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Claims  |
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The embodiments of the invention in which an exclusive property or
privilage are claimed are defined as follows:
1. A slider for a cutter knife comprising:
a slider main body which has a connecting protrusion capable of engaging
with a cutter blade and is inserted together with said cutter blade into a
holder for longitudinal movement therein;
a resilient stopper provided in said slider main body, said resilient
stopper having a forwardly slanted resilient flap and a backwardly slanted
resilient flap both provided with respective free ends which respectively
engage with two spaced-apart stopper dents of a plurality of stopper dents
formed in said holder so as to prevent said slider main body from
longitudinally moving relative to said holder;
a slider knob provided on said slider main body, said slider knob being
movable longitudinally to a neutral, forward movement or backward movement
position, with the neutral position being located between the forward and
backward movement positions; and,
a release protrusion attached to said slider knob, said release protrusion
allowing both said resilient flaps to engage with said stopper dents when
said slider knob is located at the neutral position while allowing said
forwardly slanted resilient flap alone to disengage from said stopper
dents when said slider knob is located at the forward movement position
and further allowing said backwardly slanted resilient flap to disengage
from said stopper dents when said slider knob is located at the backward
movement position.
2. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is made of an approximately V-shaped torsion wire
spring.
3. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is made of an approximately V-shaped plate spring.
4. A slider for a cutter knife as claimed in claim 1, wherein said
forwardly slanting resilient flap and said backwardly slanting resilient
flap are of one integral piece.
5. A slider for a cutter knife as claimed in claim 1, wherein said
forwardly slanting resilient flap and said backwardly slanting resilient
flap of said resilient stopper are of separate pieces.
6. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is of an approximate V-shape with said forwardly
slanting resilient flap being placed at the forward position and said
backwardly slanting flap at the backward position.
7. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is of a triangle shape having an opening at its top with
said forwardly slanting resilient flap being placed at the backward
position and said backwardly slanting resilient flap at the forward
position.
8. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is mounted on said slider main body by means of a pin.
9. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is fastened to said main body by means of a screw.
10. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is fastened by means of insertion into said slider main
body.
11. A slider for a cutter knife as claimed in claim 1, wherein said
resilient stopper is made from the same material as said slider main body
and is an integral part thereof.
12. A slider for a cutter knife as claimed in claim 1, wherein one portion
of each said forwardly slanting resilient flap and said backwardly
slanting resilient flap of said resilient stopper directly touches said
release protrusion.
13. A slider for a cutter knife as claimed in claim 1, wherein a portion
for exclusively touching said release protrusion is provided on said
forwardly slanting resilient flap and said backwardly slanting resilient
flap of said resilient stopper.
14. A slider for a cutter knife as claimed in claim 1, wherein said release
protrusion is a one-piece structure protruding from said slider knob.
15. A slider for a cutter knife as claimed in claim 1, wherein said release
protrusion comprises two spaced-apart pieces protruding from the slider
knob, respectively.
16. A slider for a cutter knife as claimed in claim 1, wherein said release
protrusion is positioned between said forwardly slanting resilient flap
and said backwardly slanting resilient flap of said resilient stopper,
said resilient stopper having an approximate V shape.
17. A slider for a cutter knife as claimed in claim 15, wherein one of the
two pieces of said release protrusion is positioned in the front of said
backwardly slanting resilient flap and the other in the rear of said
forwardly slanting resilient flap and said resilient stopper has a
triangle shape having an opening at its top.
18. A slider for a cutter knife comprising:
a slider main body which has a connecting protrusion capable of engaging
with a cutter blade and is inserted together with said cutter blade into a
holder for longitudinal movement therein;
a resilient stopper provided in said slider main body, said resilient
stopper having a forwardly slanted resilient flap and a backwardly slanted
resilient flap both provided with free ends which respectively engage with
two spaced-apart stopper dents of a plurality of stopper dents formed in
said holder so as to prevent said slider main body from longitudinally
moving relative to said holder;
a slider knob provided on said slider main body, said slider knob being
movable longitudinally to a neutral, forward movement or backward movement
position, with the neutral position being located between the forward and
backward movement positions; and,
a release protrusion attached to and movable with said slider knob, said
release protrusion allowing both said resilient flaps to engage with said
stopper dents when said slider knob is located at the neutral position,
said release protrusion pressing against said forwardly slanted resilient
flap in the direction of said longitudinal movement to disengage said
forwardly slanted resilient flap from said stopper dents when said slider
knob is located at the forward movement position and pressing against said
backwardly slanted resilient flap in the direction of said longitudinal
movement from said stopper dents when said slider knob is located at the
backward movement position.
