法国专利FR3017574A1 SHELTER STRUCTURE, ESPECIALLY A LOAD TRAY, SUCH AS A TRUCK, TRAILER OR SIMILAR PLATFORM, AND SHELTER

专利PDF首页>>法国专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:

公开号:FR3017574A1
申请号:FR1451332
申请日:2014-02-19
公开日:2015-08-21
发明作者:Herve Libner
申请人:Libner SA；
IPC主号:

专利说明:

[0001] The present invention relates to a shelter structure, in particular a load plate, such as a platform truck, trailer or the like, and a shelter incorporating such a structure.
[0002] It relates more particularly to a shelter structure comprising: - a plurality of parallel arches each formed of facing uprights connected to each other by a cross member, said arches, adapted to support at least one cover element tarpaulin type, being movable on along a guide path in the direction of approaching and spacing from one another between an extended position of said structure, in the form of a cover of said surface, and a folded position of weaker congestion of said structure, releasing at least a portion of said surface, - connecting means between the uprights facing two adjacent arches 15, at least a portion of said connecting means being movably mounted in a direction transverse to the plane of movement of amounts during the passage of the structure from one position to another, - and a plurality of arches, each arch being connected to a hoop by an articulated connection to pass from a it has a folding position in which it extends in applied against said hoop to an extended position in which it forms an additional cross, and vice versa. Such a shelter structure is described in patent FR-2,891,782. Such a structure has the advantage of loading, from the top or one side of the tray, a conventional container or cargo. However, until now, such a structure does not allow optimization of the use of the height of the shelter structure. Indeed, in the folded position of the shelter structure, a position which can be used during road traffic phases when the load plate supports a container, the arches, which are connected to the arches by a pivotal connection around an axis substantially parallel to the longitudinal axis of the crossbar of the arch, extend partially above the arches. In the deployed position, the tops of the arches and arches extend substantially in the same plane to form a substantially flat roof. The portion of the arches projecting from the hoops in the folded position of the shelter structure constitutes a loss of height loading volume for the shelter structure. Indeed, it is necessary to lower the height of the arches to be able to respect the road gauge in the folded position of the structure. An object of the present invention is therefore to provide a shelter structure of the aforementioned type whose design optimizes the loading volume height of said structure without impairing the versatility of said structure. To this end, the subject of the invention is a shelter structure of a surface, in particular a load plate, such as a truck, trailer or similar platform, said structure comprising: a plurality parallel arches each formed of uprights interconnected by a cross member, said arches, adapted to support at least one cover element tarpaulin type, being movable along a guide path in the direction of a rapprochement and spacing from one another between an extended position of said structure, in the form of a cover of said surface, and a folded position of smaller bulk of said structure, releasing at least a portion of said surface connecting means between the uprights facing two adjacent arches, at least a part of said connecting means being movably mounted in a direction transverse to the plane of displacement of the uprights during the passage of the structure of a position to another, and a plurality of arches, each arch being connected to a hoop by an articulated connection to move from a folded position in which it extends in applied against said hoop to an extended position in which it form an additional cross, and vice versa, characterized in that the articulated connection between arch and arch is, for at least one, preferably for each arch, at least one connection pivoting the arch about an axis substantially parallel to the longitudinal axis of the crossbar of said arch, and sliding of the arch along an amount of the arch. Thanks to the fact that the articulated connection between arch and arch is, for at least one, preferably for each, arch in addition to a pivotal connection of the arch about an axis transverse to the longitudinal axis of the upright of said arch, at least one sliding connection of the arch along an axis substantially parallel to the longitudinal axis of an amount of the arch, the peaks of the arches and arches extend substantially in the same plane substantially parallel to the load plate, regardless