TECHNICAL FIELD
[0001] The present invention concerns a holding device for a door leaf, capable of holding
a door leaf pivotally movable relative to a support in an open configuration, the
holding device comprising a tubular body delimiting an internal passage area and delimiting
a first fastening member for pivotally fastening the body on an element selected among
the door leaf and the support, and a rod slidably mounted within the internal passage
area along a longitudinal direction and delimiting a second fastening member for pivotally
fastening the rod on the other element selected among the door leaf and the support,
the rod being capable of occupying a first retracted position corresponding to a closed
configuration of the door leaf with respect to the support and a second partially
extended position corresponding to the open configuration of the door leaf with respect
to the support.
[0002] The field of the invention is limited to a holding device capable of holding the
door leaf in an open configuration with specific blocking means whose release is automatically
performed by continuing opening the door leaf beyond the open configuration previously
held by the holding device.
[0003] The invention also concerns an arrangement comprising a support, a door leaf pivotally
movable relative to the support so as to switch between at least a closed configuration
and an open configuration and at least one such holding device whose first fastening
member delimited by the body is pivotally fastened on an element selected among the
door leaf and the support and whose second fastening member delimited by the rod is
fastened on the other element selected among the door leaf and the support.
[0004] The invention finds application in particular in the motor vehicles field where the
door leaf is a front hood or a rear hatchback and the support is an element of the
body of the vehicle. Nonetheless, it may be considered to apply the holding device
described in this document to other technical fields such as for example furniture,
household appliances or door- and window-frames.
PRIOR STATE OF THE ART
[0005] There are numerous solutions for holding a door leaf pivotally movable relative to
a support in an open configuration. Among these solutions, there are some ones whose
release is automatically performed simply by continuing opening the door leaf beyond
the open configuration held by the holding device.
[0006] But the known solutions are complex, require numerous and sometimes tricky assembly
operations, which increase their manufacturing and prime costs, and sometimes exhibit
still perfectible reliability and ergonomics.
[0007] For example, the document
US2566182A describes a holding device with a body and a rod on which blocking elements are attached
and assembled. These blocking elements allow holding the rod in an extended configuration
with respect to the body so as to hold the rear hatchback of a vehicle in an open
configuration. The release of the blocking elements is achieved by continuing opening
the rear hatchback beyond the open configuration previously held by the blocking elements.
[0008] In addition to the drawbacks already listed hereinabove, as a result of the necessity
of having to assemble the parts constitutive of the blocking elements on the body
and on the rod, a main drawback of this solution lies in the rotating kinematics of
the blocking elements which, unfortunately, may inadvertently jam during this rotation.
This jamming may result in blocking the hatchback in an open configuration and make
it impossible for the user to replace the hatchback in the closed configuration, which
is obviously not satisfactory in use.
DISCLOSURE OF THE INVENTION
[0009] The present invention aims at providing a holding device for a door leaf, configured
so as to hold in an open configuration a door leaf pivotally movable relative to a
support, which addresses all or part of the aforementioned problems.
[0010] In particular, the aim of the invention is to provide a holding device of the aforementioned
type, that is to say whose release is automatically performed by continuing opening
the door leaf beyond the open configuration, which is simple to manufacture and to
use, which is economical and reliable
[0011] This aim may be reached by providing a holding device for a door leaf, capable of
holding a door leaf pivotally movable relative to a support in an open configuration,
the holding device comprising a tubular body delimiting an internal passage area and
delimiting a first fastening member for pivotally fastening the body on either one
of the door leaf and the support, and a rod slidably mounted within the internal passage
area along a longitudinal direction and delimiting a second fastening member for pivotally
fastening the rod on the other one of the door leaf and the support, the rod being
capable of occupying a first retracted position corresponding to a closed configuration
of the door leaf with respect to the support and a second partially extended position
corresponding to the open configuration of the door leaf with respect to the support,
the body internally delimiting at least one longitudinal stop abutment and the rod
delimiting at least one blocking notch capable of switching between a laterally retracted
configuration and a laterally deployed configuration, the longitudinal sliding of
the rod from the first position to the second position automatically placing the blocking
notch in its deployed configuration in which the blocking notch bears longitudinally
against the stop abutment so as to unidirectionally block the rod longitudinally in
its second position and to prevent the sliding of the rod in the direction of its
first position, the rod being capable of occupying a third fully extended position
through a longitudinal sliding from the second position in a direction opposite to
the first position, the blocking notch delimiting a lateral bearing shoulder engaging
with at least one linear stop system delimited by the body in the internal passage
area during a longitudinal sliding of the rod from the third position to a fourth
position longitudinally located between the first position and the second position,
the linear stop system being configured so as to control, by driving the blocking
notch at the level of its lateral bearing shoulder, the passage and the holding of
the blocking notch in its retracted configuration during said longitudinal sliding
of the rod from the third position to the fourth position.
