EP3196384A1 - Verriegelungssystem einer beckenabdeckung - Google Patents

Verriegelungssystem einer beckenabdeckung Download PDF

Info

Publication number: EP3196384A1
Authority: EP; European Patent Office
Prior art keywords: locking; retaining; housing; bearing surface; pusher
Prior art date: 2016-01-25
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP17152726.0A

Other languages

English (en)

French (fr)

Inventor

Régis Roux

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

ASpool SAS

Original Assignee

ASpool SAS

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2016-01-25

Filing date

2017-01-23

Publication date

2017-07-26

2016-01-25 Priority claimed from FR1650558A external-priority patent/FR3047032A1/fr

2017-01-23 Application filed by ASpool SAS filed Critical ASpool SAS

2017-07-26 Publication of EP3196384A1 publication Critical patent/EP3196384A1/de

Status Withdrawn legal-status Critical Current

Links

238000006073 displacement reaction Methods 0.000 claims abstract description 40
238000004804 winding Methods 0.000 claims description 26
210000004197 pelvis Anatomy 0.000 claims description 8
XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 8
230000000717 retained effect Effects 0.000 claims description 5
238000011084 recovery Methods 0.000 description 6
238000000034 method Methods 0.000 description 4
238000003287 bathing Methods 0.000 description 2
230000009182 swimming Effects 0.000 description 2
241001080024 Telles Species 0.000 description 1
230000002411 adverse Effects 0.000 description 1
230000008595 infiltration Effects 0.000 description 1
238000001764 infiltration Methods 0.000 description 1
230000014759 maintenance of location Effects 0.000 description 1
238000005192 partition Methods 0.000 description 1
238000003911 water pollution Methods 0.000 description 1

Images

Classifications

- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H4/00—Swimming or splash baths or pools
- E04H4/06—Safety devices; Coverings for baths
- E04H4/08—Coverings consisting of rigid elements, e.g. coverings composed of separate or connected elements
- E04H4/082—Coverings consisting of rigid elements, e.g. coverings composed of separate or connected elements composed of flexibly or hingedly-connected slat-like elements, which may or may not be wound-up on a fixed axis
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H4/00—Swimming or splash baths or pools
- E04H4/06—Safety devices; Coverings for baths
- E04H4/10—Coverings of flexible material
- E04H4/101—Coverings of flexible material wound-up on a fixed axis

