CA2549110C - Pull down, push up, shade assembly - Google Patents
Pull down, push up, shade assembly Download PDFInfo
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- CA2549110C CA2549110C CA2549110A CA2549110A CA2549110C CA 2549110 C CA2549110 C CA 2549110C CA 2549110 A CA2549110 A CA 2549110A CA 2549110 A CA2549110 A CA 2549110A CA 2549110 C CA2549110 C CA 2549110C
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- 238000004804 winding Methods 0.000 claims abstract description 16
- 230000009977 dual effect Effects 0.000 claims abstract description 14
- 239000000725 suspension Substances 0.000 claims abstract description 12
- 230000001681 protective effect Effects 0.000 claims description 2
- 230000000717 retained effect Effects 0.000 claims description 2
- 208000027418 Wounds and injury Diseases 0.000 description 3
- 230000004048 modification Effects 0.000 description 3
- 238000012986 modification Methods 0.000 description 3
- 125000006850 spacer group Chemical group 0.000 description 3
- 230000007423 decrease Effects 0.000 description 2
- 206010003497 Asphyxia Diseases 0.000 description 1
- 230000002708 enhancing effect Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
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- Operating, Guiding And Securing Of Roll- Type Closing Members (AREA)
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Abstract
A collapsible window covering capable of height adjustment, comprising, in combination, an upper elongated support, a lower elongated member that is adjustable up and down, and control lines extending downwardly to suspend said lower elongated member. A primary rotor structure at the upper elongated support entrains the lines. Dual rotary members act on the lines to exert a counterbalancing suspension force on the lines at different window covering height adjusted levels. One dual rotary member exerts tensioning force on the lines and there is an S-shaped spring coupled to the dual rotary member acting to urge the one rotary members in a direction for winding the lines on the one rotary member. The upper elongated support includes a straight channel with a receptacle in the channel in which the dual rotary members and the spring are protectively carried. The channel orients the receptacle so that the lines in the channel remain substantially aligned with the one rotary member in the receptacle.
Description
PULL DOWN, PUSH UP, SHADE ASSEMBLY
This application is divided from Canadian Patent Application Serial Number 2,504,047 filed July 21, 2004.
BACKGROUND OF THE INVENTION
This invention relates generally to window shade control, and more particularly to simplification in raising and lowering pleated window shades without requiring manipulation of a cord or cords hanging downwardly from an upper support or rail member.
The use of hanging cords requiring manual manipulation has been thought to be required for the raising and lowering of window shades, and particularly pleated shades. Such cords are frequently difficult to operate correctly, and their use can result in inaccurate or unwanted shade movement, as well as risk of entanglement with small children, and possible strangulation. There is need for a cordless and pleated window shade assembly which can be easily operated as by simply exerting up or down light force on the lower hanging portion of the assembly.
There is also need for a pleated window shade assembly that is easily operated, and can be automatically kept level, upon adjustment at one location.
SUMMARY OF THE INVENTION
The present invention provides apparatus meeting the above needs.
Basically, the apparatus is embodied in a pleated shade assembly capable of height adjustment without use of pull cords.
