CA2267268C - Venetian blind structure, double glazed window unit and method of assembling the venetian blind structure - Google Patents

Venetian blind structure, double glazed window unit and method of assembling the venetian blind structure Download PDF

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Publication number
CA2267268C
CA2267268C CA002267268A CA2267268A CA2267268C CA 2267268 C CA2267268 C CA 2267268C CA 002267268 A CA002267268 A CA 002267268A CA 2267268 A CA2267268 A CA 2267268A CA 2267268 C CA2267268 C CA 2267268C
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Prior art keywords
driving shaft
leg
venetian blind
alignment
blind structure
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CA002267268A
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French (fr)
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CA2267268A1 (en
Inventor
Fernand Roy
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Unicel Architectural Corp
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Unicel Architectural Corp
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Priority claimed from PCT/CA1996/000742 external-priority patent/WO1997018377A1/en
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    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B9/00Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
    • E06B9/24Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds
    • E06B9/26Lamellar or like blinds, e.g. venetian blinds
    • E06B9/264Combinations of lamellar blinds with roller shutters, screen windows, windows, or double panes; Lamellar blinds with special devices

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Blinds (AREA)

Abstract

The window unit of the invention comprises four peripheral channel members linked with comer members to form a window frame. Two glass panels are spaced by this frame to form an inner chamber, the venetian blind structure of the invention being located completely therein. The venetian blind structure comprises a plurality of horizontal slats pivotally supported at both their extremities and each having an integral toothed wheel engaging a complementary rack on an actuator bar, the latter positioned adjacent to a side peripheral channel member and being free to move upwards or downwards along it. This upward or downward movement imparts a pivoting movement to the slats. The venetian blind structure further comprises a support channel member supporting a reversible electrical motor having a driving shaft. This shaft is aligned to engage properly the actuator bar.
When the driving shaft rotates, it imparts a linear upward or downward movement to the actuator bar, thus pivoting the slats consequently. The alignment of the shaftis done by means of an L-shaped plate bored and threadingly engaged by an alignement sleeve, the latter being coaxially engaged by the driving shaft. This alignment of the shaft prevents the parts of the venetian blind structure from moving in undesired directions, relative to one another, and therefore reduces the chances of breaking these parts.

