CA2428774A1 - Closure panel - Google Patents
Closure panel Download PDFInfo
- Publication number
- CA2428774A1 CA2428774A1 CA 2428774 CA2428774A CA2428774A1 CA 2428774 A1 CA2428774 A1 CA 2428774A1 CA 2428774 CA2428774 CA 2428774 CA 2428774 A CA2428774 A CA 2428774A CA 2428774 A1 CA2428774 A1 CA 2428774A1
- Authority
- CA
- Canada
- Prior art keywords
- wall portion
- panel
- side wall
- slat
- panel according
- Prior art date
- 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.)
- Abandoned
Links
Classifications
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/02—Shutters, movable grilles, or other safety closing devices, e.g. against burglary
- E06B9/08—Roll-type closures
- E06B9/11—Roller shutters
- E06B9/15—Roller shutters with closing members formed of slats or the like
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/02—Shutters, movable grilles, or other safety closing devices, e.g. against burglary
- E06B9/08—Roll-type closures
- E06B9/11—Roller shutters
- E06B9/15—Roller shutters with closing members formed of slats or the like
- E06B2009/1533—Slat connections
-
- E—FIXED CONSTRUCTIONS
- E06—DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
- E06B—FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
- E06B9/00—Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
- E06B9/02—Shutters, movable grilles, or other safety closing devices, e.g. against burglary
- E06B9/08—Roll-type closures
- E06B9/11—Roller shutters
- E06B9/15—Roller shutters with closing members formed of slats or the like
- E06B2009/1533—Slat connections
- E06B2009/155—Slats connected by separate elements
- E06B2009/1555—Flexible elements, e.g. tapes, strips, cords or chains
- E06B2009/1561—Strips
Landscapes
- Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Extensible Doors And Revolving Doors (AREA)
- Operating, Guiding And Securing Of Roll- Type Closing Members (AREA)
Abstract
A panel 1 for use as a flexible closure member capable of travel around an arcuate track or storage around a roller comprises a plurality of elongate hollow slats 2 each laterally adjacent to another and a backing material comprising at least one flexible substrate 9 secured to a face of each slat so as to connect the slats to one another. Each slat has an elongate front wall portion 4 and an elongate rear wall portion 6 opposite to and spaced apart from the front wall portion 4, which front and rear wall portions 4, 6 are interconnected by opposed, spaced apart, elongate side wall portions 8, 10.
Respective front wall portions 4 are capable of defining a front face of the panel, while respective rear wall portions 6 provide the respective faces to which the flexible substrate is secured. One side wall portion 8 of each respective slat is profiled so as to provide an elongate protrusion laterally outwardly of the front and rear wall portions and the other side wall portion 10 is profiled so as to provide an elongate recess laterally inwardly of the front and rear wall portion whereby, when the panel is in a flat condition, respective protrusions and recesses provided by adjacent side wall portions 8, of adjacent slats 2 are capable of interengagement, thereby providing stability and stiffness of the panel, but whereby the respective protrusions are capable of separation out of engagement with one another so as to allow flexure of the panel during travel around an~
arcuate track or storage around a roller.
Respective front wall portions 4 are capable of defining a front face of the panel, while respective rear wall portions 6 provide the respective faces to which the flexible substrate is secured. One side wall portion 8 of each respective slat is profiled so as to provide an elongate protrusion laterally outwardly of the front and rear wall portions and the other side wall portion 10 is profiled so as to provide an elongate recess laterally inwardly of the front and rear wall portion whereby, when the panel is in a flat condition, respective protrusions and recesses provided by adjacent side wall portions 8, of adjacent slats 2 are capable of interengagement, thereby providing stability and stiffness of the panel, but whereby the respective protrusions are capable of separation out of engagement with one another so as to allow flexure of the panel during travel around an~
arcuate track or storage around a roller.
Description
CLOSURE PANwL
The present invention relates to a closure panel such as found for example in office furniture, in particular, as a sliding front panel or roller shutter panel of office cabinets but also kitchen cupboards and as found in heavier duty applications such as roller shutter doors o~
windows, doors and vehicle entrances, According to known closure panel designs, the panel typically consists of a plurality of laterally adjacent slats, wr=ch are interconnected in a manner such as to allow relative movement between adjacent Slats into and out of the plane of a panel in fla= condition so that the panel may follow an arcuate track or be wound around a roller.
In a so-called slatt~d panel, this is achieved merely by providing a plurality of elongate solid, rectangular section, slats adjacent to one arozher, one pair of opposed faces providing respective front and .ear wal=s and the other pair providing respective side walls. The front walls together d~fine a front wall of the panel while the rear walls are secured togetr.er by a flexible substrate, which allows for flexure of the panel when guided around an arcuate track_ however, such constructions tend to be too flexible 4o bG commercially attractive.
zn an alternative arrangement, a plura~~ity of laterally adjacent slats are interconnected in a manner such as to enable relative rotation between adjacent slats. This a typically by means either of a pivot, hinge, a sliding joint arrangement, a resilient interconnection member or other joint arrangement between respective longitudinal sides of adjacent slats. A typical known arrangement of this type is shown in Figs. 1 and la. A panel 50 comprises a plurality of slats 52, each having a front wall 54, a rear wall 56 and respective side walls S8, 60, one side wall 58 being profiled so as to prcvide an elongate part-circular socket 59 and she other side wall having protruding therefrom a rigid strip 61 terminating in an elongate hollow rib 62. Rib 62 is slidable longitudinally into socket 59 and is then rotatable therein. Flexure of the panel is achievable solely by maans of this relative rotation.
However, in yet another arrar_gement allotaing such relativE rotation, additional flexure is provided by a flexible strip extending between adjacent slats as shown in Fig. 2. Fig. 2 shows a panel 70 comprising a plurality of hollow slats 72, 86, each having a front wall 74, a rear wall 76 and respective side walls, Drofiled as described below. The hollow slats a=a strengthened by a web 78 extending between the front and rear walls 74 and 76 respectively.
Each slat 72, 86 of an adjacent pair of slats zs secured one to the other by a _lexible strip 71 secured to and extending between adjacent side walls 84 or adjacent slats at a position rearward of sach front wall 74 and forward of each rear wall 76. Side walls 84 Gre path curved so as to ext~nd laterally inwardly fram the =rout wall 74 to the rear wall 76 so that when the panel is in a flat condition as shown in Fig. 2, respective edges of the front walls 74 may abut one another to provide a continuous front surface of the panel, whereas, on flexure of tht flexible strip 71, respective adjacent strips are capable of rotation relative to one another out of the plane degined by the abovementioned continuous front surface.