of the deployed or folded position of the structure so that the height loading volume of said structure is optimal relative to the road gauge. Preferably, each arch, connected to a hoop by a pivotally and slidably articulated connection, is, over at least part of its travel, from the deployed position to the folded position, in parallel with its pivotal movement in the the direction of approach of the hoop to which it is connected in an articulated manner, slidably mounted in the direction of a closer approximation of the lower end of the amounts of said hoop. Conversely, each arch connected to a hoop by a pivotally and slidably articulated connection is, over at least part of its travel, from the folded position to the extended position, in parallel with its pivotal movement in the the direction of a spacing of the hoop to which it is articulately connected, mounted movably sliding in the direction of a closer approximation of the upper end of the amounts of said hoop. Preferably, each arch connected to a hoop by a pivotally and slidably articulated connection is, in the deployed position, locked in sliding displacement. Preferably, each arch has the shape of an inverted U and the articulated connection between arch and hoop comprises hinged connection means arranged at the end of each branch of the U, between a branch of the U and an amount of 1 rollbar.
[0003] Preferably, the articulated connection pivoting and sliding between arch and arch comprises, at each amount of the arch, a light formed on the amount of the arch and a piece carried by the arch and movable to slide in said light.
[0004] Preferably, the light affects the shape of an inverted L with a so-called vertical portion substantially parallel to the amount of the arch, able to be traversed by the pin during the passage of the arch from one position to another, and a horizontal portion adapted to be occupied by the pin in the deployed position of the arch, and the sliding displacement locking means of said arch are formed at least partially by two of the edges of the horizontal portion of the light. Preferably, each arch, connected to a hoop by a pivotally articulated link and sliding, is, in addition to its pivotally articulated connection and sliding, coupled to each of the amounts of the arch by a rod whose ends are coupled respectively to the arch and the hoop member by a pivot connection axis substantially orthogonal to the longitudinal axis of the hoop amount.
[0005] Preferably, said structure comprises, for each arch connected to a hoop by a pivotally articulated link and sliding, return means of said arch in the deployed position. Preferably, the return means comprise at least one spring 30 disposed at one end of the link at the link of the connecting rod to the arch.
[0006] Preferably, the connecting means between the uprights of two adjacent hoops comprise, by pairs of uprights, a mast connected to said uprights facing said adjacent hoops by means of rods adapted to allow movement of the mast on one side or on the other side of the plane of displacement of the amounts opposite when the said structure is folded. The invention also relates to a shelter of a surface, in particular a load plate, such as a platform truck, trailer or the like, said shelter comprising a shelter structure and at least one element of cover tarpaulin type at least partially covering said shelter structure characterized in that said structure is of the aforementioned type. The invention will be better understood on reading the following description of exemplary embodiments, with reference to the appended drawings in which: FIG. 1 represents an overall perspective view of a shelter structure according to the invention ; Figure 2 shows a partial overall perspective view of a shelter according to the invention; Figure 3 shows a partial perspective view of a shelter structure during the retreat of the shelter structure; Figure 4 shows a partial perspective view of a shelter structure in the folded position of said shelter structure; Figure 5 shows a partial perspective view of a shelter structure during the transition from the folded position to the deployed position of said shelter structure; Figure 6 shows a partial perspective view of a shelter structure in the deployed position of said shelter structure; Figure 7 shows a partial perspective view of two arches connected to a hoop; Figure 8 shows a partial view of the shelter structure at its connection with the guide path. As mentioned above, the shelter structure 2, which is the subject of the invention, is in the form of an articulated framework capable of being covered with at least one tarpaulin-type flexible cover element 4 to form a shelter 1 of a horizontal surface 3, such as a truck platform, as shown in Figure 1. This structure 2 is secured to the load plate of the truck to form a protective enclosure of the load on said plate.