19. A slider for a cutter knife comprising:
a slider main body which has a connecting protrusion capable of engaging
with a cutter blade and is inserted together with said cutter blade into a
holder for longitudinal movement therein;
a resilient stopper provided in said slider main body, said resilient
stopper having a forwardly slanted resilient flap and a backwardly slanted
resilient flap both provided with free ends which respectively engage with
two spaced-apart stopper dents of a plurality of stopper dents formed in
said holder so as to prevent said slider main body from longitudinally
moving relative to said holder;
a slider knob provided on said slider main body, said slider knob being
movable longitudinally to a neutral, forward movement or backward movement
position, with the neutral position being located between the forward and
backward movement positions; and,
a release protrusion attached to said slider knob, and movable only
longitudinally relative to said slider main body, said release protrusion
allowing both said resilient flaps to engage with said stopper dents when
said slider knob is located at the neutral position while allowing said
forwardly slanted resilient flap alone to disengage from said stopper
dents when said slider knob is located at the forward movement position
and further allowing said backwardly slanted resilient flap to disengage
from said stopper dents when said slider knob is located at the backward
movement position. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The present invention relates to a slider for a cutter knife, and more
particularly, to improvements in an autolock slider applicable to a
stepwise sliding type cutter knife.
Japanese Patent Publication Open to Public Inspection No. 58-136075
discloses a slider for a stepwise sliding type cutter knife, the slider
comprising a slider main body having a connecting protrusion capable of
connecting to a cutter blade and which is inserted together with the
cutter blade into a holder thereby permitting longitudinal movement
therein. A resliient stopper is provided in the slider main body and is
capable of engaging one of a plurality of stopper dents formed in the
holder. A slider knob is provided in the slider main body to permit
longitudinal movement therein. The slider knob may be set in a neutral
position or in forward and backward movement positions between which the
neutral position is placed. A restraining protrusion, which is provided in
the slider knob, causes the resilient stopper to remain engaged with the
stopper dents formed in the holder when the knob is in the neutral
position and releases the above-mentioned restraint when the knob is in
the forward and rearward movement positions. A spring is provided between
the slider main body and the slider knob for forceably maintaining the
slider knob in the neutral position. However, the above-mentioned slider
had a disadvantage in that the slider has a so-called two-step mechanism
wherein the knob is brought into the neutral position by the spring so as
to lock the slider against the holder while the restraining protrusion
restrains the resilient stopper from moving. Thus, the structure is
complicated and reliable functioning cannot be expected without first
enhancing the assembly accuracy.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a slider for a cutter
knife which is made simple in structure and which functions without the
necessity of enhancing the assembly accuracy.
An object of the present invention is to provide a novel resilient stopper
and resilient stopper control in a slider of the type having a slider main
body provided with a resilient stopper and a slider knob and a release
protrusion provided in the slider knob. The slider main body includes a
connecting protrusion which can connect to a cutter blade and is inserted
together with the cutter blade into a holder thereby permitting
longitudinal movement therein. The resilient stopper includes a forwardly
slanting resilient flap and a backwardly slanting resilient flap, whose
free ends engage each of two separated stopper dents formed in the holder
so as to prevent the slider main body from longitudinally moving against
the holder. The slider knob is slidable longitudinally in the slider main
body and can be set in a neutral position or in a forward or a rearward
movement position. The release protrusion, when the slider knob is in the
neutral position, allows both resilient flaps of the resilient stopper to
engage the stopper dents formed in the holder. When the slider knob is in
the forward movement position the release protrusion disengages only the
forwardly slanting resilient flap from the stopper dents and, when the
slider knob is in the backward movement position the release protrusion
disengages only the backwardly slanting resilient flap from the stopper
dents.