In addition, one slat of each adjacent pair thereof (interconnected by flexible strip 71) is provided with a side wall BO opposite to side wall 84, which side wall BO
is profiled so as to provide an elongate part-circular socket 82, while the other slat 86 of each interconnected pair thereof is provided with a side wall 90, having protruding therefrom a rigid strip 92, terminating in an elongate hollow rib 8B. As in the embodiment described with reference to Figs, 1 and la, rib 92 is slideable longitudinally into socket 82 of an adjacent slat of an adjacent pair thereof and is then rotatable in socket 82.
Flexure of the panel is therefore achievable by means of the relative rotation betwEen adjacent pairs of slats 74, 86 and by flexure at the strips 71 between each slat of a respective pair thereof_ However, it can be aeen that constructions such as those shown in Figs. 1 and 2 are complicated. so that extrusion of such constructions is relatively expensive and indeed, at least for the construction shown in Fig. 2 requires extrusion of at least two separate materials, one for the flexible strip 71 and the ether fox the remaining portions of the slats. Moreover, if a veneer is to be provided on the front face of sack a sloe so as to imp=ove aesthetically the view provided by the front 'ace, then extrusion of a third material will become necessary.
Moreover, with both of the above ment=oned fo rcis of panel, it is necessary either to provide a separate profile including a :candle or means for attachment of a handle which again adds to the cost of producticn.
The present invention add=esses the problem of providing a simple panel constructien which is sufficiently stiff for commercial use whilst providing sufficient flzxibi=ity for efficient sliding aroand an arcuate track or storage around a roller, which panel can be pxoduc~d inexpensively and wrich may allcw the provision of a separate profile or means for attacr~ent of a handle to be dispensed with.
Thus, according to the present irwent'_on there is provided a panel for use as a flexible closure member capable of travel around an arcuate track or stcrage around a roller, which panel comprise a plurality of elongate hollow s'_ats each laterally adjacent to another, and a backing material comprising at least one flexible substrate secured tc a face o~ each slat, the or each 'lexible substrate extending at least longitudinally of the panel and laterally of the slats frcm a region cf a face of a first end Slat at one langitudizal erd of the panel to a region of a face of a second end slat at the other longitudinal end of the panel, so as to connect the slats to one another, eacr. slat having an elongate front wall portion and an elongate rear wall portion opposite to and spaced apart from tre front wall portion, which front and rear wall portions are interconnected by opposed, spaced apart, elongate side wall portiora, respective front wall portiors being capable of defining a front face of the panel and respective rear IO wall port_ors providing the respective faces to which the flexible substrate is securEd, one side wall portion of each =espective slat being profiled so as to provide an elongate protrusion laterally outwardly or the from and rear wall portions and the other Side wall portion being profiled so as to provide ar_ elongate recess laterally inward=y of the front and rear wall port=on whereby, when the pa:~el is in a flat condition, respective pre~rusions and recesses provided by adjacent side wall portions of adjacent slats are capable of interengagement, thereby providing stab-lity and stiffness of the panel, but whereby the respective protrusions are capable of separation out of engagement with one another so as to alloia 'lexure of the panel during travel around an arcuar.e track or storage arour_d a roller.
The slats axe preferably of extruded pl.as~ics material and are more preferably extruded from different respective plastics materials, one plastics materia'_ providing a body portion of the slat and the other a surface portion defining a front face of ~he front wall portion of each slat, so as to prctride a visible "skin"
surface of the panel. In this manner, a relatively _nexpensive material can be employed fcr the body of the slat, while a more expens'_ve but aesthetically more pleasing material may be used tc provide a veneer on the front wall portion of each slat so that the view presented by the front of the panel may be particularly at~raczive and may, for example, be of an attractive colour or provide a mezameric effect in w:zich the panel changes Colour with the point of viewing. As an alternative, the slats may be a one-piece extruded plastics material optionally including therein decorative material, for example, coloured, especially silver, flakes.
The protrusions provided by respective side wall portions of the slats may be defined by regicns of respective side wa'_- portions which are generally convex while the recesses may be defined by correspondingly profiled regions of respective side wall portions which are generally concave. Generally convex regions of respective side wall portions cooperate with gene=ally concave regions of respective side wall portions of adjacent slats, In an especially preferred embodiment of suc:~ a construction, each of the generally convex and generally cor_cave regions of respective side wall portions of each slat is preferably defined by a respective generally central suction of the side wall pcr=ioa spaced from each of the front and rent wall cord ons oy the slat and connected thereto by respective recions of the side wall portions defired by generally planar sections, at least the generally planar sections connecting thn central section to the front wall portion each having an angular dispositior_ relative to the front or rear wall portion sLCh as to cooperate with a corresponding planar section of a side wall portion of an adjacent slat.
Mare preferably, each generally planar section of each side wall portion which connects the generally central section to the front wall portion has an angular disposition generally perpendicular to the front wall potion. Likewise, more preferably, each generally planar section of each side wall pert~on which connects the generally central section to the year wall portion has an angular disposition generally perpendicular to the rear wall portion.
in another embodiment of such a construction, the region of one side wall portion of each slat which is generally convex and the region of the other side wall portion of each slat which is generally convex each expend substar_tially from the front to the rear wall portion.
In an alterna'ivE slat construction, each side wall portion may include a forward section providing one of a convex and a concave region and a rearward section providing the other of a convex and a concave region, respective adjacent side wall portions of adjacent slats being correspondingly profiled to allow interengagement of respective adjacent convex and concave regions with one another_ However, it is preferred to provide respective protrusions and correspondingly profiled recesses by respective side wall portior_s which have generally planar sections, a first section protruding (or receding) laterally from the front wall portion, a second section protruding (or receding) laterally from the rear wa-1 portzon and a third sectior_ extending between the above mentioned first and second sections, which third section is generally perpendicular to at least the front, and most preferably additionally, the rear wall portions.
In any of the above slat constructions, one of the slats may be pxofiled so as to be provided with a longitudinal recess in the front wall portion thereof, which recess is capable of serving as a har_dle. Alternatively, as a handle, an aperture may be provided in the front wall portion through which a user may insert his fi:~gers.