Definitions

the present invention relates to the field of pool covers such as swimming pools, and more particularly relates to a locking system of a pool cover, and a pool cover system comprising such a locking system.
Basin covers are used primarily to protect the pond from water pollution and heat loss from water, but also to ensure the safety of children near the pond.
a basin covering system comprises a pool cover formed of a plurality of floating blades articulated along parallel axes, and a winding device connected to the pool cover and configured to wind and unrolling the pool cover between an overlap position in which the pool cover covers all or substantially all of the pool and a release position in which the pool cover releases access to the pool.
the document EP2682540 discloses a locking system configured to automatically lock a pool cover in its overlay position.
a locking system comprises an automatic locking mechanism intended to be fixed to a wall of the pelvis opposite to the winding device, and a retaining piece intended to be fixed to the end of the pelvis cover opposite to the device of winding and provided with a retaining housing.
the automatic locking mechanism comprises a locking finger movable between a locking position in which the locking pin is inserted into the retaining housing and locking the basin cover in its overlapping position, and an unlocking position in which the finger lock allows movement of the pool cover to its release position. The movement of the locking finger between its locking and unlocking positions is controlled by a control unit.
the locking mechanism of such a locking system is bulky, and thus adversely affects the aesthetics of the pool when the pool cover is in its release position.
the present invention aims to remedy these disadvantages.
the technical problem underlying the invention therefore consists in providing a system for locking a pool cover which is discreet, while ensuring automatic and reliable locking of a pool cover.
Such a configuration of the locking device, and in particular of the drive mechanism, makes it possible to control the unlocking / locking of the pool cover simply by moving the support surface between its ends. deployed and retracted positions, which is achieved by controlling, in particular with the aid of a winding device, successively a slight advance and a slight retreat of the basin cover from its recovery position.
the locking system according to the present invention provides automatic and fully mechanical locking of the end of the pelvis cover opposite the winding device on the portion of the pelvis also opposite the winding device.
the safety of the pond is therefore greatly improved.
the locking system may further have one or more of the following features, taken alone or in combination.
the drive mechanism is configured such that a displacement of the bearing surface from the deployed position to the retracted position causes rotation of the locking portion in a direction of rotation. rotation, and such that a displacement of the bearing surface from the retracted position to the deployed position causes rotation of the locking portion in the direction of rotation.
the drive mechanism is configured such that a displacement of the bearing surface from the retracted position to the deployed position causes rotation of the locking portion substantially of a quarter turn in the direction of rotation.
the locking portion in the unlocking position, extends in a first angular orientation, and in the locking position, the locking portion extends in a second angular orientation, the first and second angular orientations being angularly offset relative to each other by about 90 °.
the drive mechanism comprises a movable integral driving element of the locking part, the driving element being mounted movable relative to the fixing part in a direction of rotation. displacement between a first position corresponding to the retracted position of the bearing surface, and a second position corresponding to the extended position of the bearing surface.
the drive mechanism comprises a biasing element configured to bias the driving element towards its second position.
the fixing portion comprises a fixing housing defining a receiving chamber in which is housed at least in part the drive element.
the driving member comprises at least one driving portion
the driving mechanism further comprises a plurality of cam surfaces provided on the housing and extending into the receiving chamber, the cam surfaces provided on the housing being angularly offset from each other and distributed around the direction of movement, the at least one driving portion being configured to cooperate with one of the cam surfaces provided on the housing when moving the drive element from its first position to its second position so as to induce rotation of the drive member and the locking portion in the direction of rotation.
the cam surfaces provided on the housing are oriented substantially in the same direction.
the cam surfaces provided on the housing are disposed substantially equidistantly with respect to a central axis of the housing.
each cam surface provided on the housing extends helically.
the driving portion is a finger or drive pin.
the housing comprises a first housing part and a second housing part delimiting the receiving chamber.
the cam surfaces provided on the housing are provided on the second housing part.
the drive mechanism further comprises a plurality of guide surfaces provided on the housing and extending into the receiving chamber, the guide surfaces being angularly offset from one another and distributed around the direction of movement, each guide surface extending substantially parallel to the direction of movement and being disposed between two adjacent cam surfaces provided on the housing, the at least one driving portion being configured to be guided in translation by one of the guide surfaces in at least one initial portion of the displacement of the driving element from its second position to its first position.
each guide surface is disposed between a leading edge and a trailing edge of two adjacent cam surfaces provided on the housing.