Description

WO 97118377 PCTlCA96l00742 VENETIAN BLIND STRUCTURE, DOUBLE GLAZED WINDOW UNIT AND
METHOD OF ASSEMBLING THE VENETIAN BLIND STRUCTURE
FIELD OF THE INVENTION
The present invention relates to a venetian blind structure for a double glazed sealed window unit, and more particularly to an alignment member for the driving shaft of a venetian blind structure.
BACKGROUND OF THE INVENTION
It is well known that a double glazed window is very advantageous for its efficient thermal insulation.
This is a result of the two glass panels trapping an air layer therebetween. Of course, it is necessary that the double glazed window unit be thoroughly sealed, else said unit would lose its particular insulating properties.
Venetian blinds are often used with window structures for they can they can be positioned anywhere between a first and a second position that respectively allow most of the light to come through the window or block most of it, venetian blinds being relatively aesthetic and inexpensive.
It is known in the art to incorporate a venetian blind structure into a double glazed window unit, the slats of the venetian blind being positioned between the two glass panels. The slats still allow an air layer to exist between the glass panels, and therefore the window unit does not lose its insulating properties, unless it is not properly sealed. One of the main advantages with this structure is that both slats and window form a single integral structure, and consequently simplifies the handling of the structure.
U.S. patent n°3,702,040 issued in 1972 to the applicant Fernand ROY (hereafter the '040 patent) shows a typical venetian blind structure for a double glazed sealed window unit. The window unit 1 comprises a peripheral frame 3, 4 spacing the glass panels 2 in a parallel relationship and a plurality of stud shafts 10, 11, axially aligned in pairs, that are engaged by and support the slats 9 in a parallel fashion. On one side of the window unit, inside the frame, the stud shafts have an enlarged diameter 19 and have outwardly protruding pins 20 that are inserted into complementary openings 21 inside an elongated vertical actuator bar 22. If actuator bar 22 is lifted or lowered, it will rotate pins 20 which will cause the reciprocating movement of stud shafts 10, 11 and slats 9. This will allow the user to position slats 9 as desired, i.e.
anywhere between a closed overlapping position wherein the venetian blind structure blocks most of the light and an opened spaced position wherein the venetian blind structure allows most of the light to pass through. An outer gear wheel 42 allows an operator to lift or lower the actuator bar, and thus to simultaneously pivot the slats at the desired angle.
There are three main problems related to such structures. The first problem is that the control mechanism, e.g. wheel 42 in the X040 patent, is positioned outside the window unit. It therefore requires space to be installed around the window, e.g. a hole fitted in the wall adjacent to the window for the casing of the wheel.
This is not desirable, since the conventional window openings cannot be used without modifications to accommodate such a window and venetian blind assembly, complicating the installation of the assembly significantly. The second problem is that, due to the moving parts that link the control mechanism with the actuating mechanism, it is difficult if not impossible to perfectly seal the window unit. The double glazed window unit therefore loses a fraction of its efficiency because of this leak in its insulation. The third problem is related to the fact that it is very complicated to reach the venetian blind structure once the window unit is sealed and installed. However, the problem only comes up if it is necessary to reach the venetian blind structure: some parts, such as moving parts, are prone to breaking, and in the known art, these moving parts are not installed very securely. Indeed, the driving shaft, linking the power means (the manually operated gear wheels 40 to 42 in the '040 patent) to the actuating means (the actuator bar 22 in the '040 patent), will be prone to loosen its engagement with the actuating means since it is supported at its two extremities by two moving parts, namely the power means and the actuator means. If there is to be a problem with the venetian blind structure, it becomes very expensive to repair them.
OBJECTS OF THE INVENTION
It is the main object of this invention to provide a venetian blind structure incorporated in a double glazed sealed window unit, wherein the control mechanism is located inside the frame of the window structure so as to provide an integral unit of standard shape.
SUMMARY OF THE INVENTION
The present invention relates to a venetian blind structure for use in a double glazed window unit, said window unit comprising:
a) two spaced-apart glass panels; and b) a window frame spacing said glass panels, comprising a number of peripheral elongated channel members and an equal number of corner members, the latter being adapted and correctly dimensioned to engage said peripheral WO 97/18377 PCTlCA96/00742 channel members in an anchoring fashion, each corner member linking two channel members, so as to close said window frame on all sides between said glass panels;
said window unit defining an inner chamber between said glass panels and inside said window frame, said venetian blind structure being positioned inside said inner chamber and comprising:
a) a plurality of parallel and pivotable slat members;