~.n a panel eribodying the ir_vention, z'.~.e bac:~cirq material may be flexible substrate, preferable a one-piece flexible substrate, extending essentially over th? entire panel. Such a flexible substrate is preferal:le a fabric, more preferably a non-woven fabric.
The present invention relates to a closure panel such as found for example in office furniture, in particular, as a sliding front panel or roller shutter panel of office cabinets but also kitchen cupboards and as found in heavier duty applications such as roller shutter doors o~
windows, doors and vehicle entrances, According to known closure panel designs, the panel typically consists of a plurality of laterally adjacent slats, wr=ch are interconnected in a manner such as to allow relative movement between adjacent Slats into and out of the plane of a panel in fla= condition so that the panel may follow an arcuate track or be wound around a roller.
In a so-called slatt~d panel, this is achieved merely by providing a plurality of elongate solid, rectangular section, slats adjacent to one arozher, one pair of opposed faces providing respective front and .ear wal=s and the other pair providing respective side walls. The front walls together d~fine a front wall of the panel while the rear walls are secured togetr.er by a flexible substrate, which allows for flexure of the panel when guided around an arcuate track_ however, such constructions tend to be too flexible 4o bG commercially attractive.
zn an alternative arrangement, a plura~~ity of laterally adjacent slats are interconnected in a manner such as to enable relative rotation between adjacent slats. This a typically by means either of a pivot, hinge, a sliding joint arrangement, a resilient interconnection member or other joint arrangement between respective longitudinal sides of adjacent slats. A typical known arrangement of this type is shown in Figs. 1 and la. A panel 50 comprises a plurality of slats 52, each having a front wall 54, a rear wall 56 and respective side walls S8, 60, one side wall 58 being profiled so as to prcvide an elongate part-circular socket 59 and she other side wall having protruding therefrom a rigid strip 61 terminating in an elongate hollow rib 62. Rib 62 is slidable longitudinally into socket 59 and is then rotatable therein. Flexure of the panel is achievable solely by maans of this relative rotation.
However, in yet another arrar_gement allotaing such relativE rotation, additional flexure is provided by a flexible strip extending between adjacent slats as shown in Fig. 2. Fig. 2 shows a panel 70 comprising a plurality of hollow slats 72, 86, each having a front wall 74, a rear wall 76 and respective side walls, Drofiled as described below. The hollow slats a=a strengthened by a web 78 extending between the front and rear walls 74 and 76 respectively.
Each slat 72, 86 of an adjacent pair of slats zs secured one to the other by a _lexible strip 71 secured to and extending between adjacent side walls 84 or adjacent slats at a position rearward of sach front wall 74 and forward of each rear wall 76. Side walls 84 Gre path curved so as to ext~nd laterally inwardly fram the =rout wall 74 to the rear wall 76 so that when the panel is in a flat condition as shown in Fig. 2, respective edges of the front walls 74 may abut one another to provide a continuous front surface of the panel, whereas, on flexure of tht flexible strip 71, respective adjacent strips are capable of rotation relative to one another out of the plane degined by the abovementioned continuous front surface.
In addition, one slat of each adjacent pair thereof (interconnected by flexible strip 71) is provided with a side wall BO opposite to side wall 84, which side wall BO
is profiled so as to provide an elongate part-circular socket 82, while the other slat 86 of each interconnected pair thereof is provided with a side wall 90, having protruding therefrom a rigid strip 92, terminating in an elongate hollow rib 8B. As in the embodiment described with reference to Figs, 1 and la, rib 92 is slideable longitudinally into socket 82 of an adjacent slat of an adjacent pair thereof and is then rotatable in socket 82.
Flexure of the panel is therefore achievable by means of the relative rotation betwEen adjacent pairs of slats 74, 86 and by flexure at the strips 71 between each slat of a respective pair thereof_ However, it can be aeen that constructions such as those shown in Figs. 1 and 2 are complicated. so that extrusion of such constructions is relatively expensive and indeed, at least for the construction shown in Fig. 2 requires extrusion of at least two separate materials, one for the flexible strip 71 and the ether fox the remaining portions of the slats. Moreover, if a veneer is to be provided on the front face of sack a sloe so as to imp=ove aesthetically the view provided by the front 'ace, then extrusion of a third material will become necessary.
Moreover, with both of the above ment=oned fo rcis of panel, it is necessary either to provide a separate profile including a :candle or means for attachment of a handle which again adds to the cost of producticn.
The present invention add=esses the problem of providing a simple panel constructien which is sufficiently stiff for commercial use whilst providing sufficient flzxibi=ity for efficient sliding aroand an arcuate track or storage around a roller, which panel can be pxoduc~d inexpensively and wrich may allcw the provision of a separate profile or means for attacr~ent of a handle to be dispensed with.
Thus, according to the present irwent'_on there is provided a panel for use as a flexible closure member capable of travel around an arcuate track or stcrage around a roller, which panel comprise a plurality of elongate hollow s'_ats each laterally adjacent to another, and a backing material comprising at least one flexible substrate secured tc a face o~ each slat, the or each 'lexible substrate extending at least longitudinally of the panel and laterally of the slats frcm a region cf a face of a first end Slat at one langitudizal erd of the panel to a region of a face of a second end slat at the other longitudinal end of the panel, so as to connect the slats to one another, eacr. slat having an elongate front wall portion and an elongate rear wall portion opposite to and spaced apart from tre front wall portion, which front and rear wall portions are interconnected by opposed, spaced apart, elongate side wall portiora, respective front wall portiors being capable of defining a front face of the panel and respective rear IO wall port_ors providing the respective faces to which the flexible substrate is securEd, one side wall portion of each =espective slat being profiled so as to provide an elongate protrusion laterally outwardly or the from and rear wall portions and the other Side wall portion being profiled so as to provide ar_ elongate recess laterally inward=y of the front and rear wall port=on whereby, when the pa:~el is in a flat condition, respective pre~rusions and recesses provided by adjacent side wall portions of adjacent slats are capable of interengagement, thereby providing stab-lity and stiffness of the panel, but whereby the respective protrusions are capable of separation out of engagement with one another so as to alloia 'lexure of the panel during travel around an arcuar.e track or storage arour_d a roller.
