Two ended retractable writing instrument

A writing instrument includes a cam member and first and second cam follower members arranged to simultaneously project or retract upper and lower members from opposite open ends of a barrel when one barrel section is rotated about a writing instrument longitudinal axis relative to a stationary second barrel section.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
This invention relates to writing instruments and, more particularly, to 
writing instruments adapted to simultaneously project or retract upper and 
lower members from opposite open ends of a barrel. 
2. Description of the Prior Art 
Writing instruments having a twist-type mechanism capable of projecting or 
retracting writing medium assemblies such as pen nibs from opposite open 
ends of a barrel are well known in the art. However, such writing 
instruments require a relatively complicated and expensive project or 
retract mechanism. Some of the prior art writing instruments also rotate 
the pen nibs during displacement and cause the pen nibs to scrape and wipe 
ink against the inside surface of the barrel. The collected ink on the 
inside surface of the barrel could eventually foul the pen nib. 
Accordingly, it is desired to provide a writing instrument with a 
relatively simple and inexpensive project or retract mechanism capable of 
simultaneously projecting or retracting writing medium assemblies from 
opposite open ends of a barrel without scraping against an inside surface 
of the barrel. 
SUMMARY OF THE INVENTION 
A retractable writing instrument includes a barrel means having a lower 
section coaxially assembled end-to-end with an upper section so as to be 
rotatable about a longitudinal axis of the writing instrument. A lower 
retractable member is coaxially mounted within the lower barrel section to 
telescopically move in and out of an open end of the lower barrel section. 
An upper retractable member is coaxially mounted within the upper barrel 
section to telescopically move in and out of the upper barrel section. A 
tubular cam means is coaxially mounted within the upper barrel section 
between the upper and lower retractable members. The cam means has a 
spiral shaped, first end and a spiral shaped second end, providing first 
and second spiral paths. A tubular first cam follower member having a key 
and a bearing surface at one end is disposed within the upper barrel 
section between the upper retractable member and the cam member with said 
bearing surface touching the spiral shaped first end. A tubular second cam 
follower member having a keyway and a bearing surface at one end is 
disposed within the upper barrel section between the lower retractable 
member and the cam member with the second cam follower member bearing 
surface touching the spiral shaped second end and the key slidingly 
engaged in the keyway. Rotation of the lower section about the writing 
instrument longitudinal axis causes the first and second cam follower 
members to simultaneously rotate about the axis following the first and 
second spiral paths and the upper and lower retractable members to 
telescopically move in and out of the open ends of the upper and lower 
sections of the barrel means.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring to FIGS. 1 and 2, there is shown an exploded view and a partially 
sectioned view of a writing instrument 10 including a barrel 11 containing 
means for simultaneously projecting or retracting upper 12 and lower 14 
members, such as an eraser and writing nib, from opposite open ends 16,18 
of the barrel 11. The barrel 11 comprises a coaxial end-to-end assembly of 
hollow upper 20 and lower 22 barrel sections. The writing instrument is 
adapted to project or retract the eraser 12 and writing nib 14 when either 
the lower barrel section 22 or the upper barrel section 20 is rotated 
about the longitudinal axis 23 of the writing instrument 10. The upper 
barrel section 20 houses a project or retract mechanism having a hollow 
cylindrically shaped cam member 24 and first 26 and second 28 cam follower 
members. The eraser 12 is coupled to the first cam follower member 26 and 
the writing nib 14 is coupled to the second cam follower member 28. The 
cam member 24 is encircled by a raised serrated ring 30 and has first 32 
and second 34 opposite ends cut in the form of spirals. 
As further described below, the spiral shaped ends 32,34 act as cams for 
imparting a translational movement simultaneously to the first 26 and 
second 28 cylindrically shaped hollow cam follower members when either the 
cam member 24 or any one of the cam follower members 26,28 are rotated 
about the longitudinal axis 23 of the writing instrument 10. The pitch of 
the first spiral end 32 may be different from the pitch of the second 
spiral end 34 if the translational displacements of the eraser 12 and 
writing nib 14 are different. 
The cam member 24 and second cam follower member 28 are coaxially disposed 
inside tubular member 36 having a bell shaped end 38 tightly pressed 
inside the upper barrel section 20. The tubular member 36 includes locking 
means arranged to cooperate with the cam member 30 so that the tubular 
member 36, cam member 24, and upper barrel section 20 will rotate together 
about the writing instrument axis 23. In the preferred embodiment, the 
locking means include inwardly projecting protuberances 40 formed near an 
end 42 of the tubular member 36. The protuberances 40 are forced into the 
serrations 43 on the ring 30 during assembly and when the tubular member 
end 42 is peened over a non-serrated edge 44 of the ring. Thus, it will be 
appreciated that rotation of the upper barrel section 20 about the 
longitudinal axis 23 of the writing instrument causes rotation of the 
assembled tubular member 36, and cam member 24 about the same axis 23. 