[0012] The holding device may also present the following advantageous features, considered
separately or in combination.
[0013] The body delimits at least one opening formed throughout one of its faces, into which
the blocking notch is set when the rod occupies its second position in which the blocking
notch, occupying its laterally deployed configuration, bears longitudinally against
the corresponding stop abutment delimited by the body.
[0014] The body delimits at least one inner constriction protrusion arranged adjacent to
a longitudinal edge of said at least one opening along the longitudinal direction
and cooperating with an upper face of the blocking notch so as to cause a progressive
displacement of the blocking notch to its retracted configuration when the rod is
displaced from the first position to the second position, until achieving a longitudinal
bearing of the blocking notch against the stop abutment, resulting from an elastic
lateral return of the blocking notch back to its deployed configuration after the
inner constriction protrusion so as to be set into said at least one opening.
[0015] Said at least one stop abutment is constituted by a junction area between said at
least one inner constriction protrusion and said at least one opening.
[0016] The longitudinal edge of said at least one opening which is opposite to the inner
constriction protrusion constitutes a bearing cooperating with the upper face of the
blocking notch so as to automatically cause, through the sliding of the rod from the
second position to the third position, a progressive displacement of the blocking
notch from its deployed configuration to a partially retracted configuration intermediate
between the deployed configuration and the retracted configuration.
[0017] The rod comprises at least one stop arranged so as to abut longitudinally against
said at least one inner constriction protrusion delimited by the body when the rod
occupies its third position and to block the sliding movement of the rod unidirectionally
in a direction opposite to the direction allowing sliding toward the second position.
[0018] Said at least one blocking notch is integral with the rod and is linked to the rest
of the rod thanks to an area forming a hinge for the blocking notch with respect to
the rest of the rod.
[0019] The rod delimits two independent blocking notches arranged on two opposite lateral
faces of the rod and said at least one linear stop system comprises two linear stops
formed in projection toward the inside of the internal passage area so as to delimit
two distinct bearing edges extending substantially parallel to each other along the
longitudinal direction and facing each other laterally with a gap interposed therebetween,
the cooperation between the lateral bearing shoulder of each of the two blocking notches
and said at least one linear stop system resulting from a lateral contact between
the lateral bearing shoulder of this blocking notch positioned in the gap and the
corresponding one of the two bearing edges.
[0020] Each of the two bearing edges presents a profile progressively converging toward
the other one of the two bearing edges by getting close to the first fastening member
of the body so that the gap delimited between the two bearing edges presents a lateral
width progressively decreasing over at least one portion of the longitudinal length
of the bearing edges by getting close to the first fastening member of the body until
reaching a minimum value, the variation of the lateral width of the gap to the minimum
value being adapted to control the progressive passage and holding of each of the
two blocking notches to its retracted configuration during the passage of the rod
from the third position to the fourth position.
[0021] The invention also relates to an arrangement comprising a support, a door leaf pivotally
movable relative to the support so as to switch between at least a closed configuration
and an open configuration and at least one such holding device whose first fastening
member delimited by the body is pivotally fastened on either one of the door leaf
and the support and whose second fastening member delimited by the rod is fastened
on the other one of the door leaf and the support.
BRIEF DESCRIPTION OF THE DRAWINGS
[0022] Other aspects, aims, advantages and features of the invention will appear better
upon reading the following detailed description of preferred embodiments thereof,
given as a non-limiting example, and made with reference to the appended drawings
in which:
- Figure 1 is a perspective view of an example of a holding device according to the
invention,
- Figures 2 and 3 show a portion of the body used in the holding device of Figure 1,
at the level of a sectional plane denoted P1 in Figure 2, respectively in perspective
view and according to the longitudinal direction X,
- Figure 4 partially represents the rod used in the holding device of Figure 1, at the
level of a proximal end of the rod intended to be inserted into the body shown in
the previous figures,
- Figures 5 and 6 show a portion of the rod, at the level of a sectional plane denoted
P2 in Figure 5, respectively in perspective view and according to the longitudinal
direction X,
- Figures 7A to 7C partially represent the holding device in section according to a
sectional plane P3 shown in Figure 2, for different positions occupied by the rod,
- Figures 7D and 7E partially illustrate the body in section according to the sectional
plane P3, at the level of the proximal end into which the rod is intended to be inserted.