Accordingly, the present invention provides a collapsible window covering capable of height adjustment, comprising, in combination: a) an upper elongated support, b) a lower elongated member that is adjustable up and down, c) control line means extending downwardly to suspend said lower elongated member, d) primary rotor structure at said upper elongated support to entrain said line means, e) and other means acting on said line means for counterbalancing suspension force exerted on said line means at different window covering height adjusted levels, f) said other means including dual rotary members one of which exerts tensioning force on said line means, g) said other means including an S-shaped spring coupled to said dual rotary members acting to urge said one of said rotary members in a direction for winding said line means on said one rotary member, h) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary members and spring are protectively carned, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
The present invention also provides a collapsible shade or blind assembly capable of height adjustment without use of pull cords, comprising, in combination: a) an upper elongated support, b) a lower elongated member that is manually adjustable up and 1 S down, control line means extending downwardly to suspend said lower elongated member, c) primary rotor structure to entrain said line means, d) including a rotary member entraining and exerting tensioning force on said line means and a spring operatively connected to said rotary member to variably coil thereabout as shade or blind height changes, and acting to urge said rotary member in a direction for winding said line means on said rotary member, whereby said rotary member exerts counterbalancing suspension force exerted on said line means at different shade or blind height adjusted levels, e) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary member and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
The present invention also provides a collapsible window covering capable of height adjustment, in combination: a) an upper longitudinally elongated support, b) a lower elongated member that is adjustable up and down, c) primary lines extending downwardly to suspend said lower elongated member, d) primary rotors at said upper elongated support to entrain said primary lines, e) secondary line means, there being an operative connection between said primary lines, and said secondary line means, f) and force exerting means acting on said secondary line means for counterbalancing 2a suspension force exerted on said primary lines at different window covering height adjusted levels, g) said force exerting means including rotary members one of which exerts tensioning force on said secondary line means, said primary lines and said operative connection remaining everywhere spaced from said rotary members, at all S times, h) and force exerting means including spring means windingly coupled to said rotary members acting to urge said one of said rotary members in a direction for winding said secondary line means on said one rotary member, said secondary line means being the only tensioning force exerting line means wound on said one rotary member, i) said upper longitudinally elongated support including a straight channel, there being a longitudinally elongated receptacle retained in the channel and in which said rotary members and spring means are earned and confined, and wherein the channel orients said elongated receptacle so that the secondary line means and said connection remain substantially directly longitudinally aligned in the channel with said one rotary member confined in the receptacle, and so as to define a protective longitudinal travel path for said connection in the channel toward the one rotary member, j) said rotary members being longitudinally spaced apart and having parallel axes of rotation, and having laterally axial overall dimensions confined within the receptacle in the channel, k) said spring means rotatably coupled to said rotary members whereby all of said rotary members rotate during winding of the secondary line means on said one rotary member.
The spring means, as referred to, optionally has an S-shaped configuration, whereby the spring winds in a clockwise direction about one of said members, and in a counterclockwise direction about the other of said members.
As will be seen, at least one member has coaxial first and second surface portions, the spring winding about the first portion, and the secondary line winding about the second portion.
Typically, each of the members has coaxial first and second surface portions, the spring winding about the first portion and the secondary line or lines winding about the second portion. The spring acts as a shade balancing spring, to hold the shade in any selected vertical position.
A housing is also provided, and posts in the housing supporting the members for free rotation about axes defined by the posts. Annular caps may be associated with the posts and members, for axially positioning the members in the housing. The latter is typically defined by a portion of said upper elongated support 2b which is a shade head rail.
Means are provided acting on the above defined secondary line or lines for counterbalancing suspension force exerted on said primary lines at different shade height adjusted levels, said means including a dual rotary member entraining said S secondary line, and a spring operatively connected to said dual rotary members. As referred to, that spring may advantageously have S-shaped, flat surface configuration.
Also provided is a rotary member exerting tensioning force on the secondary line or lines; a rotary member exerting tensioning force on that secondary line or lines; and a number of such secondary line or lines less than the number of said primary lines, whereby, the rotary member of small dimension is able to controllably store a maximum number of windings, within the confines of a reduced dimension upper support member, such as a channel configured rail.
A path of travel for the defined line connection or interconnection is provided which extends lengthwise of the upper support, and which does not pass over any rotors, and whereby possible derailment of that connection by a rotor is prevented.
In this respect, the primary rotors preferably include a first rotor having spacing from said counterbalancing means which exceeds said path of travel, for shade height adjustment between uppermost and lowermost portions.
Further, the primary rotors may typically include at least one second rotor over which said primary lines are entrained, and the primary rotors including a third rotor in the form of a pulley over which one of the primary lines is entrained, and a fourth rotor in the form of a pulley over which another of the primary lines is entrained.
Containment is provided by the upper support of all of the primary rotors and s the tensioning means; and primary lines are provided that have first terminals operatively connected to said lower elongated member, below said upper support; and wherein the primary lines have second terminals operatively connected to said connection, within said upper support.
Also provided is a tensioning means that includes a device for locking said secondary line in a selected position or positions corresponding to selected shade height adjustment. In this regard, the secondary line may have an extension that hangs below the level of said device, for manual grasping and control of locking by said device.