[0007] This structure comprises a plurality of arches 5 capable of supporting said at least one covering element 4 tarpaulin type. These parallel arches 5 are each formed of uprights 6 opposite interconnected by a cross 7. These arches are movable along a guide path 8 in the direction of a rapprochement and a spacing one of the other between an unfolded position of the structure 2 in the form of a cover of said surface 3 and a folded position of smaller dimensions of said structure 2, thus releasing at least a portion of said surface 3. In the example shown in FIG. Figure 1, five arches were represented. The guide path 8 along which the amounts of the roll hoops is formed on the load plate 3 and is formed by the two longitudinal edges of said plate. Each longitudinal edge consists of a rail open towards the outside of the plate in which the uprights of hoops can slide by means of rollers equipping their lower ends.
[0008] These rollers are carried by a platen which forms with the rollers a support carriage 6 of roll bar. The load plate 3 thus comprises two series of uprights 6 equipped with carriages, each series of uprights moving in a rail formed along a longitudinal edge of the plate 3. The shelter structure 2 further comprises connecting means 9 between the uprights 6 facing two adjacent arches 5. At least a portion of said connecting means 9 are movably mounted in a direction transverse to the plane of displacement of the uprights 6 during the passage of the structure 2 from one position to another.
[0009] The connecting means 9 between the uprights 6 of two adjacent arches 5 comprise, by pair of uprights 6 opposite, a mast 91 connected to said uprights 6 facing said adjacent arches 5 by means of rods 92 able to allow the movement of the mast 9, on one side or the other of the plane of displacement of the uprights 6 opposite, during the folding of said structure 2. Said rods 92 allow to articulate the framework of the structure 2 so as to be able to fold it . Indeed, the masts 91 are not slidably mounted in the guide path, they can move laterally relative to the plate 3 thus making it possible to pass the shelter structure 2 in a folded position. In the folded position of said structure 2, the masts 91 are pushed back, inwards or outwards of the plate, so that the structure 2 adopts a form of accordion bellows.
[0010] Figure 8 illustrates the detail of the connection between uprights 6 of poles and masts 91. As mentioned above, two uprights 6 of arches are each connected by two links 92 to a mast 91 parallel to the uprights 6 of arches. Amount 6, mast 91 and rods each form an articulated frame. The links 92 of a frame can be interconnected by panel elements to enhance the strength of the structure. Each mast 91 is equipped at each of its ends with a connecting piece of the mast 91 to the links 92. These links 92 are articulated on said connecting piece about an axis parallel to the axis of the mast. In the same way, each other end of link is articulated to the carriage carrying the amount of 6 arch or a piece carried by said amount. Again, this articulation is performed using a pivot axis parallel to the axis of the amount.
[0011] As mentioned above, in the folded position of the structure, the masts 91 can move towards the inside or outside of the perimeter delimited by the uprights 6 of arches. It is advantageous that a direction of withdrawal of the masts 91 is preferred over the other. Thus, it is possible, in the vicinity of at least one end of each mast, a stop movable between two positions, one locking preventing movement of the mast 91 in a direction perpendicular to the plane of displacement of the uprights 6, 1 other allowing movement of the mast 91 in said direction. This stop allows, during the folding of the structure, to define a preferred direction of withdrawal in which the operations to be performed are fast. Indeed, to fold said shelter structure, it is sufficient to exert a thrust on one end of said structure 2. This thrust slides the two sets of uprights 6 along their respective guide rail thus bringing the amounts of a series of each other and actuating the joints of the rods 92. The actuation of the rods 92 then causes a movement of the masts 91 perpendicular to the longitudinal axis of the plate to give the structure a form of accordion bellows. The presence of the stops ensures the operator performing the push that the amounts all fold in the same direction.
