FIELD OF THE INVENTION
[0001] The field of the invention relates to devices used for opening and closing furniture
doors and drawers and more specifically devices that have a telescopic mechanism determined
by an exterior cylinder (that is attached to the body of a piece of furniture) and
a piston that fits inside the cylinder and slides against a compression spring, so
that a means of retention acts at the end of the piston's inward stroke in such a
way that, if the outward end of the piston is pushed, this means of retention is released
and the piston begins its outward stroke under the action of the spring.
PRIOR ART
[0002] These devices work in a similar way to the mechanism by which ballpoint pens propel
and retract the tip, which is achieved by means of a heart-shaped cam. This heart-shaped
mechanism consists of a heart-shaped cam path followed, due to its geometrical form,
by a freely rotating follower that travels around it.
[0003] Until now, all attempts to use this mechanism for closing and opening furniture doors
and drawers have resorted to the most simple and direct solution of using the ballpoint
pen mechanism without first studying its degree of efficiency for the new application.
[0004] In practice it has been shown that there are certain drawbacks with directly applying
the ballpoint pen mechanism for this new purpose; one of these disadvantages is the
fact that the relationship between the retention and propulsion strokes is not ideal,
and also the length of the push needed to release the retention and bring about the
propulsion stoke is too long; another drawback is that the ballpoint pen mechanism
depends to a large extent on the accuracy with which the heart-shaped cam is made
and on its position in relation to the freely rotating follower, whereby the device
tends to be liable to suffer malfunctions and jamming.
EXPLANATION OF THE INVENTION AND ITS ADVANTAGES
[0005] The invention proposes a solution that consists of the outer cylinder having a tensed
strap whose end presses against an inner wall of the piston, whilst this piston has
an elastic laminar ramp and a rotating catch; the ramp is tensed so that its free
end presses on the inner wall of the piston in a part that is longitudinally aligned
with the end of the strap at a suitable distance, and at the base of this ramp there
is a pivot that defines a looped cam path between its periphery and the interior of
the piston, which forms a Y-shaped recessed portion on the part opposite the base
of the ramp that is designed to receive the end of the strap; the rotating catch operates
between respective deactivated and activated positions wherein its front face is deviated
or longitudinally facing the end of the ramp, and this rotating catch has a slot that
is designed to allow the insertion of the flat tip of a screwdriver and can be accessed
through a triangular window in the outer cylinder so that the positions of the slot
corresponding to the deactivated and activated positions of the rotating catch are
situated between two opposite sides. This design ensures that the rotating catch has
a projection on its free end, which, in the piston's deactivated position, rests against
the inner side of the end of a hook that emerges from the wall of the piston, the
projection protruding to an extent that allows the end of the hook to pass it due
to an elastic action; moreover, in the catch's activated position, its projection
rests against the outer side of the end of the hook, whilst the catch rests against
the inner wall of the piston whereon the strap is pressing in its resting state.
[0006] Thanks to this design, when the piston is inserted into the fixed body, the tautness
of the strap forces the end thereof to rise along the elastic laminar ramp following
the looped cam path jointly defined by the follower and the pivot at its base; when
the end of the strap reaches the recessed portion of the cam path opposite the base
of the ramp, as the elastic actions of the compression spring and the strap act at
once, the end of the strap is housed in the recessed portion and retains the position
it has reached; when the end of the piston is pushed again, the end of the strap (due
to the tautness thereof) takes the opposite branch of the "Y" shape to that by which
it arrived and on passing it, the action of the compression spring causes the piston
to move outwards, the end of the strap thereby reaching the opposite side of the ramp
to that by which it rose and on reaching the end thereof, this ramp gives elastically
and allows the end of the strap to pass it so that the piston may reach its extended
resting position. When the catch is in its deactivated position, the piston achieves
its greatest extension, wherein the end of the strap is situated at the inner end
of the piston. However, when the catch is in its activated position, the front face
thereof limits the end of the strap before reaching the inner end of the piston, thereby
making the outward stroke thereof shorter than before.