The slats axe preferably of extruded pl.as~ics material and are more preferably extruded from different respective plastics materials, one plastics materia'_ providing a body portion of the slat and the other a surface portion defining a front face of ~he front wall portion of each slat, so as to prctride a visible "skin"
surface of the panel. In this manner, a relatively _nexpensive material can be employed fcr the body of the slat, while a more expens'_ve but aesthetically more pleasing material may be used tc provide a veneer on the front wall portion of each slat so that the view presented by the front of the panel may be particularly at~raczive and may, for example, be of an attractive colour or provide a mezameric effect in w:zich the panel changes Colour with the point of viewing. As an alternative, the slats may be a one-piece extruded plastics material optionally including therein decorative material, for example, coloured, especially silver, flakes.
The protrusions provided by respective side wall portions of the slats may be defined by regicns of respective side wa'_- portions which are generally convex while the recesses may be defined by correspondingly profiled regions of respective side wall portions which are generally concave. Generally convex regions of respective side wall portions cooperate with gene=ally concave regions of respective side wall portions of adjacent slats, In an especially preferred embodiment of suc:~ a construction, each of the generally convex and generally cor_cave regions of respective side wall portions of each slat is preferably defined by a respective generally central suction of the side wall pcr=ioa spaced from each of the front and rent wall cord ons oy the slat and connected thereto by respective recions of the side wall portions defired by generally planar sections, at least the generally planar sections connecting thn central section to the front wall portion each having an angular dispositior_ relative to the front or rear wall portion sLCh as to cooperate with a corresponding planar section of a side wall portion of an adjacent slat.
Mare preferably, each generally planar section of each side wall portion which connects the generally central section to the front wall portion has an angular disposition generally perpendicular to the front wall potion. Likewise, more preferably, each generally planar section of each side wall pert~on which connects the generally central section to the year wall portion has an angular disposition generally perpendicular to the rear wall portion.
in another embodiment of such a construction, the region of one side wall portion of each slat which is generally convex and the region of the other side wall portion of each slat which is generally convex each expend substar_tially from the front to the rear wall portion.
In an alterna'ivE slat construction, each side wall portion may include a forward section providing one of a convex and a concave region and a rearward section providing the other of a convex and a concave region, respective adjacent side wall portions of adjacent slats being correspondingly profiled to allow interengagement of respective adjacent convex and concave regions with one another_ However, it is preferred to provide respective protrusions and correspondingly profiled recesses by respective side wall portior_s which have generally planar sections, a first section protruding (or receding) laterally from the front wall portion, a second section protruding (or receding) laterally from the rear wa-1 portzon and a third sectior_ extending between the above mentioned first and second sections, which third section is generally perpendicular to at least the front, and most preferably additionally, the rear wall portions.
In any of the above slat constructions, one of the slats may be pxofiled so as to be provided with a longitudinal recess in the front wall portion thereof, which recess is capable of serving as a har_dle. Alternatively, as a handle, an aperture may be provided in the front wall portion through which a user may insert his fi:~gers.
~.n a panel eribodying the ir_vention, z'.~.e bac:~cirq material may be flexible substrate, preferable a one-piece flexible substrate, extending essentially over th? entire panel. Such a flexible substrate is preferal:le a fabric, more preferably a non-woven fabric.
2~ Alternatively, the backing material comprises a plurality of flexible substrates, such as a plLrality of tapes of plastics material.
she flexible substrates may be attached to the slats by means of an adhesive or by welding, for e~:a~rple, by thermal or vibration, especially ;lltrasonic, welding.
A panel ~mbodying the inver_tzon may be adapted to allow its travel along an arcuate path, especially when the panel is to provide a side wall opening shutter. For such shutters, the backing material is preferably a one-piece 3 flexible ssbstrate, e9pecially a fabric.
Alternatively, a panel embodying the invention may be adapted for storage around a roller to provide a roller shutter assembly, for example of the balanced Spring roller type disclosed in GB-A-224172?. For such shutters, the backing material may then be conveniently provided by a plurality of tapes o_-' plastics material extending longitudinally of the panel. Aiterna~ively, the backing material may be a textile material.
IS
When using a panel construction embodying the invention, firstly a continuous front face of the panel may be obtained when the panel is in the flat condition. and secondly, efficient interengagement can be achieved when the panel is in the flat condition, thus providing the panel with a particularly higz stiFfness when in a flat condition. Moreover, on flexure of the panel, the respective side wall portions may be easily separated from one another.
?S
Preferred embodiments of the invention will new be described with reference to Figs. 3 zo 13 of the accompanying drawir_gs, Figs. l, la and 2 thereof illustrating a known const=action as described above.
JO
In the drawings, Fig. 1 shows (on a reduced scale; a cross-section of a known panel construction in which adjacent slats are interconnected in a manner such as to enable relative rotation between adjacent slats, as described above;
Fig. la shows an elevational view of the panel of rr~ig. 1;
F~.g, 2 shows {on a reduced scale; a cross-section of a known panel construction alternative to that of Fig. 7.
which again allows rotation between adjacent slats, again as described above Fig. 3 shows {on a reduced scale) a section of a panel embodying the invention;
Fig. 4 shows (on a reduced scale) a plurality of slats adjacent to one another and employed in the panel of Fig. 3;
zo Fig. 5 shows a part of a panel of tre embodiment of ~- --Fig. 3 in an arcuate track;
Figs. 6 - 8 show a part of a panel of. the etnbodiment of Fig. 3 in respective flat, bent and completely folded conditions respectively;
Figs. 9 and i0 show respective parts of alternative panels similar to that of the embodiment of Fig. 3, but having slats with side wall portions ~aving respective different profiles.
Fig. 11 shows (on a reduced scale) a pair of panels embodying the invention in use as respective closure members prov_dirg cooperating side opening shutters.
Fig. 12 shows respective end secr,ions of panels providing cooperating side opening shuttexs in which the slats are of the const=uction shown in Fig. 3 but in which resoeGtive end slats each have a recess in the front wall to serve as a handle.
Figs. 13a-c show respective front, sectional and rear views of a panel embodying ~.he invention suitable for storage on a roller. Fig. 13b is a section on tie line A-A _:~ Fig. 13a.
Trus, Fig. 3 shows a section of a panel, generally indicated as 1, comprising a plurality of elongate slats 2 each having a front wall 4, a rear wall 6 and respective side walls 8, 10. The respective slats 2 are ~0 interconnected by a flexible substrate 9 secured to rear faces oi' the rear walls 6 of respective slats 2 so as 'to ::rovide the panel 1.