[0012] In a preferred embodiment, the stop position of the stop corresponds to a position in which said stop prevents movement of the mast towards the inside of the perimeter delimited by the uprights. Thus, the privileged sense of folding of the masts corresponds to a withdrawal towards the outside of the plateau. A simple push of the operator therefore causes a fold of the masts to the outside of the tray thus folding the shelter structure so that it completely releases the surface of the tray. This fallback mode corresponds to the conventional loading transport position. Indeed, the plate must be cleared to allow the loading of a cargo from the top or the side and said cargo must not hinder the deployment of the shelter structure once loading. Once folded outwards, the masts 91 do not protrude inside the plate 3, even during the unfolding operation. In the unlocked position, the stop allows the folding of the masts 91 indifferently in one or the other direction, that is to say towards the inside or outside of the perimeter delimited by the plate. The abutment is generally made in the form of a pivoting or sliding piece extending outside the perimeter of the surface to be covered at the guide path in the deployed position of the shelter structure, said abutment being able to pivot along an axis parallel to the guide path or to slide along an axis perpendicular to the guide path, so as to move from an active position to an inactive position. The active position corresponds to the locking position in which only the folding of the uprights is possible. Inactive position both directions are possible.
[0013] The shelter structure 2 further comprises a plurality of arches 10. Each arch 10 is connected to a hoop 5 by a hinged connection 11 to pass from a folded position, in which it extends in contact with said hoop 5 , at an extended position in which it forms an additional cross and vice versa. In a manner characteristic of the invention, the link 11 articulated between arch 10 and arch 5 is, for at least one of the arches, in this case here for each of the arches 10, a pivotal connection of the arch 10 around an axis substantially parallel to the longitudinal axis of the crossbar 7 of said arch 5, and sliding of the arch 10 along an axis substantially parallel to the longitudinal axis of an amount 6 of the arch 5 .
[0014] In the examples shown, each arch 10 has the shape of an inverted U and the articulated link 11 between arch 10 and hoop 5 comprises articulated connection means arranged at each branch of the U between the end of a branch. and the upright 6 of the hoop 5. The link 11 hinged to pivoting and sliding between arch 10 and hoop 5 comprises, at each upright of the hoop 5, an oblong slot 12 formed on the upright 6 of the hoop 5 and a pin 13 carried by the arch 10 and slidably movable in the said lumen 12. The light 12 has the shape of an inverted L with a so-called vertical portion 121 substantially parallel to the upright 6 of the hoop 5, adapted to be traversed by the pin 13 during the passage of the arch 10 from one position to another, and a horizontal portion 122 adapted to be occupied by the pin 13 in the deployed position of the arch 10. The locking means 14 in sliding displacement of said arch 10 are formed at least partially by two of the edges of the horizontal portion 122 of the lumen 12. Thus, each arch 10 connected to a bow 5 by a linkage articulated pivotally and slidably, is in the deployed position , locked in sliding motion. Each arch 10, connected to a hoop 5 by a pivotally and slidably articulated connection 11, is, in addition to its pivotally and slidably articulated connection 11, coupled to each of the uprights 6 of the hoop 5 by a connecting rod. 16 whose ends are coupled respectively to the arch 10 and the amount 6 of the arch 5 by a link 17 axis pivot orthogonal to the longitudinal axis of the upright 6 arch 5 and substantially parallel to the longitudinal axis of the crossbar of said arch 5. Said structure 2 30 comprises, for each arch 10 connected to a bow 5 by a link articulated to pivoting and sliding, means 15 for returning said arch 10 in the deployed position. The return means 15 comprise here a spring disposed at one end of the rod 16 at the connection of the rod 16 to the arch 10. Each arch 10, connected to a bow 5 by a link 11 articulated to pivot and to sliding, is, over at least a portion of its travel, from the deployed position to the folded position, in parallel with its pivotal movement in the direction of a rapprochement of the hoop 5 to which it is connected in an articulated manner, mounted slidably movable in the direction of a closer approximation of the lower end of the uprights 6 of said arch 5. Conversely, each arch 10, connected to a hoop 5 by a linkage articulated pivotally and sliding, is, on at least a part of its stroke from the folded position to the extended position, in parallel with its pivotal displacement in the direction of a spacing of the hoop 5 to which it is articulately connected, mounted movably to the ulissement in the direction of a rapprochement of the upper end of the uprights 6 of said arch 5.