The first cam follower member 26 has a raised ring 46 and ridge 48 on an 
outside surface. The ridge 48 has one end 50 integrally formed with the 
ring 46 and is arranged to longitudinally extend in a direction 
substantially parallel to the longitudinal axis of the first cam follower 
member 26. A key or ridge 52 is formed on an inside surface of the first 
cam follower member 26 so as to longitudinally extend in a direction 
substantially parallel to the ridge 48 on the outside surface. The first 
cam follower member 26 is assembled in the upper barrel section 20 so that 
a free end 54 of the ridge 48 bears against an opposing first sprial end 
32 of the cam member 24. 
A first cylindrical sleeve 56 having an outwardly projecting flange 58 is 
loosely assembled onto an end 60 of the first cam follower member 26 and 
against a raised edge 62 of the ring 46. The cam follower end 60 is free 
to rotate about its longitudinal axis without causing the loose fitting 
sleeve 56 to also rotate. A helical spring 64 is assembled over the first 
sleeve 56 so as to be disposed between the flange 58 and an edge 66 of a 
second cylindrical sleeve 68 coaxially pressed inside the open end 16 of 
the upper barrel section 20. The helical spring 64 provides a bias force 
continually urging the first sleeve flange 58 against the first cam 
follower member 26 and thus, the ridge end 54 of the first cam follower 
member 26 against the first spiral cam end 32. A suitable eraser 12 and 
holder 70 is inserted into the open ends of the upper barrel section 20, 
and first 56, and second 68 sleeves so that a holder end 72 bears against 
a free end 74 of the first cam follower member 26. The eraser 12 and 
holder 70 are arranged to reciprocally move in and out of the open end 16 
of the upper barrel section 20 without rotating in response to a 
translational displacement of the first cam follower member 26. The 
translational displacement of the eraser 12 is determined by the pitch of 
the first spiral cam end 32. 
The second cam follower member 28 has a first section 76 with a 
longitudinally extending hole 77 terminating with a lip 79. The first 
section 76 has an external surface with a relatively large cross-sectional 
diameter that linearly tapers inwardly to merge with a second section 78 
having a reduced cross-sectional diameter. A ridge 80 having one end 81 
integrally formed with the tapered portion of the second cam follower 28 
is arranged to longitudinally extend along the outer surface of the second 
section 78 in a direction substantially parallel to the longitudinal axis 
of the second cam follower member 28. Longitudinally extending splines 83 
are provided on an inside surface of the first section 76 and a 
longitudinally extending keyway 82 shown in FIGS. 6 and 7 is cut into the 
second section 78. The second cam follower member 28 is assembled in the 
tubular member 36 so that a free end 84 of the ridge 80 bears against the 
opposing second spiral end 34 of the cam member 24. 
The lower barrel section 22 includes a tubular mid portion 86 and a tubular 
lower portion 88. The mid portion 86 has an externally threaded end 90, a 
radial groove 92 encircling the mid portion 86, and longitudinally 
extending splines 94 formed on an end 96 opposite the threaded end 90. The 
mid portion 86 is adapted to be coaxially assembled end-to-end with the 
second cam follower 28 so that rotation of the lower barrel section 22 
causes rotation of the second cam follower member 28 and engaged first cam 
follower member 26 relative to the stationary cam member 24. In the 
preferred embodiment, this is accomplished by inserting the mid portion 86 
of the lower barrel section 22 into the tubular member 38 and meshing the 
splined end 94 of the mid portion 86 with the splines 83 on the inside 
surface of the second cam follower 28. The meshing of the splines 83,94 
prevent a rotational displacement of the mid portion 86 relative to the 
second cam follower 28. 
A suitable writing nib 14, such as a ball point at an end of a cartridge 98 
containing an erasable ink described in U.S. Pat. No. 4,097,290, is 
loosely inserted into the mid portion 86 and the hole 77 in the second cam 
follower member 28. The threaded end 90 of the mid portion 86 is adapted 
to screw into an internally threaded end 100 of the lower portion 88 to 
permit easy access to the cartridge 98 assembled therein. A ring 102 is 
interposed between the lower 88 and mid portions 86 to minimize binding 
when the lower 88 and mid portions 86 are screwed together. A helical 
spring 104 is assembled over the nib 14 and inside the lower portion 88 so 
as to be placed between an internal groove 106 in the lower portion 88 and 
a tapered section 108 or protuberance on the cartridge 98. The helical 
spring 104 provides a bias force continually urging an opposite end 110 of 
the cartridge against the terminus and lip 79 of the hole 77 in the second 
cam follower member 28, whereby the ridge end 84 on the second cam 
follower member 28 is forced against the second spiral cam end 34. It will 
be appreciated that the loose fit of the cartridge 98 in the lower barrel 
section 22 and second cam follower member 28 allows the writing nib 14 to 
reciprocally move in and out of the open end 18 of the lower portion 88 
without rotating in response to a translational displacement of the second 
cam follower member 28. The translational displacement of the writing nib 
14 is determined by the pitch of the second spiral cam end 34. 