The flexible substrate 3 is preferably of non-woven material, especially of bonded polypropylene fibers. Tt is preferably secured Lo the slats 2 by means of se adhesive, for example, a polyurethane. Alterl:atively, the =lexible substrate 9 may be a sheet of plastics material, such as polyvinyl chloride, polypropylene or a 3~7 polyethylene based ~r~aterial, which may be secured to tae slats 2 by a hot melt technique such as by weld~.~,g.
especially sonic ~deldinc~.
x2 As can be seen from each of Figs. 3 - B, each s;at has a pair of opposed side walls 8, 10, side wall 8 providing ar. elongate protrusion defined by respective sections 12, 14, 16 and a side wall 10 providing an elongate recess defined by respective sections 18, 20 and 22. As can be seer. particularly from Figs. S - 8, the protrusion provided by side wall 8 is defined by respective first and second planar sect,~ors 12 and 14 respective=y protruding laterally outwardly from front and rear walls 4 and 6. These first and second secticns 12 and 14 are ...~_terconneczed by a third elongate planar section .5 generally perpendicular to front ar_d rear walls ~ and 6.
Likewise, as can be seen clearly from each of Figs. 4 8, the recess provided by side wall 10 of each s_at is defined by respective elongate first, second and third sect;ons 18, 20, 22. First and second sections 19 and 20 extend laterally inwardly of the slat from respective front and rear walls 4 and 6. A third section 22 axtends betweer_ the first and second sections 18 and 20 in a direction generally perpendicular to the front and rear walls 4 and 6 respECtively.
As is demonstrated with particular reference to Fig. 4, wrier shows respective sets of adjacent slats buc withcut the flexible substrate, this ccnstruction of panel allows easy release of the respective panels from one another, there being no locking of the respective panels one to the other when they axe in tension; contrast the known panel construction shown in Figs. 1 and 2.
Moreover, this generally trapezoidal cor_strucrion of slat provides a particularly high degree of stiffness to the panel when in the flat condition, there being a particularly efficient interengagement between the respective side walls 8 and 10 providing respective cooperative protrusions and recesses. This is to be se~n especially clearly from Fig. 6. Thus, in the flat condition, the panel is particular=y rigid and stable.
On the other hand, the rlexible substrate and the absence of any locking in tension allows easy flexure during travel along an arcuate track 40 (see F'_g. 5). Indeed, it is not only possible merely to flex Lhe panel (Fig. 7) but also to fold it, =or example, far storage, so that respective adjacent slats can lie one above the other (Fig. 8).
The abovementioned advantages of rigidity and stability etc may also be obtainable when the respective side wa113 of the s=ats are defined by respective generally convex side wa1_s while the recesses are defined by corresponding profiled generally concave side wads.
A particularly neat and simple construction of slat of this type which is especially easy to manufacture by extrusion is shown in Fig. 9. The slat, generally indicated as 42, has ra5pective front (44) and rear (45) walls interconnected by respective side walks, generally indicated as 46 and 48, ene of which (46) has a ccnvex legion and the other of which (48) has a concave region defined respectively by convex and concave sections 50 and 52 spaced from each of the front and rear walls 44.
45 of the slat 42 and connected thereto by respective regions of zh~ side wads defined by planar sections 54 -57. Each planar sectior_ ~4 - 57 extends perpendicular to each of she front (44) and rear (46) walls.
The abovementioned advantages awe also achievable when each side wall includes a forward section providing one of a convex and a concave section and a wearward section providing the other of a convex and concave section. Iri doss section, such side walls may have a generally S-shaped, or inverted S-shaped, configuration. A part of a panel the slats of which have side walls so profiled is shown in Fig. 10. As can be seen, each side wall generally indicated as 30, 32 of the panel has a short 1~ planar sect-on 23, 24, adjacent to and normal to each of the front and reax walls 26, 28 respectively and a generally S-shaped section therebetween. In ore side wall of the slat, the S-shaped section includes a forward part, adjacent to the front wall 26, defining a convex lateral projection 34 and a reaxward part adjGcent to the rear wall 28 defining a concave lateral recess 36, while the other, opposed side wall has a forward part defining a concave lateral recess 38 and a rearward part defining a convex lateral projection 40. When the panel is in the flat condition as shown in ig. 10, forward convex lateral projections 34 engage in cor=esponding forward concave lateral recesses 38, while rearward convex lateral projections 40 engage in rearward concave lateral recesses 36, thus providing a panel which, in the flat condition, is particularly rigid and stable.
Typically, in use, panels embodying the invention may be fitted betweer_ respective opposed upper and lower tracks of a cabinet so as to provide respective closure members as shown in Fig. 10. When the cabinet is in the open_ S condition, the panel may be folded into respective storage chambers at respective sides of the cabinet after being pused into respective side Lrack portions 101.
As can be seen from Fig. .1, when the respective panels 10 102, .03 lie adjacent to one another so that the cabinet is in the fully closed position, it will be necessary for the user to be able to grip the panels to move them apart. With a hollow slot construction embodying the invention, it is possible merely to provide an aperture 15 104 within a front face of one of the slats on each panel so that the user may merely insert his zingers into the hcllow space accessible through and thereby draw open. the respective panels.
~0 Thus, it becomes unnecessary to provide a separate profiled slat ror this purpose~or to provide means for attachment or a handle. This represents a considerable saving in expense.
However, alternatively, as shown in rig. 12, a slat of a panel may have a from wall profiled ~o as to pxoviCe therein a recess. Thus, Fig. 12 shows respectiYre end sections, generally indicated as 60 of pane.is providirLg cooperating sidE opening shutters in which an end slat 62 of each respective panel section 60 has a front wall 64 profiled so as to provide thereon a recess 66 :which can b2 used as a handle.
As an alternative to the panels shown in Figs. 11 and 12 which are adapted to allow travel along an arcuate path and provide cooperating side shutters, a panel embodying 7 the invention may be adapted for storage around a roller to provide a vertically opening shutter. Such an embodiment .s shown in Figs, 13a-c. As can be see from Fig. 13a, which shown a front view of a panel, this presents a particularly smooth, continuous suryace to the IO viewer. Any one (or more) of the slats thereof may be profiled, ss slat 72, to provide a recess in its front wall, thus allowing the user to grip the panel; sec especially Fvg. 13b. As can be seen frem Fig. 13c, which is a rear view of the panel, respectiTe slats 70 are 15 bound together by a plural=ty of tapes 74 extending logitudinally of the panel and laterally of the tapes.