DETAILED DISCLOSURE OF PARTICULAR EMBODIMENTS
[0023] The appended figures 1 to 7E, briefly reviewed hereinbefore, present an example of
a holding device 10 for a door leaf.
[0024] The holding device 10 is essentially composed by a body 11 and a rod 12, described
in more details hereinafter.
[0025] In particular, the holding device 10 is configured so as to be able to hold a movable
door leaf (not represented), pivotally mounted relative to a support (not represented),
in an open configuration. In other words, the door leaf can switch, by pivoting relative
to the support, between at least one closed configuration with respect to the support
on the one hand and, on the other hand, one open configuration in which it is held
in position thanks to the holding device 10. The door leaf also presents the capability
of being open, always by pivoting relative to the support, beyond the aforementioned
open configuration, up to a maximum open configuration. The passage from the open
configuration to the maximum open configuration is intended to control the release
of the holding device 10 in order to enable a return of the door leaf back to the
closed configuration, this return being otherwise prevented.
[0026] The holding device 10 finds application in particular in the motor vehicles field
where the door leaf may be a front hood or a rear hatchback of the vehicle whereas
the support on which the door leaf is pivotally mounted is for example an element
of the body of the vehicle. Alternatively, the holding device described in this document
may be used in association with a movable door leaf used in the furniture field such
as for example in the manufacture of a coffer, in the household appliances field such
as for example in the manufacture of a freezer or a washing machine, or still in the
door- and window-frames field such as for example in the manufacture of certain windows,
typically for the production of certain travel trailers.
[0027] The body 11 presents a general tubular shape delimiting an internal passage area
13. The rod 12 is slidably mounted within the internal passage area 13 delimited by
the body 11 so as to be able to slide along a longitudinal direction denoted X, orientated
along the axis of the tubular shape of the body 11. The sliding of the rod 12 may
take place either in a first direction S1 corresponding to a direction tending to
extend the rod 12 out of the body 11, or in a second direction S2 corresponding to
a direction tending to retract the rod 12 into the body 11.
[0028] For a better understanding of the general layout of the body 11 and the rod 12, an
orthogonal spatial system is associated to the holding device 10, including, in addition
to the longitudinal direction X, a lateral direction Y perpendicular to the longitudinal
direction X and a transverse direction Z perpendicular to the longitudinal direction
X and to the lateral direction Y.
[0029] In order to ensure the sliding guidance of the rod 12 relative to the body 11, the
section of the body 11, as viewed in a sectional plane (Y, Z), is provided for example
so as to present over at least one portion of its length, a shape matching with the
external shape of the section of the rod 12, for example with generally rectangular
shapes as represented in the figures, in order to avoid a relative rotation of the
rod 12 and the body 11 around the longitudinal direction X.
[0030] For reasons relating to manufacturing simplicity and costs, the body 11 may also
be provided to be formed as an integral part made in one piece, in the same manner
as the rod 12. Typically, the body 11 and the rod 12 may be obtained through a molding
operation or through a 3D-printing operation, for example using a polyamide, polyester
or polyoxymethylene type plastic material.
[0031] The body 11 delimits a first fastening member 14 for pivotally fastening the body
11 either on the door leaf, or on the support. The first fastening member 14, which
is integral with the rest of the body 11, extends for example externally in projection
along the lateral direction Y at the level of a distal longitudinal end of the body
11, that is to say the longitudinal end opposite to the proximal longitudinal end
into which the rod 12 is inserted. The first fastening member 14 has the advantage
of not requiring any assembly operation with respect to the rest of the body 11.
[0032] The rod 12 delimits a second fastening member 15 for pivotally fastening the rod
12 either on the support in the case where the body 11 is mounted on the door leaf
thanks to the first fastening member 14, or on the door leaf in the case where the
body 11 is mounted on the support thanks to the first fastening member 14. The second
fastening member 15, which is integral with the rest of the rod 12, extends for example
externally in projection along the lateral direction Y at the level of a distal longitudinal
end of the rod 12, that is to say the longitudinal end opposite to the proximal longitudinal
end which is inserted into the body 11. The second fastening member 15 has the advantage
of not requiring any assembly operation with respect to the rest of the rod 12.