An additional feature is provision of a fastener or fasteners to attach the upper elongated support to structure above the levels of said rotors and secondary line, said fastener t 5 or fasteners being one of the following:
i) a spacer portion to positively locate the elongated support spaced below said structure, ii) a hinged portion to positively locate the elongated support below upright wall to which the hinged portion is attachable.
2o These and other features and advantages of preferred embodiments of the invention, as well as the details of an illustrative embodiment, will be more fully understood from the following specification and drawings, in which:
DRAWING DESCRIPTION
Fig. 1 is an elevational view of an improved shade assembly incorporating the invention;
Fig. 2 is an end view of the shade assembly;
Fig. 3 is a view like Fig. l, showing the assembly of the invention, no external 3o pull cords being visible;
Fig. 4 is a view showing components of a line tensioner means;
Fig. 5 is an elevation showing a window frame, with the device of the invention located at the window;
This application is divided from Canadian Patent Application Serial Number 2,504,047 filed July 21, 2004.
BACKGROUND OF THE INVENTION
This invention relates generally to window shade control, and more particularly to simplification in raising and lowering pleated window shades without requiring manipulation of a cord or cords hanging downwardly from an upper support or rail member.
The use of hanging cords requiring manual manipulation has been thought to be required for the raising and lowering of window shades, and particularly pleated shades. Such cords are frequently difficult to operate correctly, and their use can result in inaccurate or unwanted shade movement, as well as risk of entanglement with small children, and possible strangulation. There is need for a cordless and pleated window shade assembly which can be easily operated as by simply exerting up or down light force on the lower hanging portion of the assembly.
There is also need for a pleated window shade assembly that is easily operated, and can be automatically kept level, upon adjustment at one location.
SUMMARY OF THE INVENTION
The present invention provides apparatus meeting the above needs.
Basically, the apparatus is embodied in a pleated shade assembly capable of height adjustment without use of pull cords.
Accordingly, the present invention provides a collapsible window covering capable of height adjustment, comprising, in combination: a) an upper elongated support, b) a lower elongated member that is adjustable up and down, c) control line means extending downwardly to suspend said lower elongated member, d) primary rotor structure at said upper elongated support to entrain said line means, e) and other means acting on said line means for counterbalancing suspension force exerted on said line means at different window covering height adjusted levels, f) said other means including dual rotary members one of which exerts tensioning force on said line means, g) said other means including an S-shaped spring coupled to said dual rotary members acting to urge said one of said rotary members in a direction for winding said line means on said one rotary member, h) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary members and spring are protectively carned, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
The present invention also provides a collapsible shade or blind assembly capable of height adjustment without use of pull cords, comprising, in combination: a) an upper elongated support, b) a lower elongated member that is manually adjustable up and 1 S down, control line means extending downwardly to suspend said lower elongated member, c) primary rotor structure to entrain said line means, d) including a rotary member entraining and exerting tensioning force on said line means and a spring operatively connected to said rotary member to variably coil thereabout as shade or blind height changes, and acting to urge said rotary member in a direction for winding said line means on said rotary member, whereby said rotary member exerts counterbalancing suspension force exerted on said line means at different shade or blind height adjusted levels, e) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary member and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
The present invention also provides a collapsible window covering capable of height adjustment, in combination: a) an upper longitudinally elongated support, b) a lower elongated member that is adjustable up and down, c) primary lines extending downwardly to suspend said lower elongated member, d) primary rotors at said upper elongated support to entrain said primary lines, e) secondary line means, there being an operative connection between said primary lines, and said secondary line means, f) and force exerting means acting on said secondary line means for counterbalancing 2a suspension force exerted on said primary lines at different window covering height adjusted levels, g) said force exerting means including rotary members one of which exerts tensioning force on said secondary line means, said primary lines and said operative connection remaining everywhere spaced from said rotary members, at all S times, h) and force exerting means including spring means windingly coupled to said rotary members acting to urge said one of said rotary members in a direction for winding said secondary line means on said one rotary member, said secondary line means being the only tensioning force exerting line means wound on said one rotary member, i) said upper longitudinally elongated support including a straight channel, there being a longitudinally elongated receptacle retained in the channel and in which said rotary members and spring means are earned and confined, and wherein the channel orients said elongated receptacle so that the secondary line means and said connection remain substantially directly longitudinally aligned in the channel with said one rotary member confined in the receptacle, and so as to define a protective longitudinal travel path for said connection in the channel toward the one rotary member, j) said rotary members being longitudinally spaced apart and having parallel axes of rotation, and having laterally axial overall dimensions confined within the receptacle in the channel, k) said spring means rotatably coupled to said rotary members whereby all of said rotary members rotate during winding of the secondary line means on said one rotary member.