Other objects of the invention and its mode of operation will become
apparent upon consideration of the following description and accompanying
drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a front view, partially in section, of the main portion of a
slider and cutter knife constructed according to the present invention;
FIG. 2 is a top view of the slider of FIG. 1;
FIG. 3 is a rear view of the slider of FIG. 1;
FIG. 4 is a vertical sectional side view of the slider of FIG. 1;
FIG. 5 is a view siilar to FIG. 1 showing forward movement of the slider;
FIG. 6 is a plan view of the slider according to a second embodiment of the
invention;
FIG. 7 is a vertical sectional front view of the main portion of the slider
of FIG. 6;
FIG. 8 is a side sectional view of the slider of FIG. 6;
FIG. 9 is a cutaway front view of the main portion of a further embodiment
of the slider;
FIG. 10 is an exploded perspective view of the slider shown in FIG. 1;
FIG. 11 is a perspective view of one embodiment of a slider knob;
FIG. 12 is a front sectional view illustrating further embodiments of the
resilient stopper and release protrusion,
FIG. 13 is a sectional view of an embodiment wherein the stopper flaps are
formed as two separate pieces; and,
FIG. 14 is a sectional view of an embodiment wherein the stopper flaps are
integrally formed with the slider main body.
DETAILED DESCRIPTION OF THE INVENTION
As illustrated in FIGS. 1-5 and 10, a slider 1 constructed in accordance
with the principles of the present invention comprises a slider main body
2, a resilient stopper 3, a slider knob 4 and a release protrusion 5. The
slider main body 2 includes a connecting protrusion 6 which engages a hole
41 in a cutter blade 40. The cutter blade and slider main body are
inserted from one end into a C-shaped holder 30.
For purposes of the following description, the front of the slider faces
out of the page in FIG. 1. It will be understood that only a portion of
cutter blade 40 is shown in FIG. 1, the portion of the blade that is not
shown extending to the left in FIG. 1, this being referred to as the
forward direction. The slider main body 2 also includes a rectangular base
plate 7 from which the connecting protrusion 6 and a projection 8 extend
to the front. As best seen in FIG. 10, guide grooves 9 and 10 are cut in
the longitudinal direction on the top and bottom of the projection 8 and a
cavity 11 is hollowed out from the upper guide groove 9 to the inside of
the projection 8. Longitudinally extending oblong holes 12 and 13 are
perforated in line with each other in the projection 8 and the base plate
7, respectively. Pin holes 14 and 15 are positioned below these oblong
holes and perforated in the projection 8 and the base plate 7,
respectively. The slider main body 2 is assembled to holder 30 by
inserting its connecting protrusion 6 into the hole 41 in the cutter blade
40 and then inserting the blade and slider main body into the holder. The
lower end of the upper front wall 31 of the holder 30 and the upper end of
the front wall 32 thereof are respectively received in the upper guide
groove 9 and the lower guide groove 10 on the slider main body 2 for
allowing the slider 1 to slide longitudinally on the holder 30.
In the embodiment of FIGS. 1-5 and 10, the resilient stopper 3 is made of
an approximately V-shaped torsion wire spring having a forwardly slanting
resilient flap 16, a backwardly slanting resilient flap 17 and a wound or
coiled portion 18 connecting flaps 16 and 17. The free ends of flaps 16
and 17 are bent horizontally to the rear and front, respectively, as shown
in FIG. 2. The resilient stopper 3 is installed in the cavity 11 of the
slider main body 2 and is fastened therein by inserting a pin 20 into the
pin hole 14, the wound portion 18 and pin hole 15.
The free ends of each of the flaps 16 and 17 engage two separated or
spaced-apart stopper dents 33 formed at regular intervals on the lower
side of the upper front wall 31 of the knife holder 30.
The slider knob 4 is mounted on the slider main body 2 so as to permit
longitudinal relative movement with respect to the slider main body to a
neutral position, and forward and backward movement positions. The slider
knob 4 comprises a plate member 21 having approximately the same size as
the projection 8 and a lower wall 22 extending to the rear from the bottom
of the plate member 21. The slider knob 4 is superimposed on the front
side of the projection 8 to permit longitudinal sliding movement relative
thereto. A release protrusion 5 is provided on the slider knob 4 and
allows both the resilient flaps 16 and 17 of the resilient stopper to
engage with the stopper dents 33 when the slider knob 4 is located in the
neutral position. The release protrusion 5 disengages only the forwardly
slanting resilient flap 16 from a stopper dent 33 when the slider knob 4
is located in the forward movement position, and disengages only the
backwardly slanting resilient flap 17 from a stopper dent when the slider
knob is located in the backward movement position.