[0033] In order to obtain a setting and a fastening of the holding device 10 which are effective
and at a low cost, each of the first fastening member 14 and the second fastening
member 15 may be in the form of a substantially cylindrical tubular pin, provided
with two transverse slots 27 to delimit two deformable portions 28. Each deformable
portion 28 may be shaped so as to delimit a shoulder which is intended to hook on
a rear face of a pierced wall of the support or of the door leaf.
[0034] The invention also concerns the arrangement comprising the support, the door leaf
pivotally movable relative to the support so as to switch between at least a closed
configuration and an open configuration and at least one such holding device 10 whose
first fastening member 14 delimited by the body 11 is pivotally fastened on an element
selected among the door leaf and the support and whose second fastening member 15
delimited by the rod 12 is fastened on the other element selected among the door leaf
and the support.
[0035] When sliding relative to the body 11, the rod 12 may occupy at least one first retracted
position (not represented) corresponding to the situation where the door leaf adopts
the closed configuration with respect to the support and a second partially extended
position corresponding to the situation where the door leaf adopts the open configuration
with respect to the support. The rod 12 occupies the second position in Figure 1 and
in Figure 7B.
[0036] The holding device 10 allows holding the door leaf in the open configuration with
specific blocking means whose release is automatically performed through a displacement
of the door leaf from the open configuration to the aforementioned maximum open configuration.
During this displacement of the door leaf, the rod 12 is slidably driven from the
second partially extended position up to a third fully extended position which will
be detailed later on. In concrete terms, the release of the specific blocking means
results from the displacement of the rod 12 in the first direction S1 from the second
position to the third position. In order to ensure such an operation, the rod 12 is
capable of occupying the third fully extended position through a longitudinal sliding
along the direction X from the second position in the first direction S1 which is
opposite to the second direction S2 leading to the first position.
[0037] To this end, the body 11 internally delimits at least one stop abutment 16 intended
to longitudinally stop the rod 12 only in the second direction S2 and the rod 12 delimits
at least one blocking notch 17 capable of switching between a laterally retracted
configuration toward the inside of the rod 12 and a laterally deployed configuration
toward the outside of the rod 12. In the retracted configuration, the concerned blocking
notch 17 is stowed into the rod 12 along the lateral direction Y whereas in the deployed
configuration, the blocking notch 17 projects laterally with respect to the rest of
the rod 12.
[0038] The longitudinal sliding of the rod 12 from the first position to the second position
according to the first direction S1 allows placing said at least one blocking notch
17 automatically in its deployed configuration, adopted in the second position of
the rod 12, and in which this blocking notch 17 bears longitudinally against the stop
abutment 16 so as to block unidirectionally (in the second direction S2) the rod 12
along the longitudinal direction X in its second position and to prevent the sliding
of the rod 12 in the direction of the first position. The number of blocking notches
17 can be equal to two as represented, or equal to a number greater than or equal
to three. For example, the two blocking notches 17 independent of each other are formed
on two lateral faces of the rod 12 opposite to each other along the lateral direction
Y.
[0039] Advantageously, each blocking notch 17 delimits a lateral bearing shoulder 18 engaging
with at least one linear stop system 19 delimited by the body 11 in the internal passage
area 13 during a longitudinal sliding of the rod 12 according to the second direction
S2 so as to switch from the third position to a fourth position longitudinally located
between the first position and the second position (Figure 7A). Each lateral bearing
shoulder 18 extends in projection along the lateral direction Y in the direction of
the inside of the rod 12.
[0040] According to a non limiting embodiment as illustrated in Figure 3, promoting an effective
and reliable operation of the holding device 10, the body 11 delimits two distinct
linear stop systems 19, arranged facing each other in the transverse direction Z while
being formed in walls of the body 11 transversely opposite to each other. The holding
device 10 is arranged so that each of the lateral bearing shoulders 18 engages simultaneously
into the two linear stop systems 19 during the sliding of the rod 12 from the third
position to the fourth position. Nonetheless, the number of linear stop systems 19
still may be strictly equal to one. The simultaneous cooperation of the two lateral
bearing shoulders 18 with the two linear stop systems 19 is illustrated by Figure
6.