the guide surfaces are provided on the second housing part.
the drive mechanism comprises a pusher which is stationary in rotation with respect to the housing and mounted to move in translation relative to the housing substantially parallel to the direction of movement, the bearing surface being provided on the pusher and the pusher being configured to move the drive member to the first position when the bearing surface is moved from the deployed position to the retracted position.
the pusher is arranged in part in the receiving chamber.
the pusher comprises a plurality of cam surfaces angularly offset from one another and distributed around the direction of movement
the driving element comprises at least one configured driving tooth. to cooperate with one of the cam surfaces provided on the pusher during an end portion of the movement of the drive member from its second position to its first position so as to induce rotation of the drive member and the locking portion in the direction of rotation.
the at least one driving tooth is configured to cooperate with one of the cam surfaces provided on the pusher during an end portion of the displacement of the driving element. from its second position to its first position so as to induce a rotation of the drive element in the direction of rotation so that the at least one driving portion is moved opposite a planned cam surface on the case.
the cam surfaces provided on the pusher are disposed on an end face of the pusher opposite to the locking portion.
the return element is configured to urge the drive element against the pusher so as to urge the bearing surface towards the deployed position.
the return element is configured to bias the drive part against the pusher, and for example against an end face of the pusher opposite to the locking portion.
the housing comprises at least one abutment surface extending transversely to the direction of displacement and being disposed between two adjacent cam surfaces provided on the housing, the pusher having at least a portion of retainer configured to abut against the at least one abutment surface when the drive member is in the second position.
the at least one abutment surface provided on the housing is disposed between a rear edge of a cam surface provided on the housing and a guide surface adjacent to said cam surface.
the at least one abutment surface provided on the housing is provided on the second housing part.
the driving element comprises a plurality of drive parts angularly offset from one another.
the pusher is tubular and extends substantially collinearly to the direction of movement, the driving element extending at least partly in the pusher.
the drive element comprises a support portion extending at least partly in the pusher and on which the locking portion is fixed, and a cooperating portion configured to cooperate with and abut against the pusher.
the support portion is generally cylindrical.
the housing and for example the second housing part, comprises a passage opening through which the support portion and the pusher extend.
the cooperation portion is generally annular.
the locking device is configured such that in use conditions, the direction of movement the bearing surface extends substantially parallel to a direction of movement of the basin cover.
the pusher has a plurality of pusher teeth disposed on its end face opposite to the locking portion, each pusher tooth having a respective cam surface.
the housing comprises at least one guide slot substantially parallel to the direction of movement and configured to guide in translation the pusher relative to the housing, the at least one guide slot being disposed between a cam surface provided on the housing and a guide surface adjacent said cam surface.
the at least one abutment surface delimits an end portion of a guide slot.
the pusher comprises at least one longitudinal rib configured to cooperate with the at least one guide slot provided on the housing.
the at least one guide slot is provided on the second housing part.
the first housing portion comprises at least one guide groove substantially parallel to the direction of movement and configured to guide the pusher in translation relative to the housing.
the at least one retaining portion provided on the pusher is configured to cooperate with the at least one guide groove.
the at least one retaining portion provided on the pusher extends through the at least one guide slot.
the at least one retaining portion provided on the pusher is disposed on the at least one longitudinal rib.
the housing and for example the first housing part, comprises a guiding portion which is generally cylindrical and of axis substantially collinear with the direction of movement, and the driving element.
the driving element comprises an axial housing which is generally cylindrical and opens into an end face of the drive element opposite to the locking part, the guide portion extending at least partly in the axial housing of the element and configured to guide the drive member as it moves between its first and second positions.
the biasing element extends at least in part in the axial housing of the driving element.
the drive mechanism comprises a sliding part interposed between the guide portion and the return member.
a first end portion of the return member bears against the sliding portion and a second end portion of the return member bears against the drive member.
the sliding part has for example a general form of disc.
the bearing surface is movable relative to the attachment portion between a first and a second deployed position in each of which the bearing surface is remote from the attachment portion and a position retracted wherein the bearing surface is brought closer to the attachment portion, the first deployed position corresponding to the locking position of the locking portion and the second extended position corresponding to the unlocking position of the locking portion.
the bearing surface is closer to the fixing portion in the first deployed position than in the second deployed position.