The release protrusion 5 comprises a plate 23, which projects on the rear
side of the slider knob 4 and is inserted loosely into the oblong holes 12
and 13 formed in the slider main body 2, and a stopper protrusion 24 (FIG.
11) which protrudes forwardly in the middle of the projecting plate 23.
The longitudinal length of the projecting plate 23 is shorter than that of
the oblong holes 12 and 13 and is shorter than the distance between the
free ends of the forwardly and backwardly slanting resilient flaps 16 and
17 so that the release protrusion 5 can be located between the resilient
flaps 16 and 17 as illustrated in FIG. 1. The stopper protrusion 24 on the
release protrusion 5 always engages with one portion of the forwardly
slanting resilient flap 16 so as to prevent the slider knob 4 from being
removed from the slider main body 2.
Since the longitudinal movement of the release protrusion 5 is confined in
the oblong holes 12 and 13, the relase protrusion 5, which is attached to
the slider knob 4, further serves as a stopper which allows the slider
knob 4 to longitudinally move within a limited range in relation to the
slider main body 2, thus permitting the slider knob 4 to take the neutral,
forward movement or backward movement position.
FIGS. 1-4 illustrate the slider in its detented or autolocked position
where it is not movable relative to the holder 30. The slider knob 4 is
located in the neutral position and the free end of each of the resilient
flaps 16 and 17 engages two separated stopper dents 33 formed in the
holder 30. The release protrusion 5 is positioned between the free ends of
both the resilient flaps 16 and 17 by their resilience, allowing both the
resilient flaps 16 and 17 to engage with the stopper dents 33. Even if a
force is applied to the cutter blade 40 to move it forwardly, movement of
the slider and blade is prevented because the forwardly slanting resilient
flap 16 engages with a stopper dent 33. Conversely, if a force is applied
to the cutter blade 40 to move it rearwardly, movement of the slider and
blade is prevented because the backwardly slanting resilient flap 17
engages with a stopper dent 33. Therfore, the cutter blade 40 and the
slider 1, even when an external force is applied to the blade, are
autolocked against the holder 30 and will not move in the longitudinal
direction.
To permit the slider 1 and cutter blade 40 to move forwardly in the holder
30, the slider knob 4 located in the neutral position is forced to move
forwardly by applying a force with a thumb. This moves the slider 1 to the
forward movement position and, as shown in FIG. 5, the release stopper
disengages the forwardly slanting resilient flap 16 from the stopper dents
formed in the holder 30. Upon the application of further force the release
protrusion 5 touches the forward side of the oblong holes 12 and 13, and
the main body 2 and the slider knob 4 both move in the forward direction
causing the cutter blade 40 connected to the connecting protrusion 6 to
move forwardly. During the forward movement the backwardly slanting
resilient flap 17 repeats engagement and disengagement with the stopper
dents 33 formed in the holder 30, thereby allowing the slider 1 to move
stepwise.
When the thumb is released from the slider knob 4, the slider 1 stops
moving forwardly and, as shown in FIG. 1 through FIG. 4, the forwardly
slanting resilient flap 16 of the resilient stopper 3 engages with a
stopper dent 33. At the same time, resilience of the forwardly slanting
resilient flap 16 urges rearwardly the release protrusion 5 rearwardly
thus pushing the slider knob 4 attached thereto back to the neutral
position.
To permit the slider 1 to move rearwardly relative to holder 30, the slider
knob 4 located in the neutral position is forced to move rearwardly by
applying a force thereto with the thumb. The slider 1 is brought back to
the backward movement position, and the release protrusion 5 disengages
the backwardly slanting resilient flap 17 from the stopper dent 33 formed
in the holder 30. Upon application of a greater force, the slider knob 4
and the slider main body move rearwardly together by means of the release
protrusion 5, allowing the cutter blade 40 to move backwardly. During
backward movement the forwardly slanting resilient flap 16 repeats
engagement and disengagement with the stopper dents 33 thus allowing the
slider 1 to move stepwise.
