabstandeten
Flanschen (33, 34) versehen ist, wobei der Handgriff (6) an einem Ende mit einem Anschlag
(63) und zwei vertikalen Armen (64) mit einer darin ausgebildeten gestuften Bohrung
versehen ist und wobei der gabelförmige Preßarm (9) versehen ist mit einem vorderen
gekrümmten Abschnitt (921), der am Handgriff (6) schwenkbar angebracht ist, einem
hinteren gekrümmten Abschnitt (922), der mittels eines Stifts mit einer Buchse verbunden
ist, sowie zwei gestuften Stiften, die in den gestuften Bohrungen des Kopfabschnittes
(1) bzw. des Handgriffs (6) angeordnet sind und an ihrer Position mittels eines Halterings
(212) gehalten werden, wobei die schräge Oberfläche (16) an einer Seite (14) des Kopfabschnittes
(1) einen Winkel von 45° besitzt, der Handgriff (6) ein vorderes Ende mit einer Neigung
von 45° besitzt und das vordere Ende des Handgriffs (6) an der schrägen Oberfläche
(16) des Kopfabschnittes (1) so befestigt ist, daß der Kopfabschnitt gegen den Handgriff
(6) um eine zur schrägen Oberfläche senkrechte Achse gedreht werden kann.
1. Pince à riveter réglable comprenant une partie de tête (1), une poignée (6) et un
bras de pression en forme de fourche (9), la partie de tête (1) comportant un orifice
débouchant vertical et une surface inclinée (16) ayant un évidement avec des trous
taraudés (161) sur quatre côtés et un orifice débouchant (17) au centre, un élément
tubulaire (11) venu de matière avec la partie inférieure de ladite partie de tête
(1), un levier(2) rotatif à l'intérieur de ladite partie de tête (1), deux plaques
axiales (4,5) montées fixement sur le haut de la surface inclinée (16) de la partie
de tête (1), la première plaque axiale ayant des trous borgnes (42) destinés à recevoir
des ressorts comprimés (43) et des billes d'acier (44) tandis que la seconde plaque
axiale a des rainures correspondantes (52) destinées à emprisonner les ressorts comprimés
(43) et les billes d'acier (44), une douille filetée (7) avec un flasque supérieur,
s'étendant à travers lesdites plaques axiales (4,5) et ladite partie de tête (1) et
maintenue en position par un écrou (71), une tige de transmission (3) s'étendant à
travers lesdites douilles filetées (7) et prévue avec deux flasques espacés (33,34),
la poignée (6) ayant un élément d'arrêt (63) à l'une de ses extrémités, et deux bras
verticaux (64) avec un trou étagé à l'intérieur, le bras de pression (9) en forme
de fourche ayant une partie incurvée avant (921) reliée de façon pivotante à ladite
poignée (6) et une partie incurvée arrière (922) reliée par goupille à une douille
et deux goupilles à étages disposées dans les trous à étages de ladite partie de tête
(1) et ladite poignée (6) et maintenues en place par un anneau de retenu (212), et
dans laquelle la surface inclinée (16) sur un côté (14) de la partie de tête (1) présente
un angle de 45°, la poignée (6) a une extrémité avant présentant une inclinaison de
45°, et l'extrémité avant de ladite poignée (6) est fixée à la surface inclinée (16)
de la partie de tête (1) de telle manière que la partie de tête puisse être entraînée
en rotation contre la poignée (6) autour d'un axe orthogonal à la surface inclinée.