[0015] In this deployed position, the pieces of the arch are positioned in the horizontal portion of the lights of the amounts so that in this position, any sliding movement of the arch along said amounts is prevented.
[0016] The shelter structure 2 is generally covered with at least one cover element 4. In an advantageous embodiment, the shelter structure 2 supports two flexible cover elements 4 of the tarpaulin type, one of said flexible cover elements 4 overlapping the lateral faces of the shelter structure, the other coming from cover the roof of the shelter structure.
[0017] The lateral flexible cover element is preferably made in two parts, each of them covering a lateral face of the loading volume. This design allows easy positioning of the flexible roof cover element independently of the flexible side cover elements. Said flexible cover elements are secured to the frame of the shelter structure 1 by means integrated with these flexible cover elements. Indeed, each arch 10 is housed at least partially in a sheath of the tarpaulin-type flexible covering element overlapping the roof of the shelter structure to ensure guiding of the latter. Sleeves are thus formed in the roof covering element in order to insert the arches 10. Preferably, these sleeves (not shown) are obtained by sewing a yoke on the inner face of the sheet. This yoke delimiting with the tarpaulin a through conduit. This yoke is equipped with self-gripping Velcro (trademark) means to move from an open position, where the introduction of a crossbar of the arch inside the sheath is possible, to a closed position where transom and roof covering are interdependent. Substantially identical sleeves may also be placed on the lateral flexible cover element so as to secure it to the masts. In this case, each mast is inserted into a sheath formed on the lateral covering element. The operations necessary to fold the shelter structure inward of the perimeter delimited by the plate 3 will now be described. The folding of the masts 91 outward being preferred, it is necessary to unlock the stops in order to fold in the other direction. The stops are generally not accessible directly from outside the plate 3. They are indeed covered by the flexible side cover element. Thus, the sheet-like flexible cover element supported by the shelter structure is foldable outwardly, at its base, to form a flap held against the outer face of the sheet by means of appropriate retention, so as to facilitate access to the locking abutments. The tarpaulin is therefore raised at the guide path in the manner of a hem, in order to discover the stops. A system of straps disposed along the length of said flexible structure keeps the sheet in position while the operator operates the unlocking stops. To fold the structure by positioning the masts 91 inwardly, the rear door of the tray is opened and the frame of said rear door of the tray disengaged. Indeed, in the transport position, the frame of the rear door is obviously immobilized relative to the plate so as to avoid involuntary sliding and folding of the shelter structure. The side tarpaulin is then raised by means of the straps and the stops are unlocked so as to allow the masts to move towards the inside of the plate. Preferably, it does not unlock the stop equipping the mast 91 located closest to the rear of the tray. This provides a rigid structure to more easily push on the shelter structure. Each mast 91 and the corresponding hinge are then oriented slightly towards the inside of the plate. Thus, a simple push will cause the folding of the masts in the desired direction. It then operates a thrust on the rear frame of the shelter structure 1 so as to slide the uprights 6 of arches and to fold back said structure in the form of accordion bellows. During this movement, the arches move pivotally in the direction of a rapprochement of the uprights of hoops and sliding towards the lower ends of said uprights. Once the shelter structure is folded, the last stop is then unlocked in order to fold the last mast. The inward folded position of the masts 91 corresponds to the container transport position. Indeed, the tray being free, the loading of such a container, by means of a crane for example, is possible. In addition, the masts 91 do not exceed the jig of the tray 3, the road transport of the container is allowed. The deployment of the structure is effected by simple reverse sliding movement of the amounts of arches along the guide path. As the top of the arches extends in the deployed position at the same level as the top of the arches in the folded position, the loading volume height of the shelter structure is optimal.