As illustrated in FIGS. 1-5, the main body 2 comprises the connecting
protrusion 6, the base plate 7, the projection 8, the guide grooves 9 and
10, the cavity 11, the oblong holes 12 and 13 and pin holes 14 and 15.
However, the construction is not limited only to that shown in FIGS. 1-5.
As shown in FIGS. 6 through FIG. 8, for instance, the cavity 11 formed in
the projection 8 may be open on the top side and the front side, the
oblong hole may be provided only in the base plate 7, and the pin 20 may
be attached to the base plate 7, thus making the pin holes 14 and 15
unnecessary. Furthermore, the main body 2 comprises plate member 21 having
upper and lower protrusions 25 to the rear thereof and superimposed on the
upper and lower portions of the projection 8 to prevent the slider main
body 2 and the slider knob 4 from moving vertically relative to each other
while allowing the slider knob to move longitudinally relative to the main
body.
In FIGS. 6-8, the resilient stopper 3 comprises an approximately V-shaped
torsion wire spring. As shown in FIG. 9, the stopper 3 may, for instance,
be an approximately V-shaped plate spring made from spring steel or
synthetic resin. The tips of the plate spring are also V-shaped as shown
in FIG. 9 and do not require the extensions bent to the front and rear, as
required for the embodiment of FIG. 6. Although the forwardly slanting
resilient flap 16 and the backwardly slanting resilient flap 17 are shown
as being of one integral piece they may comprise two separate pieces as
illustrated in FIG. 13. In a further embodiment, and as illustrated in
FIG. 12, the resilient stopper 3 may be of an approximate C shape (a
triangle shape having an opening at its top) with the forwardly slanting
resilient flap 16 being placed at the rear position and the backwardly
slanting resilient flap 17 at the forward position.
In FIGS. 1-5, the release protrusion 5 is positioned between the forwardly
slanting resilient flap 16 and the backwardly slanting resilient flap 17
because the resilient stopper 3 is of an approximately V-shape. However,
when the resilient stopper 3 is, for instance, of an approximate C-shape
(a triangle having an opening at it top), the release protrusion 5 may
comprise two pieces, one positioned forwardly of the backwardly slanting
resilient flap 17 and another rearwardly of the forwardly slanting
resilient flap 16, as illustrated in FIG. 12.
The resilient stopper 3 need not be fitted to the main body 2 with the pin
20, but may be fastened, for instance, with a screw or by means of
insertion into the slider main body. When the material of construction for
the resilient stopper 3 is the same as that for the slider main body 2,
the resilient stopper 3 may be an integral part thereof as illustrated in
FIG. 14.
The resilient stopper 3 need not be constructed so that one portion of each
of the forwardly slanting resilient flaps 16 and the backwardly slanting
resilient flap 17 directly touches the release protrusion 5. Instead, a
portion for exclusively touching the release protrusion 5 may be provided
in the forwardly slanting resilient flap 16 and the backwardly slanting
resilient flap 17.
From the foregoing description it is seen that the slider comprises the
slider main body, the resilient stopper, the slider knob and the release
protrusion and is so constructed that the forwardly slanting resilient
flap and the backwardly slanting resilient flap of the resilient stopper
engage with two separated or spaced stopper dents formed in the holder so
as to directly prevent the slider main body from longitudinally moving
relative to the holder. The slider, therefore, can be made simple in
structure and can function smoothly and flawlessly without the necessity
of improving the assembly accuracy.
The slider is so constructed that the release protrusion and the slider
knob are brought to the neutral position by utilizing the resilience of
the resilient stopper. Therefore, for returning the slider knob to the
neutral position a separate spring member is not necessary in contrast to
prior art devices, thus minimizing the number of parts.
The slider is so constructed that the forwardly slanting resilient flap and
backwardly slanting resilient flap of the resilient stopper engage with
two spaced-apart stopper dents formed in the holder, thus firmly
restraining the main slider body relative to the holder and, therefore,
improving stability of the slider.
Finally, the simple structure of the slider reduces manufacturing costs and
facilitates the assembly operation.
While preferred embodiments of the invention have been described in
specific detail, it will be understood that various modifications and
substitutions may be made in the described embodiments without departing
from the spirit and scope of the invention as defined by the appended
claims.
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