The tapes 74 are in spaced apart parallel relationship.
As an alternative, a one,piece flexible substrate such as a fabric may be employed or_ the backing material.
?0
she flexible substrates may be attached to the slats by means of an adhesive or by welding, for e~:a~rple, by thermal or vibration, especially ;lltrasonic, welding.
A panel ~mbodying the inver_tzon may be adapted to allow its travel along an arcuate path, especially when the panel is to provide a side wall opening shutter. For such shutters, the backing material is preferably a one-piece 3 flexible ssbstrate, e9pecially a fabric.
Alternatively, a panel embodying the invention may be adapted for storage around a roller to provide a roller shutter assembly, for example of the balanced Spring roller type disclosed in GB-A-224172?. For such shutters, the backing material may then be conveniently provided by a plurality of tapes o_-' plastics material extending longitudinally of the panel. Aiterna~ively, the backing material may be a textile material.
IS
When using a panel construction embodying the invention, firstly a continuous front face of the panel may be obtained when the panel is in the flat condition. and secondly, efficient interengagement can be achieved when the panel is in the flat condition, thus providing the panel with a particularly higz stiFfness when in a flat condition. Moreover, on flexure of the panel, the respective side wall portions may be easily separated from one another.
?S
Preferred embodiments of the invention will new be described with reference to Figs. 3 zo 13 of the accompanying drawir_gs, Figs. l, la and 2 thereof illustrating a known const=action as described above.
JO
In the drawings, Fig. 1 shows (on a reduced scale; a cross-section of a known panel construction in which adjacent slats are interconnected in a manner such as to enable relative rotation between adjacent slats, as described above;
Fig. la shows an elevational view of the panel of rr~ig. 1;
F~.g, 2 shows {on a reduced scale; a cross-section of a known panel construction alternative to that of Fig. 7.
which again allows rotation between adjacent slats, again as described above Fig. 3 shows {on a reduced scale) a section of a panel embodying the invention;
Fig. 4 shows (on a reduced scale) a plurality of slats adjacent to one another and employed in the panel of Fig. 3;
zo Fig. 5 shows a part of a panel of tre embodiment of ~- --Fig. 3 in an arcuate track;
Figs. 6 - 8 show a part of a panel of. the etnbodiment of Fig. 3 in respective flat, bent and completely folded conditions respectively;
Figs. 9 and i0 show respective parts of alternative panels similar to that of the embodiment of Fig. 3, but having slats with side wall portions ~aving respective different profiles.
Fig. 11 shows (on a reduced scale) a pair of panels embodying the invention in use as respective closure members prov_dirg cooperating side opening shutters.
Fig. 12 shows respective end secr,ions of panels providing cooperating side opening shuttexs in which the slats are of the const=uction shown in Fig. 3 but in which resoeGtive end slats each have a recess in the front wall to serve as a handle.
Figs. 13a-c show respective front, sectional and rear views of a panel embodying ~.he invention suitable for storage on a roller. Fig. 13b is a section on tie line A-A _:~ Fig. 13a.
Trus, Fig. 3 shows a section of a panel, generally indicated as 1, comprising a plurality of elongate slats 2 each having a front wall 4, a rear wall 6 and respective side walls 8, 10. The respective slats 2 are ~0 interconnected by a flexible substrate 9 secured to rear faces oi' the rear walls 6 of respective slats 2 so as 'to ::rovide the panel 1.
The flexible substrate 3 is preferably of non-woven material, especially of bonded polypropylene fibers. Tt is preferably secured Lo the slats 2 by means of se adhesive, for example, a polyurethane. Alterl:atively, the =lexible substrate 9 may be a sheet of plastics material, such as polyvinyl chloride, polypropylene or a 3~7 polyethylene based ~r~aterial, which may be secured to tae slats 2 by a hot melt technique such as by weld~.~,g.
especially sonic ~deldinc~.
x2 As can be seen from each of Figs. 3 - B, each s;at has a pair of opposed side walls 8, 10, side wall 8 providing ar. elongate protrusion defined by respective sections 12, 14, 16 and a side wall 10 providing an elongate recess defined by respective sections 18, 20 and 22. As can be seer. particularly from Figs. S - 8, the protrusion provided by side wall 8 is defined by respective first and second planar sect,~ors 12 and 14 respective=y protruding laterally outwardly from front and rear walls 4 and 6. These first and second secticns 12 and 14 are ...~_terconneczed by a third elongate planar section .5 generally perpendicular to front ar_d rear walls ~ and 6.
Likewise, as can be seen clearly from each of Figs. 4 8, the recess provided by side wall 10 of each s_at is defined by respective elongate first, second and third sect;ons 18, 20, 22. First and second sections 19 and 20 extend laterally inwardly of the slat from respective front and rear walls 4 and 6. A third section 22 axtends betweer_ the first and second sections 18 and 20 in a direction generally perpendicular to the front and rear walls 4 and 6 respECtively.
As is demonstrated with particular reference to Fig. 4, wrier shows respective sets of adjacent slats buc withcut the flexible substrate, this ccnstruction of panel allows easy release of the respective panels from one another, there being no locking of the respective panels one to the other when they axe in tension; contrast the known panel construction shown in Figs. 1 and 2.
Moreover, this generally trapezoidal cor_strucrion of slat provides a particularly high degree of stiffness to the panel when in the flat condition, there being a particularly efficient interengagement between the respective side walls 8 and 10 providing respective cooperative protrusions and recesses. This is to be se~n especially clearly from Fig. 6. Thus, in the flat condition, the panel is particular=y rigid and stable.
On the other hand, the rlexible substrate and the absence of any locking in tension allows easy flexure during travel along an arcuate track 40 (see F'_g. 5). Indeed, it is not only possible merely to flex Lhe panel (Fig. 7) but also to fold it, =or example, far storage, so that respective adjacent slats can lie one above the other (Fig. 8).
The abovementioned advantages of rigidity and stability etc may also be obtainable when the respective side wa113 of the s=ats are defined by respective generally convex side wa1_s while the recesses are defined by corresponding profiled generally concave side wads.