b) reversible power means having a driving shaft parallel to and near one of said window frame peripheral channel members;
c) actuating means linking said power means driving shaft to said slat members, causing a reversible pivoting movement of said slat members upon powering of said power means; and d) an alignment member for correctly and securely positioning said power means driving shaft relative to said actuating means, said alignment member being anchored to 2o said actuating means.
Preferably, said venetian blind structure further comprises an elongated support channel member being spacedly positioned in a generally parallel fashion near one of said window frame peripheral channel members, said power means resting on said support channel member and said alignment member being anchored thereto.
Alternately, the invention relates to the combination of a venetian blind structure and a double glazed window unit, said window unit comprising:
a) two spaced-apart glass panels; and b) a window frame spacing said glass panels, comprising a number of peripheral elongated channel members and an equal number of corner members, the latter being adapted and correctly dimensioned to engage said peripheral channel members in an anchoring fashion, each corner member linking two channel members, so as to close said window frame on all sides between said glass panels;
wherein said window unit defines an inner chamber between 5 said glass panels and inside said window frame, said venetian blind structure being positioned inside said inner chamber and comprising:
a) a plurality of parallel and pivotable slat members;
b) reversible power means having a driving shaft parallel to and near one of said window frame peripheral channel members;
c) actuating means linking said power means driving shaft to said slat members, causing a reversible pivoting movement of said slat members upon powering of said power means; and d) an alignment member for correctly and securely positioning said power means driving shaft relative to said actuating means, said alignment member being anchored to said support channel member.
Advantageously, the combination further comprises an elongated support channel member being spacedly positioned in a generally parallel fashion near one of said window frame peripheral channel members, said power means resting on said support channel member and said alignment member being anchored thereto.
Preferably, said support channel member defines a female end engageable by said alignment member.
Advantageously, said venetian blind structure comprises an alignment sleeve and said alignment member defines a first and a second leg and a bore through said second leg, said female end of said support channel member being engaged by said alignment member first leg, said WO 97/18377 PCT/CA96/00?42 second leg abutting against said actuating means, being fixedly anchored thereto and being fixedly engaged by said alignment sleeve through said bore, said power means driving shaft being axially inserted in said alignment sleeve to be supported and correctly aligned therein and to axially rotate freely therein.
Advantageously, each of said slats defines a pivoting axis, two extremities and at least one integral pivot shaft coaxial to its pivoting axis and positioned at IO one extremity of said slat, said actuating means comprising at least one rail member fixedly anchored to said window frame and a corresponding actuator bar movable in a linear displacement along said rail member, said actuator bar having a plurality of spaced transverse openings engaged by said slat member pivot shafts and comprising carrying means for imparting a simultaneous pivoting movement to said pivot shafts when said actuator bar moves in said linear displacement, said alignment member second leg abutting against said rail member without hindering the linear movement of said actuator bar, said driving shaft imparting with its rotation a linear displacement to said actuator bar.
Preferably, said alignment member is L-shaped, said first leg and said second leg thus being perpendicular to one another.
Advantageously, said venetian blind structure comprises a blocking collar axially and fixedly engaging said power means driving shaft and slidably abutting against said alignment sleeve for securing the latter against said alignment member second leg.
Preferably, said venetian blind structure comprises a blocking collar axially and fixedly engaging said power means driving shaft and slidably abutting against said alignment sleeve for securing the latter against said alignment member second leg.
Advantageously, said peripheral channel members and said support channel member have a similar and constant cross-section.
Alternately, the invention relates to a method of assembling a venetian blind structure inside a double glazed window unit, said window unit of the type comprising two glass panels, a number of peripheral elongated channel members and an equal number of corner members, said venetian blind structure comprising a plurality of slat members having pivot shafts, an elongated support channel member, a driving shaft, power means, actuating means, an al ignment member def fining a f first and a second leg and a bore through said second leg, and an alignment sleeve, said method comprising the following steps:
a) attaching said actuating means along at least one of said peripheral channel members;
b) pivotally engaging said actuating means with said slat member pivot shafts;