the retaining element comprises at least a first retaining portion and a second retaining portion delimiting the retaining housing and configured to be offset vertically with respect to each other. conditions of use, the locking portion being configured to cooperate, in the locking position, with one of the first and second retaining portions as a function of the height of the water level in the basin.
the retaining element comprises a retaining groove forming the retaining housing, the retaining groove being configured to extend substantially vertically under conditions of use.
the locking portion comprises at least one locking finger
the retaining element comprises at least one abutment surface
the at least one locking pin being configured to cooperate with the locking member.
at least one abutment surface when the locking portion is in the locking position.
the at least one abutment surface partially delimits the retaining groove.
the locking portion has two locking fingers opposite one another.
the retaining element comprises a fixing portion to be fixed on the wall of the basin, the fixing portion having an internal bearing surface defining the bottom of the retaining groove.
the retaining element comprises two retaining wings integral with the fixing portion and delimiting at least laterally the retaining groove, each retaining flange having a stop surface configured to cooperate a finger respective locking when the locking portion is in the locking position.
the retaining groove has a T-shaped cross section.
the pool cover is a deck blade, also called blade shutter.
the covering system comprises a plurality of locking systems according to the invention, the fastening parts belonging to the covering systems being fixed on and distributed along the second end portion of the basin cover.
the fastening parts belonging to the covering systems are fixed on and distributed along an end edge of the pelvis cover opposite to the winding device.
the Figures 1 to 17b represent a covering system 2 for covering a pool, such as a swimming pool.
the covering system 2 comprises a pool cover 3, and a winding device 4 configured to wind and unwind the pool cover 3 respectively in a winding direction SE and an unwinding direction SD.
the winding device 4 is more particularly configured for winding and unrolling the pool cover 3 between a covering position (see FIG. figure 2 ) in which the basin cover 3 covers substantially the entire basin, and a release position in which the basin cover 3 releases access to the basin.
the winding device 4 may for example be arranged in a dedicated compartment 5 of the pool, and be separated from the bathing area 6 by a partition 7 (see FIG. figure 1 ).
the pond cover 3 is advantageously a deck with blades, also called leaf shutter, comprising a plurality of blades 8 hinged together along axes perpendicular to the direction of displacement D of the basin cover 3 (see FIG. figure 3 ).
the blades 8 are nested within each other with sufficient mechanical clearance to allow them to wind around the winding device 4, and are floating so as to be able to move on the water line 10 in the bathing area 6 .
the basin cover 3 comprises in particular a first end portion 3a connected to the winding device 4, and a second end portion 3b opposite to the first end portion 3a.
the first end portion 3a is the first portion to be wound on the winding device 4 and the last portion to be unwound from the winding device 4, while the second end portion 3b is the last portion to be wound on the winding device 4 and the first portion to be unwound from the winding device 4.
the covering system 2 comprises a plurality of locking systems 9 shown more particularly on the Figures 3 to 6 .
Each locking system 9 comprises a retaining element 11 intended to be fixed, for example directly by screwing or by means of a fastening bracket, to a vertical wall 12 of the basin which is opposite the winding device 4.
Each retaining element 11 comprises a fixing portion 13 to be fixed on the vertical wall 12 of the basin, and two retaining wings 14 integral with the fixing portion 13.
Each retaining element 11 also comprises a retaining groove 15 delimited by the attachment portion 13 and the retaining wings 14, and configured to extend substantially vertically in use conditions.
the retaining groove 15 forms a retaining housing, and advantageously has a cross section T.
each retaining flange 14 has an internal abutment surface 16, and an external bearing surface 17.
the functions of the internal abutment surfaces 16 and the outer bearing surfaces 17 of each retaining element 11 will be explained below.
Each locking system 9 further comprises a locking device 18 comprising an attachment portion 19 to be fixed on the second end portion 3b of the basin cover 3, and a locking portion 21 configured to cooperate with the respective retaining element 11 when the pond cover 3 is in the recovery position.
Each fixing portion 19 more particularly comprises a fixing housing 20 intended to be fixed on the second end portion 3b of the pelvic cover 3.
Each fixing housing 20 comprises a first housing portion 20a provided with fixing lugs 22. configured to be attached to the second end portion 3b of the pond cover 3, and a second housing portion 20b fixed, for example by screwing, to the first housing portion 20a.
the first and second housing portions 20a, 20b delimit a receiving chamber 23 whose function will be explained below.
each first housing portion 20a has a bottom wall and a side wall delimiting a generally cylindrical inner housing 24, and the second housing portion 20b has a tubular portion 25 disposed in the inner housing. 24 and extending substantially coaxially with the inner housing 24.
each locking device 18 comprises two locking fingers 26 opposite one another and configured to cooperate each with an internal abutment surface 16 of the respective retainer 11 when the Basin cover 3 is in the recovery position. Nevertheless, the locking portion 21 of each locking device 18 could comprise a single locking finger 26.
Each locking device 18 further comprises a drive mechanism 27 comprising a driving member 28 integral in movement with the respective locking portion 21 and housed in the receiving chamber 23 delimited by the first and second housing portions 20a, 20b respective.