A particularly neat and simple construction of slat of this type which is especially easy to manufacture by extrusion is shown in Fig. 9. The slat, generally indicated as 42, has ra5pective front (44) and rear (45) walls interconnected by respective side walks, generally indicated as 46 and 48, ene of which (46) has a ccnvex legion and the other of which (48) has a concave region defined respectively by convex and concave sections 50 and 52 spaced from each of the front and rear walls 44.
45 of the slat 42 and connected thereto by respective regions of zh~ side wads defined by planar sections 54 -57. Each planar sectior_ ~4 - 57 extends perpendicular to each of she front (44) and rear (46) walls.
The abovementioned advantages awe also achievable when each side wall includes a forward section providing one of a convex and a concave section and a wearward section providing the other of a convex and concave section. Iri doss section, such side walls may have a generally S-shaped, or inverted S-shaped, configuration. A part of a panel the slats of which have side walls so profiled is shown in Fig. 10. As can be seen, each side wall generally indicated as 30, 32 of the panel has a short 1~ planar sect-on 23, 24, adjacent to and normal to each of the front and reax walls 26, 28 respectively and a generally S-shaped section therebetween. In ore side wall of the slat, the S-shaped section includes a forward part, adjacent to the front wall 26, defining a convex lateral projection 34 and a reaxward part adjGcent to the rear wall 28 defining a concave lateral recess 36, while the other, opposed side wall has a forward part defining a concave lateral recess 38 and a rearward part defining a convex lateral projection 40. When the panel is in the flat condition as shown in ig. 10, forward convex lateral projections 34 engage in cor=esponding forward concave lateral recesses 38, while rearward convex lateral projections 40 engage in rearward concave lateral recesses 36, thus providing a panel which, in the flat condition, is particularly rigid and stable.
Typically, in use, panels embodying the invention may be fitted betweer_ respective opposed upper and lower tracks of a cabinet so as to provide respective closure members as shown in Fig. 10. When the cabinet is in the open_ S condition, the panel may be folded into respective storage chambers at respective sides of the cabinet after being pused into respective side Lrack portions 101.
As can be seen from Fig. .1, when the respective panels 10 102, .03 lie adjacent to one another so that the cabinet is in the fully closed position, it will be necessary for the user to be able to grip the panels to move them apart. With a hollow slot construction embodying the invention, it is possible merely to provide an aperture 15 104 within a front face of one of the slats on each panel so that the user may merely insert his zingers into the hcllow space accessible through and thereby draw open. the respective panels.
~0 Thus, it becomes unnecessary to provide a separate profiled slat ror this purpose~or to provide means for attachment or a handle. This represents a considerable saving in expense.
However, alternatively, as shown in rig. 12, a slat of a panel may have a from wall profiled ~o as to pxoviCe therein a recess. Thus, Fig. 12 shows respectiYre end sections, generally indicated as 60 of pane.is providirLg cooperating sidE opening shutters in which an end slat 62 of each respective panel section 60 has a front wall 64 profiled so as to provide thereon a recess 66 :which can b2 used as a handle.
As an alternative to the panels shown in Figs. 11 and 12 which are adapted to allow travel along an arcuate path and provide cooperating side shutters, a panel embodying 7 the invention may be adapted for storage around a roller to provide a vertically opening shutter. Such an embodiment .s shown in Figs, 13a-c. As can be see from Fig. 13a, which shown a front view of a panel, this presents a particularly smooth, continuous suryace to the IO viewer. Any one (or more) of the slats thereof may be profiled, ss slat 72, to provide a recess in its front wall, thus allowing the user to grip the panel; sec especially Fvg. 13b. As can be seen frem Fig. 13c, which is a rear view of the panel, respectiTe slats 70 are 15 bound together by a plural=ty of tapes 74 extending logitudinally of the panel and laterally of the tapes.
The tapes 74 are in spaced apart parallel relationship.
As an alternative, a one,piece flexible substrate such as a fabric may be employed or_ the backing material.
?0
Claims (19)
1. A panel for use as a flexible closure member capable of travel around an arcuate track or storage around a roller, which panel comprises a plurality of elongate hollow slats each laterally adjacent to another, and a backing material comprising at least one flexible substrate secured to a face of each slat, the or each flexible substrate extending at least longitudinally of the panel and laterally of the slats from a region of a face of a first end slat at one longitudinal end of the panel to a region of a face of a second end slat at the other longitudinal end of the panel, so as to connect the slats to one another, each slat having an elongate front wall portion and an elongate rear wall portion opposite to and spaced apart from the front wall portion, which front and rear wall portions are interconnected by opposed, spaced apart, elongate side wall portions, respective front wall portions being capable of defining a front face of the panel and respective rear wall portions providing the respective faces to which the flexible substrate is secured, one side wall portion of each respective slat being profiled so as to provide an elongate protrusion laterally outwardly of the front and rear wall portions and the other side wall portion being profiled so as to provide an elongate recess laterally inwardly of the front and rear wall portion whereby, when the panel is in a flat condition, respective protrusions and recesses provided by adjacent side wall portions of adjacent slats are capable of interengagement, thereby providing stability and stiffness of the panel, but whereby the respective protrusions are capably of separation out of engagement with one another so as to allow flexure of the panel during travel around an arcuate track or storage around a roller.
2. A panel according to Claim 1, wherein the protrusion provided by each side wall portion of a respective slat is defined by a region of the side wall which is generally convex and the recess provided by each side wall portion of a respective slat is defined by a region of the side wall portion which is generally concave and is profiled to cooperate with a corresponding generally convex region of a side wall portion or an adjacent slat.
3. A panel according to claim 2, wherein each of the generally convex and generally concave regions of respective side wall portions of each slat is defined by a respective generally central section of the side wall portion spaced from each of the front and year wall portions cf the slat and connected thereto by respective regions of the side wall portions defined by generally planar sections, at least the generally planar sections connecting the central section, to the front wall portion each having an angular disposition relative to the front or rear wall portion such as to cooperate with a corresponding planar section of a side wall portion of an adjacent slat.
4. A panel according to claim 2, wherein each generally planar section of each side wall portion which connects the generally central section to the front wall portion has an angular disposition generally perpendicular to the front wall portion.
5. A panel according to claim 4, wherein each generally planar section of each side wall portion which connects the generally central section to the rear wall portion has an angular disposition generally perpendicular to the rear wall portion.