c) abutting said second leg of said alignment member against said actuating means and fixing it thereto;
d) engaging said driving shaft in said actuating means, through said bore of said alignment member second leg;
e) axially engaging said alignment sleeve around said driving shaft;
f) fixing said alignment sleeve in said alignment member second leg bore, thus axially positioning said driving shaft relative to said alignment member and said actuating means;
g) engaging said alignment member first leg in said support channel member and fixing it thereto;
h) connecting said power means to said driving shaft;
and i) fixing said power means to said support channel member.
Preferably, said venetian blind structure comprises a blocking collar, said method further comprising the following step between steps f) and g): engaging said blocking collar around said driving shaft, abutting it against said alignment sleeve and securely fixing it to said driving shaft.
DESCRIPTION OF THE DRAWINGS
In the annexed drawings:
Figure 1 is an elevation of a double glazed sealed window unit with a venetian blind structure according to the invention;
Figure 2 is an elevation, at an enlarged scale, of the area circumscribed in line 2 of figure 1;
Figure 3 is a cross-sectional view taken along line 3-3 of figure 2;
Figure 4 is a cross-sectional view taken along line 4-4 of figure 2;
Figure 5 is a cross-sectional view taken along line 5-5 of figure 2;
Figure 6 is a cross-sectional view of two slat members, showing their common pivoting relationship;
Figure 7 is an exploded view of the frame structure of the double glazed sealed window unit; and Figure 8 is a partial exploded perspective view, at an enlarged scale, of the actuator bar and idle wheels of the invention.
DETAILED DESCRIPTION OF THE EMBODIMENTS
Figure 1 shows a double glazed window unit l0 in which is incorporated a venetian blind structure 12.
Window unit 10 comprises two spaced-apart glass panels 14, 16 (figures 3 and 4) and a rectangular window frame 18 (figures 1 and 7). Figures 1 and 7 show that window frame 18 comprises four elongated peripheral channel members 20 (20a to 20d) linked in an alternate fashion by means of four L-shaped corner members 22 that slidingly engage the inner channels 24 of peripheral channel members 20. Corner members 22 each define a pair of legs 26 integrally attached to an abutment plate 28 being wider than legs 26. It is thus the male legs 26 that engage the female inner channels 24 of channel members 20, the latter abutting on abutment plate 28 to provide a continuous, closed window frame 18. Frame 18 spaces glass panels 14, 16 which are fixed onto it, as is known in the art, in a parallel fashion. An inner chamber is thus defined by the area marked by window frame 18 and glass panels 14, 16.
Figure 3 shows that the cross-section of each peripheral channel member has a pair of longitudinal outwardly-extending webs 30, each defining an upwardly-extending flange 32 and a downwardly-extending and inwardly-oriented lip 34. Upward flange 32 is longitudinally grooved on its inner surface 36, as is peripheral channel member 20 on both its outer narrow sides at 38, the grooved surfaces 36, 38 thus facing each other.
Figure 1 shows that venetian blind structure 12 is located inside the inner chamber of window unit 10 and comprises a plurality of known louver members or slat members 40 which are equally spaced and horizontally disposed. As shown in figure 6, slat members 40 can pivot from a first generally vertical position (shown in full lines) in which they slightly overlap one another so as to form a generally uniform vertical surface that may block almost completely the light streaming through the window, to a second generally horizontal position (shown in phantom lines) that will let the light pass almost completely WO 97/18377 PCTICA96100?42 through window unit 10. Each slat member 40 preferably defines small edgewise inter-connectable abutment members 42 at their top and bottom edges that can each hook themselves with the abutment member 42 of the upwardly and 5 downwardly adjacent slat members 40 for a better overlapping relation of slat members 40. Each slat member 40 defines a first and a second extremity and has at least one pivot shaft (not shown) at its first extremity coaxial with its pivoting axis; in the case of horizontal slat 10 members, such as is illustrated in figures 1 to 8, slat members 40 also has a second pivot shaft at its second extremity, axially aligned with the first pivot shaft.
Figure 3 shows that venetian blind structure 12 further comprises a channel member 44 that is similar, if not almost identical, to peripheral channel members 20.
Indeed, the cross-section of support channel member 44 defines a pair of longitudinal outwardly-extending webs 46, each having upwardly-extending flanges 48, grooved at their inner surfaces 50 to face the grooved outer narrow sides 52 of support channel member 44, and a downwardly-extending and inwardly-oriented lip 54. An inner channel 56 is located inside support channel member 44. The reason for these identical cross-sections is that both support channel member 44 and peripheral channel members 20 are made exactly the same way, but each are cut at a possibly different desired length. This allows to cut manufacturing costs significantly, since there does not have to be two different designs but only one, for two different parts of the window unit and venetian blind assembly.