The spring means, as referred to, optionally has an S-shaped configuration, whereby the spring winds in a clockwise direction about one of said members, and in a counterclockwise direction about the other of said members.
As will be seen, at least one member has coaxial first and second surface portions, the spring winding about the first portion, and the secondary line winding about the second portion.
Typically, each of the members has coaxial first and second surface portions, the spring winding about the first portion and the secondary line or lines winding about the second portion. The spring acts as a shade balancing spring, to hold the shade in any selected vertical position.
A housing is also provided, and posts in the housing supporting the members for free rotation about axes defined by the posts. Annular caps may be associated with the posts and members, for axially positioning the members in the housing. The latter is typically defined by a portion of said upper elongated support 2b which is a shade head rail.
Means are provided acting on the above defined secondary line or lines for counterbalancing suspension force exerted on said primary lines at different shade height adjusted levels, said means including a dual rotary member entraining said S secondary line, and a spring operatively connected to said dual rotary members. As referred to, that spring may advantageously have S-shaped, flat surface configuration.
Also provided is a rotary member exerting tensioning force on the secondary line or lines; a rotary member exerting tensioning force on that secondary line or lines; and a number of such secondary line or lines less than the number of said primary lines, whereby, the rotary member of small dimension is able to controllably store a maximum number of windings, within the confines of a reduced dimension upper support member, such as a channel configured rail.
A path of travel for the defined line connection or interconnection is provided which extends lengthwise of the upper support, and which does not pass over any rotors, and whereby possible derailment of that connection by a rotor is prevented.
In this respect, the primary rotors preferably include a first rotor having spacing from said counterbalancing means which exceeds said path of travel, for shade height adjustment between uppermost and lowermost portions.
Further, the primary rotors may typically include at least one second rotor over which said primary lines are entrained, and the primary rotors including a third rotor in the form of a pulley over which one of the primary lines is entrained, and a fourth rotor in the form of a pulley over which another of the primary lines is entrained.
Containment is provided by the upper support of all of the primary rotors and s the tensioning means; and primary lines are provided that have first terminals operatively connected to said lower elongated member, below said upper support; and wherein the primary lines have second terminals operatively connected to said connection, within said upper support.
Also provided is a tensioning means that includes a device for locking said secondary line in a selected position or positions corresponding to selected shade height adjustment. In this regard, the secondary line may have an extension that hangs below the level of said device, for manual grasping and control of locking by said device.
An additional feature is provision of a fastener or fasteners to attach the upper elongated support to structure above the levels of said rotors and secondary line, said fastener t 5 or fasteners being one of the following:
i) a spacer portion to positively locate the elongated support spaced below said structure, ii) a hinged portion to positively locate the elongated support below upright wall to which the hinged portion is attachable.
2o These and other features and advantages of preferred embodiments of the invention, as well as the details of an illustrative embodiment, will be more fully understood from the following specification and drawings, in which:
DRAWING DESCRIPTION
Fig. 1 is an elevational view of an improved shade assembly incorporating the invention;
Fig. 2 is an end view of the shade assembly;
Fig. 3 is a view like Fig. l, showing the assembly of the invention, no external 3o pull cords being visible;
Fig. 4 is a view showing components of a line tensioner means;
Fig. 5 is an elevation showing a window frame, with the device of the invention located at the window;
Fig. 6 is a schematic perspective view of a modification;
Fig. 7 is an enlarged end view upper extent of the Fig. 6 modification;
Fig. 8 is an end view of a modified attachment of the upper elongated member of the apparatus, to a wall;
Fig. 9 is an exploded view of a modified cord collector apparatus; and Fig. 10 is an exploded view of a portion of Fig. 9, showing spring attachment to rotary members.