Each drive element 28 is mounted movably relative to the respective attachment housing 20 in a direction of movement Dd, and between a first unstable position (shown in FIGS. figures 14b and 17b ) in which the driving element 28 is brought closer to the bottom wall of the respective first housing part 20a and a second stable position (shown in FIG. figure 12b ) in which the driving element 28 is remote from the bottom wall of the respective first housing part 20a.
each drive element 28 is further configured to occupy a stable intermediate position (shown in FIG. figure 15b ) located between the respective first and second positions.
Each locking device 18 is configured such that, in use, the direction of movement Dd of each driving element 28 extends substantially parallel to the displacement direction D of the pond cover 3.
Each drive element 28 comprises a generally cylindrical support portion 29 and on which the respective locking portion 21 is fixed, and a cooperation portion 31 which is substantially annular and which comprises a plurality of angularly offset driving lugs 32 each other and advantageously arranged on the periphery of the cooperation portion 31.
each cooperation portion 31 comprises two drive lugs 32 diametrically opposite one another and the second housing portion 20b advantageously comprises a through opening 33 through which the respective support portion 29 extends.
Each support portion 29 advantageously extends substantially coaxially with the inner housing 24 and the respective tubular portion 25.
Each drive member 28 also has an axial housing 34 which is generally cylindrical and which opens into an end face of the drive element 28 opposite to the respective locking portion 21.
each first housing portion 20a has a guide portion 35 which is generally cylindrical and extends at least partly in the axial housing 34 of the respective drive member 28.
Each guide portion 35 is more particularly configured to guide the respective driving member 28 as it moves between its first and second positions.
Each drive mechanism 27 further includes a biasing member 36 configured to bias the respective drive member 28 toward its second position.
Each of the biasing member 36 is more particularly disposed in the axial housing 34 of the respective driving member 28.
Each return element 36 may for example be a helical return spring.
each drive mechanism 27 comprises a sliding portion 37, for example having a general disc shape, interposed between the respective guide portion 35 and the return member 36, and each return element 36 has a first end portion bearing against the respective sliding portion 37 and a second end portion bearing against the respective driving member 28.
each drive mechanism 27 could be devoid of slip portion, and the first end portion of each return member 36 could thus bear directly against the respective guide portion 35.
Each drive mechanism 27 further includes a plurality of four, helically extending, helical surfaces 38 provided on the tubular portion 25 of the respective second housing portion 20b.
the cam surfaces 38 are angularly offset from one another, and are arranged substantially equidistant from the axis of extension of the respective tubular portion.
the cam surfaces 38 are advantageously oriented in the same direction.
Each drive mechanism 27 further includes a plurality of guide surfaces 39, for example four, provided on the tubular portion 25 of the respective second housing portion 20b.
the guide surfaces 39 are angularly offset from one another, and extend substantially parallel to the axis of extension of the tubular portion 25 of the respective second housing portion 20b.
Each guide surface 39 is disposed between a leading edge and a trailing edge of two adjacent cam surfaces 38.
Each drive mechanism 27 further comprises a plurality of abutment surfaces 41, for example two, provided on the respective second housing part 20b and angularly offset from each other.
Each abutment surface 41 extends substantially perpendicular to the axis of extension of the tubular portion 25 of the respective second housing portion 20b, and is disposed between a rear edge of a cam surface 38 and a guide surface 39 adjacent to said surface. cam 38.
each driving pin 32 of a driving element 28 is configured on the one hand to cooperate with a respective cam surface 38 during a displacement of the driving element 32 of its first position at its second position so as to induce a rotation of substantially a quarter turn of the driving element 32, and therefore of the respective locking portion 21 which is integral in rotation with the driving element 32, in a direction of rotation, and secondly to cooperate with a respective cam surface 38 during a displacement of the drive member 32 from its first position to its intermediate position so as to also induce a rotation substantially a quarter turn of the driving element 32, and therefore of the respective locking portion 21, in the same direction of rotation
each driving pin 32 of a driving element 28 is configured on the one hand to be guided in translation by a respective guide surface 39 during an initial portion of the displacement of the the driving element 28 from its second position to its first position, and secondly to be guided in translation by a respective guide surface 39 during an initial portion of the displacement of the driving element 28 of its intermediate position at its first position.
Each drive mechanism 27 further comprises a pusher 42 disposed in part in the respective receiving chamber 23 and extending substantially collinearly to the direction of movement Dd.
Each pusher 42 is tubular and thus has a through axial bore 43 in which extends the respective drive member 28, and more particularly the support portion 29 of the respective drive member 28.
Each pusher 42 is slidably mounted with respect to the respective attachment housing 20 in the direction of displacement Dd, and comprises for example two longitudinal ribs 44 diametrically opposed and configured to cooperate respectively with two guide slots 45 provided on the second housing portion 20b and extending substantially parallel to the direction of travel Dd.