[0041] Each linear stop system 19 is configured so as to control, by driving the blocking
notch 17 at the level of its engaged lateral bearing shoulder 18, the passage and
the holding of the blocking notch 17 in its retracted configuration during the longitudinal
sliding of the rod 12 from the third position to the fourth position. This results
in that, during this displacement of the rod 12 according to the second direction
S2 from the third position to the fourth position, the blocking notches 17, which
are placed and held in their laterally retracted configuration by the effect of the
action imparted by each linear stop system 19, do not abut longitudinally against
the longitudinal stop abutments 16 delimited by the body 11.
[0042] According to a particular embodiment, the body 11 delimits two openings 20 formed
throughout its two lateral faces. Each of the two blocking notches 17 is set in a
corresponding one of these two openings 20 when the rod 12 occupies its second position,
that is to say when the door leaf adopts its open configuration. When the rod 12 occupies
the second position, each blocking notch 17 adopts its deployed configuration and
bears longitudinally against the corresponding stop abutment 16 delimited by the body
11 (situation of Figure 7B and Figure 1). The door leaf being attached to the body
11 or to the rod 12, the weight of the door leaf guarantees the blocking of the blocking
notches 17 with respect to the body 11.
[0043] According to a particular embodiment, each blocking notch 17 is integral with the
rod 12 and is linked to the rest of the rod 12 thanks to an area forming a hinge 24
for the blocking notch 17 with respect to the rest of the rod 12.
[0044] As shown in Figures 7A to 7C, the body 11 delimits an inner constriction protrusion
21 arranged adjacent to a longitudinal edge of each opening 20 along the longitudinal
direction X and cooperating with an upper face of the blocking notch 17 so as to cause
a progressive displacement of the blocking notch 17 to its retracted configuration
when the rod 12 is displaced from the first position to the second position. The inner
constriction protrusion 21 is configured so as to place the blocking notch 17 in its
retracted configuration until the rod 12 reaches the second position, the blocking
notch 17 being then released by the inner constriction protrusion as soon as the rod
12 reaches the second position during a displacement in the first direction S1. In
Figure 7A, the rod 12 is displaced in the first direction S1 by the effect of a force
F1 resulting, in turn, from an opening movement of the door leaf so as to displace
it from the closed configuration to the open configuration.
[0045] When the second position is reached (Figure 7B), a longitudinal bearing of the blocking
notch 17 against the stop abutment 16, resulting from an elastic lateral return of
the blocking notch 17 back to its deployed configuration, is obtained after having
longitudinally overpassed the inner constriction protrusion 21. By adopting its deployed
configuration after having been released by the inner constriction protrusion 21,
the blocking notch 17 is set in the corresponding opening 20.
[0046] In practice, the stop abutment 16 may be constituted in particular by the connection
area between the inner constriction protrusion 21 and the immediately adjacent opening
20.
[0047] Referring to Figure 7C, the longitudinal edge of each opening 20 which is opposite
to the longitudinal edge adjacent to the inner constriction protrusion 21 constitutes
a bearing 22 cooperating with the upper face of the blocking notch 17 so as to automatically
cause, through the sliding of the rod 12 in the first direction S1 from the second
position to the third position, a progressive lateral displacement of the blocking
notch 17 from its deployed configuration to a partially retracted configuration intermediate
between the deployed configuration and the retracted configuration. This partially
retracted configuration is held during the displacement of the rod 12 in the first
direction S1 when switching from the second position to the third position. In Figure
7C, the rod 12 is displaced in the first direction by the effect of a force F2 resulting,
in turn, from the opening movement of the door leaf so as to displace it from the
open configuration to the already mentioned maximum open configuration.
[0048] Conversely, when the rod 12 is displaced in the second direction S2 so as to switch
from the third position to the second position, and even to the fourth position, each
blocking notch 17 adopts its retracted configuration as has been already described
before because of the presence of the lateral bearing shoulders 18 and the linear
stop systems 19.
[0049] It is also specified that each blocking notch 17 adopts its partially retracted configuration
when the rod 12 is positioned between the fourth position and the first position,
regardless of the sliding direction S1, S2 of the rod 12. In practice, the partially
retracted configuration adopted by each blocking notch 17 results from its natural
tendency to be elastically biased toward its deployed configuration because of the
presence of the area forming a hinge 24, without being able to reach the deployed
configuration because of internal contact of the upper face of the blocking notch
17 against one of the lateral faces of the body 11.