权利要求:
Claims (6)
[0001]
REVENDICATIONS1. Structure (2) for sheltering a surface (3), in particular a load plate, such as a platform for a truck, trailer or the like, said structure (2) comprising: a plurality of parallel arches (5) each formed of uprights (6) facing each other connected by a crossbar (7), said arches (5), able to support at least one covering element (4) tarpaulin type, being movable along a guide path (8) in the direction of approaching and spacing from one another between an extended position of said structure (2), in the form of a cover of said surface (3). ), and a folded position of smaller size of said structure (2), releasing at least a portion of said surface (3), - means (9) connecting the uprights (6) facing two arches ( 5) adjacent, at least a portion of said connecting means (9) being movably mounted in a direction transverse to the plane of displacement of the uprights (6) during the passing the structure (2) from one position to another, - and a plurality of arches (10), each arch (10) being connected to a bow (5) by a link (11) articulated to pass from a retracted position in which it extends in applied manner against said arch (5) in an extended position in which it forms an additional cross, and conversely, characterized in that the link (11) articulated between the arch (10) and arch (5) is, for at least one, preferably for each, arch (10), at least one pivotal connection of the arch (10) about an axis substantially parallel to the longitudinal axis of the cross member (7) of said arch (5), and sliding of the arch (10) along an amount (6) of the arch (5).
[0002]
2. Structure (2) according to claim 1, characterized in that each arch (10), connected to a bow (5) by a connection (11) articulated pivotally and sliding, is, on at least a part of its stroke, from the deployed position to the folded position, in parallel with its pivotal movement in the direction of a rapprochement of the hoop (5) to which it is articulately connected, mounted movably sliding in the direction of a approaching the lower end of the uprights (6) of said arch (5).
[0003]
3. Structure (2) according to one of the preceding claims, characterized in that each arch (10) connected to a bow (5) by a link (11) pivotally articulated and sliding, is in the deployed position, locked in sliding motion.
[0004]
4. Structure (2) according to one of the preceding claims, characterized in that each arch (10) has the shape of an inverted U and in that the link (11) articulated between arch (10) and arch (5). ) comprises articulated connection means arranged at the end of each leg of the U between a branch of the U and a post (16) of the bow (5).
[0005]
5. Structure (2) according to one of the preceding claims, characterized in that the link (11) articulated to pivoting and sliding between arch (10) and arch (5) comprises, at each upright (6) the hoop (5), a slot (12) formed on the upright (6) of the hoop (5) and a pin (13) carried by the arch (10) and slidably movable in the said slot (12) .
[0006]
6 Structure (2) according to claim 5, taken in combination with claim 3, characterized in that the light (12) has the shape of an inverted L with a portion (121) said vertical substantially parallel to the upright (6) of the arch (5), able to be traversed by the pin (13) during the passage of the arch (10) from one position to another, and a portion (122) horizontal able to be occupied by the piece (13) in the deployed position of the arch (10), and in that the sliding locking means (14) of said arch (10) are formed at least partially by two of the edges of the portion (122). horizontal light (12) .7. Structure (2) according to one of the preceding claims, characterized in that each arch (10), connected to a hoop (5) by a link (11) pivotally and slidably articulated, is, in addition to its connection ( 11) pivotally and slidably articulated, coupled to each of the uprights (6) of the arch (5) by a rod (16) whose ends are coupled respectively to the arch (10) and the upright (6) of hoop (5) by a link (17) pivot axis substantially orthogonal to the longitudinal axis of the amount (6) hoop (5). 8. Structure (2) according to one of the preceding claims, characterized in that said structure (2) comprises, for each arch (10) connected to a bow (5) by a link (11) pivotally articulated and sliding , means (15) for returning said arch (10) in the deployed position. 9. Structure (2) according to claim 8, taken in combination with claim 7, characterized in that the return means (15) comprise at least one spring disposed at one end of the rod (16) at the connecting the rod (16) to the arch (10). 10. Structure (2) according to one of the preceding claims, characterized in that the means (9) connecting the uprights (6) of two adjacent arches (5) comprise, by pair of uprights (6) facing , a mast (91) connected to said uprights (6) opposite said adjacent arches (5) by means of links (92) able to allow the mast (9) to be moved on one side or the other of the plane moving the uprights (6) opposite when folding said structure (2). 11. Shelter (1) of a surface (3), in particular of a load plate, such as a platform of a truck, trailer or the like, said shelter (1) comprising a shelter structure (2) and at least one covering element (4) of tarpaulin type at least partially covering said shelter structure (2) characterized in that said structure (2) is according to one of claims 1 to 10.5