Each guide slot 45 is configured to slidably guide the respective pusher 42, and is advantageously disposed between a cam surface 38 provided on the respective mounting housing 20 and a mounting surface. guidance 39 adjacent to said cam surface 38.
each pusher 42 could for example comprise a single longitudinal rib 44 or more than two longitudinal ribs 44.
Each pusher 42 further comprises two diametrically opposed retaining portions 46 each configured to abut against a respective abutment surface 41 provided on the respective second housing portion 20a when the respective driving member 28 is in the second position.
Each retaining portion 46 may for example be a retaining lug.
Each retaining portion 46 is further configured to slide in a respective guide groove 47 provided on the respective first housing portion 20a and extending substantially parallel to the direction of travel Dd.
each retaining portion 46 extends through a respective guide slot 45 and projects outwardly from the respective tubular portion 25.
Each pusher 42 protrudes out of the respective fixing box 20 via the passage aperture 33 thereof, and has a bearing surface 48 configured to bear against each external bearing surface 17 of the retaining element 11. respective when the pond cover 3 is in the recovery position.
Each pusher 42 is more particularly configured so that the respective bearing surface 48 is displaceable in the direction of displacement Dd and is able to occupy a first deployed position (see FIG. figure 12a corresponding to the second position of the respective driving element 28 and in which the bearing surface 48 is moved away from the respective attachment housing 20, a second extended position (see FIG. figure 15a ) corresponding to the intermediate position of the respective driving element 28 and in which the bearing surface 48 is also spaced from the respective attachment housing 20 and a retracted position (see FIGS. figures 14a and 17a ) corresponding to the first position of the respective driving element 28 and in which the bearing surface 48 is brought closer to the respective fixing housing 20.
each pusher 42 is configured to move the respective driving member 28 to the first position when the respective bearing surface 48 is moved from the first deployed position to the retracted position and also when the surface respective bearing support 48 is moved from the second extended position to the retracted position
each return member 36 is configured to bias the engagement portion 31 of the respective driving member 28 against the respective pusher 42, and example against the end face of the respective pusher 42 opposite to the respective locking portion 21, so as to urge the bearing surface 48 to the first deployed position.
Each pusher 42 further comprises a plurality of pusher teeth 49, for example four, disposed on the end face of said pusher 42 opposite to the respective locking portion 21.
Each pusher tooth 42 has a respective cam surface 51.
the cam surfaces 51 are angularly offset from one another and distributed around the direction of movement Dd.
Each drive element 28 comprises a plurality of drive teeth 52, for example four, configured to cooperate each with one of the cam surfaces 51 provided on the respective pusher 42 on the one hand during an end portion of the moving the driving element 28 from its second position to its first position so as to induce a slight rotation of the driving element 28 and the respective locking portion 21 in the direction of rotation so that each respective driving pin 32 is moved facing a cam surface 38 provided on the respective mounting housing 20 (see FIGS. Figures 13b and 14b ), and on the other hand during an end portion of the displacement of the driving element 28 from its intermediate position to its first position so as to induce a slight rotation of the driving element 28 and the part 21 in the direction of rotation so that each respective driving pin is displaced opposite a cam surface 38 provided on the respective attachment housing 20 (see FIG. Figures 16b and 17b ).
each drive mechanism 27 is configured on the one hand so that a displacement of the respective bearing surface 48 from the first deployed position to the retracted position causes a slight rotation of the respective locking portion 21 in the direction of rotation, and such that a displacement of the respective bearing surface 48 from the retracted position to the second deployed position causes rotation of the respective locking portion 21 substantially a quarter of a turn in the same direction of rotation, and secondly so that a displacement of the respective bearing surface 48 of the second deployed position to the retracted position causes a slight rotation of the locking portion 21 respectively in the direction of rotation, and so that a displacement of the respective bearing surface 48 from the retracted position to the first extended position also causes a rotation of the respective locking portion 21 substantially a quarter turn in the same direction of rotation.
each locking portion 21 is in its extended locking position (see FIG. Figures 15a, 15b ), which ensures an automatic and fully mechanical locking of the pool cover 3 on the vertical wall 12 of the basin.
a method of unlocking the pool cover 3 will now be described with reference to FIGS. 15a to 17a and 15b to 17b assuming that initially the locking portion 21 of each locking device 18 is in an extended locking position, the driving pins 32 of each drive member 28 abut against the respective cam surfaces 38 provided on the respective attachment housing 20, and the pond cover 3 is in the overlap position.
each locking portion 21 is in its extended unlocking position (see FIG. figure 12a ), which ensures automatic and fully mechanical unlocking of the pool cover 3.
each locking system 9 according to the invention is very discreet, and does not harm the aesthetics of the basin when the pool cover 3 is in its release position.
the invention is not limited to the sole embodiment of this locking system, described above as an example, it encompasses all the variants.