Support channel member 44 spans the whole width of the inner chamber of window unit 10 and it is spacedly positioned in a parallel fashion near the upper peripheral channel member 20a of window frame 18. An elongated strip 57 , as shown in f figure 3 , has a snap f it with 1 ips 54 of WO 97!18377 PCT/CA96/00742 support channel member 44, a short, elongated, central downwardly extending flange 59 depending therefrom. The topmost slat member 4o will abut on and slightly overlap flange 59.
Figures 1 to 5 and 7, 8 show that venetian blind structure 12 finally comprises power means 58, actuating means 60 and alignment means 62.
Power means 58 is preferably a small reversible electrical motor 63, connected to an electrical source (not shown) by a feeder cable 64. Power means 58 can be activated by means of a remote control or a switch.
Power means 58 further includes a small output shaft 66 powered by electrical motor 63. Shaft 66 is inserted into the complementary coaxial bore 68 at the first end 70a of a driving shaft 7o and steadfastly fixed thereto with a pair of set screws 72, 72 so that shafts 66, 70 share the same rotation movement imparted by motor 63.
Driving shaft 70 defines a second end 70b opposite first end 70a.
Motor 63 is mounted on a support 74 that rests on support channel member 44 and is fixed thereto by means of bolts 76, steadfastly holding motor 63 over support channel member 44.
Actuating means 60 comprises a known system described in the '040 patent in the background of the invention. One rail member 78a, 78b (figure 7) is fixedly attached to each of the side peripheral channel members 20c, 20d. Indeed, rail members 78a, 78b define outward flanges 79 (figure 4) that are adapted to engage lips 34 in a snap fit relationship. Rail members 78a, 78b span the whole height of the inner chamber of window unit 10 and have a shoulder 80a, 80b (figure 7) for support channel member 44 to rest upon, the latter thus being supported at both its extremities.
Each rail member 78a, 78b, e.g. rail member 78a seen in figures 4 and 5, has a pair of rails 82 which define a plane surface 83 to be tangentially engaged by a plurality of idle wheels 84.
Actuating means 60 also comprises an actuator bar 88 positioned in one rail member, namely rail member 78a, movable between rails 82, being almost as long as rail member 78a and being positioned between peripheral channel member 20d and a cover plate 89 (figure 3). Actuator bar 88 has a plurality of spaced edgewise openings 90 on both of its edges (figure 8), openings 90 being correctly dimensioned and adapted to receive radial grooves 91 cut in idle wheels 84, the thickness of actuator bar 88 being equal or slightly smaller than the width of radial groove 91 so as to trap actuator bar 88 in grooves 91 of idle wheels 84.
In use, idle wheels 84 are positioned between rails 82 and actuator bar 88, which they engage in a rolling relationship, and can guide the movement of actuator bar 88 along rail member 78a in an upward or downward linear displacement.
Figures 5 and 8 show that actuator bar 88 has a plurality of equally spaced, transverse openings 92 in its intermediate portion. one such transverse opening 92 corresponds to each slat member 40. Carrying means link openings 92 to slat members 40, for imparting a pivoting movement to slat members 40 when actuator bar accomplishes a linear displacement. The carrying means can be, as shown in figure 5, an integral toothed rack 94 cut inside each opening 92 to be engaged by a complementary toothed wheel 96 integrally and coaxially fixed to said first pivot shaft of a corresponding slat member 40. Thus, when actuator bar 88 accomplishes a linear displacement, rack 94 imparts a rotation movement to wheel 96 and consequently pivots slat WO 97/18377 PCT/CA96/~0742 members 40. The length of opening 92 (and of rack 94) is correctly dimensioned to allow the slat members to pivot from their first vertical position to their second horizontal position. Slat members 40 are also sustained at their second extremity by their second pivot shaft, which pivotally engages a support member (not shown) in rail member 78b.
Actuator bar 88 further comprises a widthwise, transverse groove 98 (figure 5) at its upper end.
As shown in figures 3 and 4, alignment means 62 comprises an alignment member 100, an alignment sleeve 102 and a blocking collar 104.
Alignment member 100 is a generally flat, L
shaped plate having a first and a second leg 106 and 108 (figure 7). Male first leg 106 is correctly dimensioned to engage channel 56 at the female end 110 of support channel member 44 and be secured thereto by means of bolts 76 that hold motor support 74 by passing through the upper surface of channel member 44 and first leg 106. Second leg 108 is fixedly anchored to rail member 78a (e. g. with bolts 111) and is bored and threaded in its bore to be threadingly engaged by alignment sleeve 102. Driving shaft 70 axially engages, near its second end 70b, alignment sleeve 102 and can freely rotate therein, though little or no radial displacement is possible. Driving shaft 70 defines a radial flange 112 at its second end lob which abuts against a corresponding shoulder 114 on alignment sleeve 102 (figure 4). Blocking collar 104 axially abuts against alignment sleeve 102 and is secured thereon by means of a set screw 116, for preventing alignment sleeve 102 from unscrewing itself from alignment member 100.
The end of driving shaft 70 opposite motor 63 is flat and has a small eccentric rotatable stud 118 protruding therefrom. Stud 118 engages groove 98 of WO 97/183?7 PCTICA96100742 actuator bar 88.