Rotational movement of the lower barrel section 22 relative to the upper 
barrel section 20 is enhanced by use of a sleeve 112 having an inwardly 
projecting lip 114 or flange on one end and and outwardly projecting 
flange 116 on an opposite end. The sleeve 112 is assembled over the mid 
portion 86 so that the inwardly projecting lip 114 is received in the 
radial groove 92. The inside sleeve diameter is larger than the diameter 
of the mid portion 86, so that the sleeve may rotate easily about its 
longitudinal axis without significant interference from the mid portion 
86. The bell shaped end 38 of the tubular member 36 is pressed tightly 
onto the sleeve 112 so that the sleeve 112 and tubular member 36 may 
rotate as a unit around the longitudinal axis of the writing instrument 
10. 
Referring to FIGS. 3, 4, and 5 there is shown front views of the assembled 
cam 24 and cam follower members 26,28 useful in describing the rotational 
and translational displacement of the cam follower members 26,28 occuring 
when the lower barrel section 22 is rotated about the writing instrument 
longitudinal axis 23 and the upper barrel section 20 is held stationary. 
FIG. 3 shows the relative positions of the cam 24 and cam follower member 
26,28 when the writing nib 14 and eraser 12 are fully retracted within the 
open ends 18,16 of the lower 22 and upper barrel sections (FIG. 2). In the 
retracted position, the ridge ends 54,84 and ridge sides 118,120, bear 
against a first terminus 122,124, of the first 32 and second 34 spiral cam 
ends. When the upper barrel section 20 is held stationary and the lower 
barrel section 22 is rotated clockwise about the axis 23, the engaged or 
connected first 26 and second 28 cam follower members are caused to rotate 
clockwise about the axis. The direction in which the spiral paths 32, 34 
wind around the cam member 24 is selected so that the rotating cam 
follower members 26,28 will also be translationally displaced. In 
particular, the spiral paths 32,34 direct the rotating ridge ends 54,84 
away from each other, as shown in FIG. 4. The rotation and displacement of 
the cam follower members 26,28 can continue until the ridge ends 54,84 and 
sides 126,128 strike a stationary second terminus 130,132 of the first 32 
and second 34 spiral cam ends shown in FIG. 5. In this position, the 
writing nib 14 and eraser 12 project from the open ends 18,16 of the lower 
22 and upper 20 barrel sections. It will be understood that the projecting 
nib 14 and eraser 12 can be retracted by reversing the aforementioned 
procedure. If the lower barrel section 22 is held stationary, and the 
upper barrel section 20 is rotated about the axis 23, the cam member 24 is 
caused to rotate in the same direction about the axis. The rotating spiral 
cam ends 32,34 push against the ridge ends 54,84 of the cam follower 
members 26,28 causing them to be translationally displaced without 
rotation. The translational displacement of the cam follower members 26,28 
can continue until either the first or second terminus of the spiral cam 
ends 32,34 rotationally move against the non-rotating ridges 48,80 of the 
cam follower members 26,28. 
Referring to FIGS. 6 and 7, there is shown a cross-sectional view and a 
longitudinally sectioned view of the second section 78 of the second cam 
follower member 28 slidably assembled inside the first cam follower member 
26 which in turn is slidably assembled inside the cam member 24. The cam 
member 24 and cam follower members 26,28 are assembled so that the key 52 
on the first cam follower member 26 is received in the keyway 82 of the 
second cam follower member 28. The key 52 on the first cam follower member 
26 is intended to slide in the keyway 82 of the second cam follower member 
28 to permit a translational displacement of the cam follower members 
26,28 relative to each other. However, the key 52 and keyway 82 
cooperatively act to prevent relative rotational movement between the cam 
follower members 26,28. Thus, rotating the second cam follower member 28 
about the axis will cause rotation of the first cam follower member 26. 
A writing instrument 10 has been described including a cam 24 and cam 
followers 26,28 assembled to simultaneously project or retract upper 12 
and lower 14 members from opposite open ends 16,18 of the barrel 11. In 
the preferred embodiment, the lower member 14 is a writing nib in the form 
of a ball point at one end of a cartridge 98 containing an erasable ink. 
If desired, any writing nib could be coupled to the second cam follower 
member 28 in the manner described or a second writing nib could replace 
the eraser 12 without departing from the invention. Thus, many other 
arrangements can readily be devised in accordance with the disclosed 
principle by those skilled in the art.