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Engineering & Computer Science (AREA)
Architecture (AREA)
Civil Engineering (AREA)
Structural Engineering (AREA)
Buckles (AREA)

EP17152726.0A 2016-01-25 2017-01-23 Verriegelungssystem einer beckenabdeckung Withdrawn EP3196384A1 (de)

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
FR1650558A FR3047032A1 (fr)	2016-01-25	2016-01-25	Systeme de verrouillage d’une couverture de bassin, et systeme de recouvrement comprenant un tel systeme de verrouillage
FR1656716A FR3047031B1 (fr)	2016-01-25	2016-07-13	Systeme de verrouillage d’une couverture de bassin

Publications (1)

Publication Number	Publication Date
EP3196384A1 true EP3196384A1 (de)	2017-07-26

Family

ID=57821892

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP17152726.0A Withdrawn EP3196384A1 (de)	2016-01-25	2017-01-23	Verriegelungssystem einer beckenabdeckung

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EP (1)	EP3196384A1 (de)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR3140896A1 (fr) *	2022-10-17	2024-04-19	A.S.Pool	Système de verrouillage d’une couverture de bassin
EP4481140A1 (de) *	2023-06-23	2024-12-25	CF Group France	Sicherheitsvorrichtung für eine beckenabdeckung

Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
EP1655427A2 (de) *	2004-11-09	2006-05-10	Diffusion Equipements Loisirs	Verfahren und Vorrichtung zum Verriegeln eines Panels, mit dieser Vorrichtung ausgestatete Schwimmbeckenabdeckung
FR2936829A1 (fr) *	2008-10-02	2010-04-09	Diffusion Equipements Loisirs	Dispositif de verrouillage.
EP2682540A2 (de)	2012-07-03	2014-01-08	Maytronics Ltd.	Automatisches Verriegelungs- und Entriegelungssystem für eine Schwimmbadabdeckung

2017
- 2017-01-23 EP EP17152726.0A patent/EP3196384A1/de not_active Withdrawn

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
EP1655427A2 (de) *	2004-11-09	2006-05-10	Diffusion Equipements Loisirs	Verfahren und Vorrichtung zum Verriegeln eines Panels, mit dieser Vorrichtung ausgestatete Schwimmbeckenabdeckung
FR2936829A1 (fr) *	2008-10-02	2010-04-09	Diffusion Equipements Loisirs	Dispositif de verrouillage.
EP2682540A2 (de)	2012-07-03	2014-01-08	Maytronics Ltd.	Automatisches Verriegelungs- und Entriegelungssystem für eine Schwimmbadabdeckung

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
FR3140896A1 (fr) *	2022-10-17	2024-04-19	A.S.Pool	Système de verrouillage d’une couverture de bassin
EP4357559A1 (de) *	2022-10-17	2024-04-24	A.S.Pool	Verriegelungssystem für eine beckenabdeckung
EP4481140A1 (de) *	2023-06-23	2024-12-25	CF Group France	Sicherheitsvorrichtung für eine beckenabdeckung
FR3150223A1 (fr) *	2023-06-23	2024-12-27	CF Group France	Dispositif de sécurité pour une couverture de bassin

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