Driving shaft 70 will thus be supported securely by alignment means 62 since the latter does not move and offers a steady support. Alignment member 100 and alignment sleeve 102 prevent any radial displacement of driving shaft 70, while the abutment of collar 104 on alignment sleeve 102 and the abutment of radial flange 112 on shoulder 114 will prevent any axial displacement of driving shaft 70. Therefore, driving shaft 70 will not be allowed to move in any direction, except for an axial rotation. Since actuator bar 88 is also prevented from any undesired movement by being guided in rail member 78a, the moving parts of venetian blind structure 12 will likely not diverge from the field of positions they were intended to take.
It is an important advantage of this invention that alignment means 62 prevent driving shaft 70 from radially moving. It is very important that shaft 70 always stay aligned, for once window unit 10 is sealed and embedded into a wall, then repairing a faulty venetian blind structure can become a very tedious and expensive job. Therefore, to align properly the different moving parts is very important, since these are the parts that are more prone to breaking. This is why driving shaft 70 is aligned through the instrumentality of alignment means 62 which are relatively resistant and precise.
Of course, the fit between alignment sleeve 102 and driving shaft 70 will probably not be perfect, i.e.
there will be a small radial play between the two, but since shaft 70 is not destined to have a high rotation speed nor to be submitted to torques of important values, this play will not significantly hamper the movement of shaft 70.
In use, when motor 63 is powered, driving shaft 70 rotates through the instrumentality of output shaft 66 and stud 118 rotates around the rotation axis of driving shaft 70. Stud 118 can freely roll or slide sideways in groove 98 while its upward or downward movement will impart 5 a same displacement to actuator bar 88. Thus, when driving shaft 70 rotates, actuator bar 88 moves upwards or downwards and consequently pivots slat members 40.
Since there are no moving parts other than those inside the inner chamber of window unit 10, the window can 10 be completely sealed. A proper sealing material 120 (figures 3 to 5) is used all around window unit 10, as is known in the art, being installed over the peripheral channel members 20. It is embedded between the teeth 36 and 38 of upward flange 32 and the narrow side of 15 peripheral channel members 20, so that, once it is dry, it will be held in place by said teeth, sealing window unit 10 in an air-tight fashion.
To assemble venetian blind structure 12 inside window unit 10, a precise order must be followed step by step. The assembling of the venetian blind structure must be done while the window unit is not yet assembled itself.
The method generally comprises the following steps:
a) attaching the actuating means along at least one peripheral channel member;
b) pivotally engaging the actuating means with slat member pivot shafts;
c) abutting the second leg of the alignment member against the actuating means and fixing it thereto;
d) engaging the driving shaft in the actuating means, through the bore of the alignment member second leg;
e) axially engaging the alignment sleeve around the driving shaft;
f) fixing the alignment sleeve in the alignment member second leg bore, thus axially positioning the driving shaft relative to the alignment member and the actuating means;
g) engaging the alignment member first leg in the support channel member and fixing it thereto;
h) connecting the power means to the driving shaft;
and l) fixing the power means to the support channel member.
Preferably, the following step is inserted l0 between steps f) and g): engaging said blocking collar around said driving shaft, abutting it against said alignment sleeve and securely fixing it to said driving shaft.
It is understood that, although a conventional rectangular window unit has been disclosed in the present invention, any other shape may be suitable. For example, an hexagonal window unit could be used, the window frame then comprising six peripheral channel members and a like number of corner members, which will not be L-shaped but will form an obtuse angle. There would have to be two actuator bars linked to one another, one carrying the other under the movement of the driving shaft, and the radius of the toothed wheel or the pitch of the toothed wheel and rack would have to be modified on the carried actuator bar to compensate the displacement difference resulting from the angle between the two actuator bars.
Also, it would be possible to provide non parallel window panels, by providing the desired angle to the sides of the channel members where the panels are fixed.
Moreover, within the scope of the invention, vertical slat members could be provided, only a single support shaft at their upper end then being necessary since the slat members would keep their vertical position by means of their own weight bearing them down. The actuator bar would of course be horizontal, at the top of the inner chamber of window unit 10.
It is also understood that the actuating means could be of another type than that of the character described. For example, it could be a long actuator rod instead of the actuator bar, and small metal rods eccentrically linked to the actuator rod instead of the rack and gear assembly.