类似技术:

公开号 | 公开日 | 专利标题

EP3107747B1|2019-05-29|Canopy structure, in particular for a loading platform, such as a truck flatbed, trailer flatbed or the like, and canopy incorporating such a structure

EP0778169B1|2000-02-23|Tarpaulin arrangement for lorries

FR2882016A1|2006-08-18|Umbrella-type folding stroller for carrying baby in e.g. city, has arms guided by rods between folded position in which arms form reduced angle with beam and unfolded position, and sliding unit mounted on beam to which one rod is integrated

EP1666365A1|2006-06-07|Palletcontainer with two support surfaces

EP1775160B1|2008-05-07|Covering structure for a surface, in particular a loading platform

FR2971220A1|2012-08-10|Load transportation system for e.g. transporting purchased goods in shop, has deploying and folding units for permitting deployment of system from folded position to deployed position by moving load support plate along axis

EP3044070B1|2019-07-31|Foldable stroller for carying newborns

FR2598897A1|1987-11-27|Luggage which can be converted into a trolley

EP3640414A1|2020-04-22|Folding camping tent comprising two umbrella structures

FR2920715A1|2009-03-13|Cattle e.g. calf, transporting vehicle i.e. cattle truck, has barriers positioned on both sides of opening to guide cattle in deployed position, and folded, superimposed and arranged against wall in folded position for transportation

EP1765624B1|2014-04-23|Motor vehicle opening frame and motor vehicle equipped with same

FR3013272A1|2015-05-22|NEW TYPE SHELTER

EP1690715A1|2006-08-16|Convertible vehicle capable of being configured as a pick-up

EP1693276B1|2010-06-02|Foldable stroller with articulated foot rest

EP1769961A2|2007-04-04|Light roof cover structure suppressible in the trunk

EP2450017B1|2013-06-19|Bed assembly method

EP0741052A1|1996-11-06|Cover structure for utility vehicle with a movable stanchion

EP3286064B1|2020-02-12|Folding frame of a child stroller, and corresponding stroller

FR2610574A1|1988-08-12|Device for opening and closing sliding roof elements for the purpose of putting a tarpaulin over them

WO2021148732A1|2021-07-29|Foldable gazebo-type shelter

FR2757831A1|1998-07-03|Pallet for handling tall articles, e.g. doors or window frames

FR2760178A1|1998-09-04|Suitcase with folding U=shaped support legs

FR3055603A1|2018-03-09|CHILDREN'S CHILD STROLLER CHASSIS AND CORRESPONDING STROLLER

FR2622523A1|1989-05-05|Multi-function folding trolley

FR2576556A1|1986-08-01|Improvements to vehicles equipped with sliding doors with several adjacent leaves

同族专利:

公开号 | 公开日

US20150231952A1|2015-08-20|

DK3107747T3|2019-09-09|

CA2937301A1|2015-08-27|

WO2015124843A1|2015-08-27|

FR3017574B1|2017-08-11|

EP3107747A1|2016-12-28|

EP3107747B1|2019-05-29|

CA2937301C|2022-02-01|

US9296284B2|2016-03-29|

ES2743546T3|2020-02-19|

PL3107747T3|2019-12-31|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

GB885082A|1956-12-28|1961-12-20|John Smith & Co London Ltd|Improvements in or relating to lorry tilt or cover frame structures|

FR2891782A1|2005-10-12|2007-04-13|Libner Sa Sa|Folding supporting structure for truck or trailer cover has uprights between masts that can be moved inwards or outwards to create accordion pleats in cover|CN109070709A|2016-04-06|2018-12-21|欧洲拖车系统公司|waterproof cover structure|US3064667A|1960-04-06|1962-11-20|Frank J Marino|Portable loading canopy|

US3140116A|1962-01-26|1964-07-07|Warren R Langdon|Side-loading vehicle|

US4305415A|1980-07-16|1981-12-15|Joseph Galli|Motor vehicle housing|

US4392682A|1981-08-04|1983-07-12|Norkus Jr Kasper|Expansible and retractable vehicle body|

US5005896A|1990-01-22|1991-04-09|Li Cheng Chia|Retractable truck canopy frame|

US5167246A|1990-05-21|1992-12-01|Magline, Inc.|Rapidly erectable and strikeable shelter frame system and methods of erecting and striking such systems|

US5524953A|1994-06-03|1996-06-11|Shaer; Jack E.|Contractable vehicle bed cover assembly with extendable closure|

US5839462A|1997-05-19|1998-11-24|Randall; Paul G.|Extensible and retractable canopy structure for vehicles and the like|