DETAILED DESCRIPTION
In Figs. 1 and 2, a pleated shade assembly 10 is capable of height adjustment without use of external pull cords. It includes an upper elongated support 11 which may be in the form of a metallic channel or rail 12 which may be otherwise hollow.
The assembly also includes a lower elongated slat member 13 that is to be simply manually adjusted up or i5 down, as indicated by arrows 14 and 15. Shade pleats 16 are located between and connected to 12 and 13, as shown. The pleats are foldable, and expand or separate as member I3 is urged downwardly, to selectively adjusted height position, for example controllably covering a window. See for example Fig. 2. The pleats collapse toward one another as the member 13 is elevated toward 12, to another adjusted position or positions. Pleats expand as at 60, 2o from stacked positions as at 61. See also Fig. 2.
Primary lines or cords are provided to extend generally vertically through the pleats, as seen in Fig. 2, to suspend the lower member 13. See for example two lines 20 and 21, connected at their lower ends or terminals 20_a-and 21g to member 13, at laterally spaced positions. Two such lines are shown, but three may be provided, as for a larger width shade.
2s Primary rotors are provided, at the upper support or rail 11, to entrain the primary lines, and guide them toward a common connection 22 with at least one secondary line 24 which moves endwise relative to 12 as connection 22 is moved endwise. The number of secondary lines is less than the number of primary lines, for reasons as will appear. Typically, there is only one secondary line 24, and two or more primary lines, such as lines 20 and 21.
3o In that event, connection 22 connects the terminals of lines 20 and 21 with the terminal of line 24, whereby movement of that connection 22 and line 24 in one direction tends to equally raise primary line terminals 20g and 21a_; and movement of connection 22 and line 24 in the opposite direction tends to equally lower primary line terminals 20g and 21g, the lower member thereby being maintained in horizontal condition as it is raised and lowered.
Means is provided for acting on the secondary line or lines 24 for exerting force counterbalancing the suspension force exerted on the primary lines, by the weight of the lower member 13, and pleats, as at different shade height adjusted levels. Such counterbalancing s force enables stable suspension of the lower member 13 at any vertical position to which it is raised or lowered. Such means is generally indicated at 30 in Figs. 1 and 4 and may take different forms, but preferably enabling its reception as shown within the confining channel shaped support 11, as near one end thereof. Means 30 may include a housing 30g, and a tension exerting torsion spring element 32 within 30g. The line 24 is typically wound onto or tn off a spool or drum 33 within 30g, and spring force is exerted on the spool in a line winding direction, to provide the counterbalancing force or tension referred to. That force is maintained as the shade is raised or lowered to stable adjusted position, and static friction may be provided in the means 30 acting to hold the lower member at selected height adjustment.
Such friction may be supplied by drum 32 rubbing against the housing. Since only one line 24 t5 is typically spooled at 33, the size of the spool may be minimized to fit within channel 12. A
guide pulley 50 directs travel of line 24 to and from the winding area of the spool. Pulley 50 is axially slidable along axle SOa_, perpendicular to line 24, to follow or guide the line 24 as it is wound on and off drum 33.
In the primary rotor system illustrated a first rotor 40 may have spacing from 2o the tensioning means 30 such that the lengthwise path of travel indicated by dimension 90 of connection 22 does not pass over any primary rotor, or pulleys, such as first rotor 40, thereby eliminating risk of entanglement or "hang-up" of connection 22 with rotor structures. In this regard, first rotor 40 is shown as having spacing from said means 30 which exceeds said path of travel, for shade height adjustment between uppermost and lowermost positions.
2s As shown, the primary rotors include at least one second rotor over which said primary lines are entrained, and the primary rotors include a third rotor in the form of a pulley over which one of said primary lines is entrained, and a fourth rotor in the form of a pulley over which another of said primary lines (line 21) is entrained.
See for example the following:
30 - second rotor 46, (for example near 50) - third rotor 47 - fourth rotor 48.