Claims (9)

I CLAIM:
1. In combination, a venetian blind structure (12) and a multiple glazed window unit (10), said window unit comprising:
a) two spaced-apart glass panels (14, 16); and b) a window frame (18) spacing said glass panels, comprising a number of peripheral elongated members (20a, 20b, 20c, 20d) linked two by two at the corners of said window frame (18), said window unit (10) defining an inner chamber between said glass panels and inside said window frame, with said venetian blind structure positioned within said inner chamber and comprising:
a) a plurality of parallel and pivotable slat members (40);
b) reversible power means (58) having a driving shaft (70) parallel to and near one of said window frame peripheral channel members (20a, 20b, 20c, 20d); and c) actuating means (60) linking said power means driving shaft to said slat members, causing a reversible pivoting movement of said slat members upon powering of said power means;
characterized in that said venetian blind structure further comprises:
d) a rigid, unitary alignment member (100) for operatively positioning said power means driving shaft correctly and securely relative to said actuating means, said alignment member being generally L-shaped and defining a first and a second leg (106, 108) integrally attached to one another, with said second leg (108) flatly resting against and being anchored to said window frame and being located adjacent said actuating means, and with said first leg being located adjacent said power means.
2. The combination as defined in claim 1, wherein said window frame (18) further includes an elongated support channel member (44) being spacedly positioned in a generally parallel fashion near one of said window frame peripheral channel members (20a, 20b, 20c, 20d), said power means (58) resting on said support channel member (44) and said alignment member first leg (106) being anchored thereto.
3. The combination as defined in claim 2, wherein said support channel member (44) defines a female end (110) engageable by said alignment member first leg (106).
4. The combination as defined in claim 3, wherein said venetian blind structure (12) comprises an alignment sleeve (102) and said alignment member (100) defines a bore through said second leg, said female end (110) of said support channel member (44) being engaged by said alignment member first leg (106), said second leg (108) abutting against said actuating means (60), being fixedly anchored thereto and being fixedly engaged by said alignment sleeve (102) through said bore, said power means driving shaft (70) being axially inserted in said alignment sleeve (102) to be supported and correctly aligned therein and to axially rotate freely therein.
5. The combination as defined in claim 4, wherein each of said slats (40) defines a pivoting axis, two extremities and at least one integral pivot shaft coaxial to its pivoting axis and positioned at one extremity of said slat, said actuating means (60) comprising at least one rail member (78a) fixedly anchored to said window frame (18) and a corresponding actuator bar (88) movable in a linear displacement along said rail member (78a), said actuator bar having a plurality of spaced transverse openings (92) engaged by said slat member pivot shafts and comprising carrying means (96) for imparting a simultaneous pivoting movement to said pivot shafts when said actuator bar moves in said linear displacement, said alignment member second leg (108) abutting against said rail member (78a) without hindering the linear movement of said actuator bar (88), said driving shaft (70) imparting with its rotation a linear displacement to said actuator bar.
6. The combination as defined in claim 5, wherein said venetian blind structure (12) comprises a blocking collar (104) axially and fixedly engaging said power means driving shaft (70) and slidably abutting against said alignment sleeve (102) for securing the latter against said alignment member second leg (108).
7. The combination as defined in claim 2, wherein said peripheral members (20a, 20b, 20c, 20d) and said support channel member (44) have a similar and constant cross-section.
8. A method of assembling a venetian blind structure (12) inside a double glazed window unit (10), said window unit of the type comprising two glass panels (14, 16), a number of peripheral elongated channel members (20a, 20b, 20c, 20d) and an equal number of corner members (22), said venetian blind structure comprising a plurality of slat members (40) having pivot shafts, an elongated support channel member (44), a driving shaft (70), power means (58), actuating means (60), an alignment member (100) defining a first and a second leg (106 and 108) and a bore through said second leg (108), and an alignment sleeve (102), said method comprising the following steps:
a) attaching said actuating means (60) along at least one of said peripheral channel members (20d);
b) pivotally engaging said actuating means (60) with said slat member pivot shafts;