US6905161B2|1998-09-01|2005-06-14|Edscha Lkw-Schiebeverdecke Gmbh|Sliding-bow folding up|

US6616211B2|2001-10-09|2003-09-09|Cramaro Terpaulin Systems, Inc.|Tarpaulin tensioning arrangement|

US6976433B1|2004-06-10|2005-12-20|Dietmar Neumann|Slidable cover assembly for merchandise carrying vehicle platforms|

US7325855B2|2005-10-14|2008-02-05|Aero Industries, Inc.|Uplift bow for a retractable tarping system|

WO2009009930A1|2007-07-19|2009-01-22|San-Lang Ting|Multi-function vehicle canopy|

US8235447B2|2010-02-04|2012-08-07|Roll-Tite Corp.|Tensioning and lock device|

CA2733761A1|2010-03-11|2011-09-11|First Class Services, Inc.|Combination trailer|

US9033393B2|2012-03-21|2015-05-19|Everest DAMSI|Convertible tarp system|CA2829500C|2012-10-12|2019-02-12|Magna International Inc.|Sliding | folding soft top assembly for suv|

US10518823B1|2016-01-06|2019-12-31|Cakeboxx Technologies, Llc|Two piece shipping container as covered flatbed trailer|

DE202017104214U1|2017-07-14|2017-08-11|European Trailer Systems Gmbh|Clamping device holder for use in a tarpaulin construction and tarpaulin construction|

CN109533043B|2018-12-13|2020-06-19|重庆军通汽车有限责任公司|Carriage of fuming vehicle|

法律状态:
2016-02-18| PLFP| Fee payment|Year of fee payment: 3 |

2017-02-17| PLFP| Fee payment|Year of fee payment: 4 |

2018-02-27| PLFP| Fee payment|Year of fee payment: 5 |

2020-02-19| PLFP| Fee payment|Year of fee payment: 7 |

2021-11-12| ST| Notification of lapse|Effective date: 20211005 |

优先权:

申请号 | 申请日 | 专利标题

FR1451332A|FR3017574B1|2014-02-19|2014-02-19|SHELTER STRUCTURE, ESPECIALLY A LOAD TRAY, SUCH AS A TRUCK, TRAILER OR SIMILAR PLATFORM, AND SHELTER INTEGRATING SUCH STRUCTURE|FR1451332A| FR3017574B1|2014-02-19|2014-02-19|SHELTER STRUCTURE, ESPECIALLY A LOAD TRAY, SUCH AS A TRUCK, TRAILER OR SIMILAR PLATFORM, AND SHELTER INTEGRATING SUCH STRUCTURE|

US14/220,226| US9296284B2|2014-02-19|2014-03-20|Shelter structure, in particular for a load deck, such as a platform of a truck, a trailer, or the like, and a shelter incorporating such a structure|

DK15706905.5T| DK3107747T3|2014-02-19|2015-02-10|STRUCTURE FOR PROTECTION, IN PART OF A LOAD, SUCH AS A TRUCK, TRAILER OR LIKE, AND PROTECTION CONTAINING SUCH A STRUCTURE|

PCT/FR2015/050314| WO2015124843A1|2014-02-19|2015-02-10|Canopy structure, in particular for a loading platform, such as a truck flatbed, trailer flatbed or the like, and canopy incorporating such a structure|

CA2937301A| CA2937301C|2014-02-19|2015-02-10|Canopy structure, in particular for a loading platform, such as a truck flatbed, trailer flatbed or the like, and canopy incorporating such a structure|

ES15706905T| ES2743546T3|2014-02-19|2015-02-10|Protective structure, in particular of a cargo space, such as a truck, trailer or similar platform, and protector that integrates said structure|

EP15706905.5A| EP3107747B1|2014-02-19|2015-02-10|Canopy structure, in particular for a loading platform, such as a truck flatbed, trailer flatbed or the like, and canopy incorporating such a structure|

PL15706905T| PL3107747T3|2014-02-19|2015-02-10|Canopy structure, in particular for a loading platform, such as a truck flatbed, trailer flatbed or the like, and canopy incorporating such a structure|

[返回顶部]