[0007] Therefore, the device proposed herein employs a mechanism that is different to the
known heart-shaped cam mechanism and, furthermore, offers a simple construction with
great functional reliability wherein rather than the path of the retention and propulsion
strokes being a path followed by a freely rotating follower, it is basically the result
of the elastic actions of the strap and the elastic laminar ramp; moreover, it enables
the inclusion of a mechanism that makes it possible to selectively make use of two
propulsion strokes of different lengths, so that one or other may be used in accordance
with the needs of each situation. In order to switch the catch between its deactivated
and activated positions, it is simply a matter of inserting the flat tip of a screwdriver
or suchlike into its slot through the triangular window provided in the outer cylinder;
as is logical, this is only carried out once (before the device is first installed),
but it may subsequently be changed if the device is removed from the application and
is to be used in another that requires a propulsion stroke of a different length.
The projection on the catch serves to retain the deactivated and activated positions
of the catch in conjunction with the end of the inner hook on the piston.
DRAWINGS AND REFERENCES
[0008] An industrial embodiment of the invention is shown in the attached drawings as a
non-limiting example to aid comprehension thereof.
- Figure 1
- shows a device according to the invention, seen from the side that has the triangular
window (1a), with the rotating catch (6) in its deactivated position and with the
piston (2) in the retracted position inside the outer cylinder (1); this figure also
shows a screwdriver (9) in a relative position of activation in the slot (6a) through
the triangular window (1a), and an enlarged detail that shows the inside of the device.
- Figure 2
- is a schematic view that shows the action of the screwdriver (9) in the slot (6a)
in the catch (6) through the triangular window (1a), with the catch (6) in its deactivated
position.
- Figure 3
- is an enlarged view of detail III of figure 1 and shows the path of the end (4a) of
the strap (4) (marked with arrows) as the piston (2) is inserted into the outer cylinder
(1).
- Figure 4
- is like figure 3, but it relates to the outward stroke of the piston (2).
- Figure 5
- is like figure 2, but with the catch (6) in its activated position.
- Figures 6 and 7
- are like figures 3 and 4, respectively, but they relate to the activated position
of the catch (6) shown in figure 5.
- Figure 8
- shows the extended position of the piston (2) according to figures 1, 2, 3 and 4.
- Figure 9
- is like figure 1. Figure 9A is like figure 1, but it relates to the activated position
of the catch (6).
- Figure 10
- is the extended position of the device according to figure 9A and Figures 5, 6 and
7.
[0009] The following references are used in these figures:
1.- Outer cylinder
1a.- Triangular window in the outer cylinder (1)
2.- Piston
2a.- Inner wall of the piston (2)
3.- Compression spring
4.- Strap
4a.- End of the strap (4)
5.- Elastic laminar ramp
6.- Rotating catch
6a.- Slot in the catch (6)
6b.- Projection on the catch (6)
7.- Pivot in the piston (2)
8.- Cam path
8a.- Recessed portion of the cam path (8)
9.- Screwdriver
10.- Inner hook on the piston (2)
EXPLANATION OF A PREFERRED EMBODIMENT
[0010] The drawings and references listed above are described in the accompanying plans
to illustrate a preferred embodiment of the proposed device.
[0011] As shown in figure 1, the device is for opening and closing furniture doors and drawers
and it responds to a general telescopic design comprising an outer cylinder (1) that
is attached to the body of a piece of furniture and a piston (2) that fits inside
it and slides against a compression spring (3) so that a means of retention acts at
the end of its inward (or retention) stroke in such a way that, if the outward end
of this piston (2) is pushed, this means of retention is released and the piston (2)
begins its outward (or propulsion) stroke under the action of the spring (3).
[0012] The particular design proposed herein is shown in figure 1 and consists of the outer
cylinder (1) having a strap (4) that is tensed so that its end (4a) presses against
an inner wall (2a) of the piston (2), whilst this piston (2) has an elastic laminar
ramp (5) and a rotating catch (6); the ramp (5) is tensed so that its free end presses
on the inner wall (2a) of the piston (2) in a part that is longitudinally aligned
with the end (4a) of the strap (4) at a suitable distance, and at the base of this
ramp (5) there is a pivot (7) that defines a looped cam path (8) between its periphery
and the interior of the piston (2), which forms a Y-shaped recessed portion (8a) on
the part opposite the base of the ramp (5) that is designed to receive the end (4a)
of the strap (4); the rotating catch (6) operates between respective deactivated and
activated positions wherein its front face is deviated or longitudinally facing the
end of the ramp (5), and this rotating catch (6) has a slot (6a) that is designed
to allow the insertion of the flat tip of a screwdriver (9) and can be accessed through
a triangular window (1a) in the outer cylinder (1) so that the positions of the slot
(6a) corresponding to the deactivated and activated positions of the rotating catch
(6) are situated between two opposite sides. This design ensures that the rotating
catch (6) has a projection (6b) on its free end, which, in the deactivated position
of the piston (2), rests against the inner side of the end of a hook (10) that emerges
from the wall of the piston (2), the projection (6b) protruding to an extent that
allows the end of the hook (10) to pass it due to an elastic action. Moreover, in
the activated position of the catch (6), its projection (6b) rests against the outer
side of the end of the hook (10), whilst the catch (6) rests against the inner wall
(2a) of the piston (2) whereon the strap (4) is pressing in its resting state.