c) abutting said second leg (108) of said alignment member against said actuating means (60) and fixing it thereto;
d) engaging said driving shaft (70) in said actuating means (60), through said bore of said alignment member second leg (108);
e) axially engaging said alignment sleeve (102) around said driving shaft (70);
f) fixing said alignment sleeve (102) in said alignment member second leg bore, thus axially positioning said driving shaft (70) relative to said alignment member (100) and said actuating means (60);
g) engaging said alignment member first leg (106) in said support channel member (44) and fixing it thereto;
h) connecting said power means (58) to said driving shaft (70); and i) fixing said power means (58) to said support channel member (44).
9. A method as defined in claim 8, wherein said venetian blind structure (12) comprises a blocking collar (104), said method further comprising the following steps being sequentially added between steps f) and g):
fa) engaging said blocking collar (104) around said driving shaft (70);
fb) abutting said collar (104) against said alignment sleeve (102); and fc) securely fixing said collar (104) to said driving shaft (70).
CA002267268A 1996-11-12 1996-11-12 Venetian blind structure, double glazed window unit and method of assembling the venetian blind structure Expired - Lifetime CA2267268C (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/CA1996/000742 WO1997018377A1 (en) 1995-11-13 1996-11-12 Venetian blind structure, double glazed window unit and method of assembling the venetian blind structure

Publications (2)

Publication Number Publication Date
CA2267268A1 CA2267268A1 (en) 1997-05-22
CA2267268C true CA2267268C (en) 2004-06-29

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Family Applications (1)

Application Number Title Priority Date Filing Date
CA002267268A Expired - Lifetime CA2267268C (en) 1996-11-12 1996-11-12 Venetian blind structure, double glazed window unit and method of assembling the venetian blind structure

Country Status (3)

Country Link
JP (1) JP2001504904A (en)
CA (1) CA2267268C (en)
DE (1) DE69623351T2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101663455B (en) * 2007-03-15 2012-09-05 布鲁诺·洛莫尼耶 Blind integrated in double glazing

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101663455B (en) * 2007-03-15 2012-09-05 布鲁诺·洛莫尼耶 Blind integrated in double glazing

Also Published As

Publication number Publication date
DE69623351T2 (en) 2003-05-15
DE69623351D1 (en) 2002-10-02
CA2267268A1 (en) 1997-05-22
JP2001504904A (en) 2001-04-10

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