6. A panel according to claim 2, wherein the legion of one,side wall portion of each slat which is generally convex and the region of the other side wall portion of each slat which is generally convex each extend substantially from the front to the rear wall portion.
7. A panel according to claim 2, wherein each side wall portion includes a forward section providing one of a convex and a concave region and a rearward section providing the other of a convex and a concave region, respective adjacent side wall portions of adjacent slats being correspondingly profiled to allow interengagement of respective adjacent convex and concave regions with one another.
8. A panel according to claim 1, wherein the respective side wall portions defining respective protrusions each have generally planar sections, a first section protruding laterally from a front wall portion, a second section protruding laterally from a rear wall portion and a third section extending between the first and second sections, which third section is generally perpendicular to the front wall portion;
the receptive side wall portions defining respective recesses each have generally planar sections, a first section receding laterally from a front wall portion, a second section receding laterally from a rear wall portion and a third section extending between the first and second sections, which third section is generally perpendicular to the front wall portion; and which respective side wall portions defining the protrusions and recesses are correspondingly profiled for cooperation with one another.
the receptive side wall portions defining respective recesses each have generally planar sections, a first section receding laterally from a front wall portion, a second section receding laterally from a rear wall portion and a third section extending between the first and second sections, which third section is generally perpendicular to the front wall portion; and which respective side wall portions defining the protrusions and recesses are correspondingly profiled for cooperation with one another.
9. A panel according to any preceding claim, wherein the slats are of extruded plastics material
10. A panel according to claim 9, wherein each slat has a body portion of a first extruded plastics material and a surface portion, defining a front end face of the front wall portion of a second extruded plastics material, so as to provide a visible surface of the panel.
11. A panel according to claim 9, wherein the slats are of a one-piece extruded plastics material optionally including therein decorative material.
12. A panel according to any preceding claim, wherein one of the slats has a longitudinal aperture or recess in the front wall portion thereof, which aperture or recess is capable of serving as a handle.
13. A panel according to any preceding claim, wherein the backing material is a flexible substrate extending essentially over the entire panel.
14. A panel according to claim 13, wherein the flexible substrate is a fabric.
15. A panel according Zo claim 14, wherein the fabric is a non-woven fabric.
16. A panel according to any one of claims 1 to 12, wherein the backing material comprises a plurality of flexible substrates.
17. A panel according to claim 18, wherein each flexible substrate is a tape of plastics material.
18. A panel according to any preceding claim, which is adapted for use a side opening shutter.
19. A panel according to any one of claims 1 to 19, which is adapted for use as a roller shutter.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB0211125.0 | 2002-05-15 | ||
GB0211125A GB0211125D0 (en) | 2002-05-15 | 2002-05-15 | Closure panel |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2428774A1 true CA2428774A1 (en) | 2003-11-15 |
Family
ID=9936716
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA 2428774 Abandoned CA2428774A1 (en) | 2002-05-15 | 2003-05-15 | Closure panel |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP1362976A1 (en) |
CA (1) | CA2428774A1 (en) |
GB (1) | GB0211125D0 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2416179B (en) * | 2004-07-07 | 2008-12-10 | Louver Lite Ltd | Blind fabric |
WO2014193244A1 (en) * | 2013-05-29 | 2014-12-04 | Assa Abloy Entrance Systems Ab | Roller door |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR1555410A (en) * | 1967-12-12 | 1969-01-24 | ||
DE3104048A1 (en) * | 1981-02-06 | 1982-08-19 | Clauss Markisen, 7311 Bissingen | Roller blind |
GB9005068D0 (en) | 1990-03-07 | 1990-05-02 | Rotalac Plastics | Improved roller shutter assembly |
DE9212193U1 (en) * | 1992-09-10 | 1993-03-04 | Meir, Max, 8898 Schrobenhausen | Profile cross-section of a slatted element for an arched sliding gate |
US5372175A (en) * | 1993-06-10 | 1994-12-13 | Waterloo Industries, Inc. | Tambour door construction |
FR2810364B3 (en) * | 2000-06-19 | 2002-04-19 | Jec | BLADE INTENDED TO BE CONNECTED TO OTHER IDENTICAL BLADES TO CONSTITUTE A CURTAIN OR ROLLING SHUTTER |
-
2002
- 2002-05-15 GB GB0211125A patent/GB0211125D0/en not_active Ceased
-
2003
- 2003-05-14 EP EP03252997A patent/EP1362976A1/en not_active Withdrawn
- 2003-05-15 CA CA 2428774 patent/CA2428774A1/en not_active Abandoned
Also Published As
Publication number | Publication date |
---|---|
GB0211125D0 (en) | 2002-06-26 |
EP1362976A1 (en) | 2003-11-19 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US6053591A (en) | Cabinet having a tambour door and an attachment mechanism | |
US5358024A (en) | Web covered vertical blind slat assemblies | |
US5141042A (en) | Web covered vertical blind slat assemblies | |
US4237632A (en) | Frame elements for releasably mounting a poster | |
US9234388B2 (en) | Removable window and door screens | |
CA1059375A (en) | Structure for slidable doors having snap-mounted glide retainer | |
JPH04228747A (en) | Partitioning system for dividing office space | |
EP2978918B1 (en) | Removable window and door screens | |
US5709259A (en) | Multiple section modular door and joint structure | |
US20090278373A1 (en) | C-hinge for golf cart folding windshield | |
US6186213B1 (en) | Vertical blind system having a removable vane cover | |
US8850747B2 (en) | Door with closing profile and integrated ventilation | |
CA2428774A1 (en) | Closure panel | |
US4913216A (en) | Slat for a louvre | |
US5050664A (en) | Sectional slat for closure by curtain, and respective closing curtain | |
US20070145873A1 (en) | Drawer construction | |
EP0596389A1 (en) | Sectional shutter | |
US5832979A (en) | Vertical blind having honeycomb-shaped vanes | |
US20100147468A1 (en) | Roman shade assembly | |
US20090274512A1 (en) | connector profile unit for panels | |
US5029628A (en) | Slat for a louvre | |
KR20190031918A (en) | Blinds for easy replacement and cleaning | |
US20010042331A1 (en) | Hinged picture frame member | |
EP1687494A1 (en) | Tambour door and pliable panel | |
US5232104A (en) | Display unit with removable front |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
FZDE | Dead |