[0013] In order to explain how it works, we begin from the position shown in figure 1, wherein
the catch (6) is in its deactivated position and the piston (2) is retracted to the
end of its retention stroke, with the end (4a) of the strap (4) housed in the recessed
portion (8a) of the cam path (8).
[0014] Figures 2 to 4 show the deactivated position of the catch (6) that is produced by
inserting the flat tip of the screwdriver (9) into the slot (6a) in the catch (6)
through the triangular window (1a) in the outer cylinder (1) (figure 2) and the paths
followed by the end (4a) of the strap (4) during the retention stroke of the piston
(2) (figure 3) and during the propulsion stroke under the action of the spring (3)
(figure 4).
[0015] Now, in figure 5 as in figure 2, we turn the rotating catch (6) to its activated
position using the flat tip of the screwdriver (9); in this situation the path followed
by the end (4a) of the strap (4) during the retention stroke is as shown in figure
6 and, similarly, the path followed during the propulsion stroke is as shown in figure
7; as can be seen from these paths, the front face of the catch (6) limits the (4a)
end of the strap (4) and prevents the piston (2) from continuing its outward stroke
to the point that it reached when the catch (6) was in its deactivated position, as
shown in figure 10.
[0016] Figures 1 and 9 show that, naturally, the final positions of the retention stroke
coincide whatever the activated (Figure 9A) or deactivated (Figure 9) position of
the catch (6); and a visual comparison of figures 8 and 10 shows the different length
of the propulsion strokes according to whether the catch (6) is in its deactivated
position (figure 8; longer stroke) or in its activated position (figure 10; shorter
stroke).
1. Device for opening and closing doors and drawers, of the type that has a telescopic
design with an outer cylinder (1) that is attached to the body of a piece of furniture
and a piston (2) that fits therein and slides against a compression spring (3), and
at the end of the inward stroke thereof it is retained in such a way that by pushing
the outward end of this piston (2), the retention is released and the piston (2) begins
its outward stroke under the action of the spring (3), characterised in that the outer cylinder (1) has a strap (4) that is tensed so that its end (4a) presses
against an inner wall (2a) of the piston (2), whilst this piston (2) has an elastic
laminar ramp (5) and a rotating catch (6); the rotating catch (6) can adopt respective
deactivated and activated positions wherein its front face is deviated or longitudinally
facing the end of the ramp (5), and this rotating catch (6) has a slot (6a) that is
designed to allow the insertion of the flat tip of a screwdriver (9) and can be accessed
through a triangular window (1a) in the outer cylinder (1) so that the positions of
the slot (6a) corresponding to the deactivated and activated positions of the rotating
catch (6) are situated between two opposite sides; the ramp (5) is tensed so that
its free end presses on the inner wall (2a) of the piston (2) in a part that is longitudinally
aligned with the end (4a) of the strap (4) at a suitable distance, and at the base
of this ramp (5) there is a pivot (7) that defines a looped cam path (8) between its
periphery and the interior of the piston (2), which forms a Y-shaped recessed portion
(8a) on the part opposite the base of the ramp (5) that is designed to receive the
end (4a) of the strap (4).
2. Device for opening and closing doors and drawers, according to claim one, characterised in that the rotating catch (6) has a projection (6b) on its free end, which, in the deactivated
position of the piston (2), rests against the inner side of the end of a hook (10)
that emerges from the wall of the piston (2), the projection (6b) protruding to an
extent that allows the end of the hook (10) to pass it due to an elastic action.
3. Device for opening and closing doors and drawers, according to all the previous claims,
characterised in that in the activated position of the catch (6), its projection (6b) rests against the
outer side of the end of the hook (10), whilst the catch (6) rests against the inner
wall (2a) of the piston (2) whereon the strap (4) is pressing in its resting state.