[0050] For an effective and progressive operation of each blocking notch 17 on the one hand
with the inner constriction protrusion 21 and on the other hand with the bearing 22,
the upper face of each blocking notch 17 may advantageously present an inclined profile
in the same manner as a cutaway, orientated so as to get close to the inside of the
rod 12 along the lateral direction Y by getting close to the distal end of the rod
12. The inner constriction protrusion 21 presents a matching cutaway.
[0051] As shown for example in Figures 4 and 5, the rod 12 comprises at least one stop 23
arranged so as to abut longitudinally against the inner constriction protrusions 21
when the rod 12 occupies its third position in order to block the sliding movement
of the rod 12 unidirectionally in the first direction S1.
[0052] Referring now to Figures 2, 3, 7D and 7E, each of the two linear stop systems 19
comprises two linear stops formed in projection toward the inside of the internal
passage area 13 so as to delimit two distinct bearing edges 191, 192 extending substantially
parallel to each other along the longitudinal direction X and facing each other along
the lateral direction Y with a gap 26 interposed therebetween. The cooperation between
the lateral bearing shoulder 18 of each of the two blocking notches 17 and each linear
stop system 19 results from a lateral contact between this lateral bearing shoulder
18, then positioned in the gap 26, and the corresponding one of the two bearing edges
191, 192.
[0053] For example, the two linear stops constitutive of each linear stop system 19 are
in the form of two non-straight walls obtained by cutting and then folding inwardly
the internal passage area 13; this is the reason of the presence of the openings 25
in the embodiment of Figures 1 to 7E.
[0054] According to a particular embodiment, each of the two bearing edges 191, 192 of each
linear stop system 19 presents a profile progressively converging toward the other
one of the two bearing edges 191, 192 of this system by getting dose to the first
fastening member 14 of the body 11 so that the gap 26 delimited between the two bearing
edges 191, 192 presents a width considered laterally which progressively decreases
over at least one portion of the longitudinal length of the bearing edges 191, 192
by getting close to the first fastening member 14 of the body 11 until reaching a
minimum value denoted E2. The variation of the lateral width of the gap 26 to pass
from the maximum value denoted E1 (at the inlet of the linear stop system 19 when
the rod slides in the second direction S2 so as to switch from the third position
to the fourth position) down to the minimum value E2 is adapted to control the progressive
passage and holding of each of the two blocking notches 17 to its retracted configuration
during the passage of the rod 12 from the third position to the fourth position.
[0055] The previously-described holding device 10, whose release is automatically performed
by continuing opening the door leaf beyond the open configuration previously held
by the holding device 10 itself, is advantageously simple to manufacture and use,
is economical and reliable. The blocking means capable of holding the door leaf in
the open configuration and their automatic unlocking means are all integrated into
the body 11 and into the rod 12, which allows getting rid of assembly operations and
reduces the costs. The operation of these blocking means and of their unlocking means
is very reliable, freeing from any possible inadvertent jamming.
1. A holding device (10) for a door leaf, capable of holding a door leaf pivotally movable
relative to a support in an open configuration, the holding device (10) comprising
a tubular body (11) delimiting an internal passage area (13) and delimiting a first
fastening member (14) for pivotally fastening the body (11) on either one of the door
leaf and the support, and a rod (12) slidably mounted within the internal passage
area (13) along a longitudinal direction (X) and delimiting a second fastening member
(15) for pivotally fastening the rod (12) on the other one of the door leaf and the
support, the rod (12) being capable of occupying a first retracted position corresponding
to a closed configuration of the door leaf with respect to the support and a second
partially extended position corresponding to the open configuration of the door leaf
with respect to the support, the body (11) internally delimiting at least one longitudinal
stop abutment (16) and the rod (12) delimiting at least one blocking notch (17) capable
of switching between a laterally retracted configuration and a laterally deployed
configuration, the longitudinal sliding of the rod (12) from the first position to
the second position automatically placing the blocking notch (17) in its deployed
configuration in which the blocking notch (17) bears longitudinally against the stop
abutment (16) so as to block unidirectionally the rod (12) longitudinally in its second
position and to prevent the sliding of the rod (12) in the direction of its first
position, the rod (12) being capable of occupying a third fully extended position
through a longitudinal sliding from the second position in a direction (S1) opposite
to the first position, the blocking notch (17) delimiting a lateral bearing shoulder
(18) engaging with at least one linear stop system (19) delimited by the body (11)
in the internal passage area (13) during a longitudinal sliding of the rod (12) from
the third position to a fourth position longitudinally located between the first position
and the second position, the linear stop system (19) being configured so as to control,
by driving the blocking notch (17) at the level of its lateral bearing shoulder (18),
the passage and the holding of the blocking notch (17) in its retracted configuration
during said longitudinal sliding of the rod (12) from the third position to the fourth
position.
2. The holding device (10) according to claim 1, characterized in that the body (11) delimits at least one opening (20) formed throughout one of its faces,
into which the blocking notch (17) is set when the rod (12) occupies its second position
in which the blocking notch (17), occupying its laterally deployed configuration,
bears longitudinally against the corresponding stop abutment (16) delimited by the
body (11).
3. The holding device (10) according to claim 2, characterized in that the body (11) delimits at least one inner constriction protrusion (21) arranged adjacent
to a longitudinal edge of said at least one opening (20) along the longitudinal direction
(X) and cooperating with an upper face of the blocking notch (17) so as to cause a
progressive displacement of the blocking notch (17) to its retracted configuration
when the rod (12), is displaced from the first position to the second position.
4. The holding device (10) according to claim 3, characterized in that said at least one stop abutment (16) is constituted by a junction area between said
at least one inner constriction protrusion (21) and said at least one opening (20).
5. The holding device (10) according to any one of claims 3 or 4, characterized in that the longitudinal edge of said at least one opening (20) which is opposite to the
inner constriction protrusion (21) constitutes a bearing (22) cooperating with the
upper face of the blocking notch (17) so as to automatically cause, through the sliding
of the rod (12) from the second position to the third position, a progressive displacement
of the blocking notch (17) from its deployed configuration to a partially retracted
configuration intermediate between the deployed configuration and the retracted configuration.
6. The holding device (10) according to any one of claims 3 to 5, characterized in that the rod (12) comprises at least one stop (23) arranged so as to abut longitudinally
against said at least one inner constriction protrusion (21) delimited by the body
(11) when the rod (12) occupies its third position and to block the sliding movement
of the rod (12) unidirectionally in a direction (S1) opposite to the direction (S2)
allowing sliding to the second position.
7. The holding device (10) according to any one of claims 1 to 6, characterized in that said at least one blocking notch (17) is integral with the rod (12) and is linked
to the rest of the rod (12) thanks to an area forming a hinge (24) for the blocking
notch (17) with respect to the rest of the rod (12).
8. The holding device (10) according to any one of claims 1 to 7, characterized in that the rod (12) delimits two independent blocking notches (17) arranged on two opposite
lateral faces of the rod (12) and in that said at least one linear stop system (19) comprises two linear stops formed in projection
toward the inside of the internal passage area (13) so as to delimit two distinct
bearing edges (191, 192) extending substantially parallel to each other along the
longitudinal direction (X) and facing each other laterally with a gap (26) interposed
therebetween, the cooperation between the lateral bearing shoulder (18) of each of
the two blocking notches (17) and said at least one linear stop system (19) resulting
from a lateral contact between the lateral bearing shoulder (18) of this blocking
notch positioned in the gap (26) and the corresponding one of the two bearing edges
(191, 192).
9. The holding device (10) according to claim 8, characterized in that each of the two bearing edges (191, 192) presents a profile progressively converging
toward the other one of the two bearing edges (191, 192) by getting close to the first
fastening member (14) of the body (11) so that the gap (26) delimited between the
two bearing edges (191, 192) presents a lateral width progressively decreasing over
at least one portion of the longitudinal length of the bearing edges (191, 192) by
getting close to the first fastening member (14) of the body (11) until reaching a
minimum value (E2), the variation of the lateral width of the gap (26) to the minimum
value (E2) being adapted to control the progressive passage and holding of each of
the two blocking notches (17) to its retracted configuration during the passage of
the rod (12) from the third position to the fourth position.
10. An arrangement comprising a support, a door leaf pivotally movable relative to the
support so as to switch between at least a closed configuration and an open configuration
and at least one holding device (10) according to any one of the preceding claims
whose first fastening member (14) delimited by the body (11) is pivotally fastened
on either one of the door leaf and the support and whose second fastening member (15)
delimited by the rod (12) is fastened on the other one of the door leaf and the support.