All of such rotors are contained within the channel shaped support 1 I. Lines 20 and 21 project downwardly through lower extent of support 11. Rotor 46 is between 50 and 47, so that both lines 20 and 21 may be redirected by like idler rotors 47 and 48, for like vertical control of lines 20 and 21, enhancing maintenance of slat 13 in horizontal condition.
In Fig. 5, the assembly or apparatus 10 is installed at a window 112 bordered by a frame 111. The latter has horizontal and vertical frame members 113-116, as shown.
Support 11 is attached to upper horizontal frame member 113.
Referring now to the modification seen in Fig. 6, elements corresponding to elements of Fig. 1 are given corresponding identification numerals. In Fig. 6, rotors 40 and 46 are located at the same general position along 11; and this is enabled by providing an idler io rotor 42 carried by 11, and over which primary lines 20 and 21 extend or are entrained, as shown. Idler rollers or rotors 47 and 48 are located along the length of 11, and between 42 and 46.
Secondary line 24 extends to the means 133 acting on 24 for counter-balancing suspension force exerted on the primary lines 20 and 21, as at different shade height ~s adjustment levels. In this instance, the means 133 is a device for locking the secondary line 24 in a selected position or positions corresponding to selected shade height adjustment. In this example, line 24 has an extension 24g that hangs below the level of said device, for manual grasping and control of locking by said device. The user can control the locking or unlocking status of means 133 by varying the angularity of pull on single line 24a_, and thereby 2o control the positions of two lines 20 and 21 that control shade height and bottom level.
In accordance with an additional feature or features of the invention, a fastener or fasteners is or are provided to attach the upper elongated support to structure above the levels of said rotors and secondary line, said fastener or fasteners being one of the following:
i) a spacer portion to positively locate the elongated support spaced 25 below said structure, ii) a hinged portion to positively locate the elongated support below upright wall to which the hinged portion is attachable.
Figs. 6 and 7 show two such fasteners 160 having middle spacer portion 161 to positively locate elongated support lower wall I lg at a predetermined fixed distance below 3o the window frame upper member I 13. For this purpose, a lower flange 162 on 160 engages lower wall l lg, and an upper flange 163 on 160 engages the underside 1138 of member 113.
A retainer screw 164 extends through 160 and connects to 113.
In Fig. 8, the illustrated hinged portion 170 has a first component 171 to attach to the upper wall llb_ of the elongated support; and a second component 172 to swing upwardly and attach by fastener or fasteners 173 to upright wall 174 on or near the window frame.
Components 171 and 172 are hingedly connected together at 175 to form an L-shaped positive support when 172 is swung upwardly to position 1728.
In Figs. 9 and 10, a modified means is shown acting on the secondary line or lines 24 for counterbalancing suspension force exerted on the primary lines 20 and 21, at different shade height adjustment levels. The modified means, as shown, includes dual rotary members 80 and 81 exerting tensioning force on the secondary line 24, that line 24 being entrained or wound about the dual entry members, for line storage, as the shade is raised or lowered.
The referenced counterbalancing means includes a spring coupled to said dual rotary members and exerting force tending to entrain said secondary line or lines about said dual rotary members, for storage on at least one of the members. See for example the spring is 83 which has S-shaped configuration, so as to wind or coil at 83~ in a clockwise direction about a first portion 80g of member 80, and so as to wind or coil at 83~ in a counterclockwise direction about a first portion 81a_ of rotary member 81. The secondary line 24 winds at 24g about a second portion 80~ of the member 80, and at 24~ about a second portion 81~ of member 81, as shown. Portions 80g and 80~ are coaxial, and portions 81g and 81~ are 2o coaxial, as shown.
Note in Fig. 10 the attachment of spring end 83~ to member 80, as for example by means of a fastener or set screw 84; and the attachment of spring end 83~
to member 81, as by means of fastener or set screw 85. The spring ends may be attached to the two members as by other means, such as bonding, or by spring end turning into grooves in the members.
25 Fig. 9 also shows a housing 86 that includes a receptacle 86g and a cover 86~.
Posts 87a and 87b_ attached to the plate 86_b extend in parallel relation through bores 80g and 81g in the rotary members, to mount those members for rotation. Caps 87-90 position the members 80 and 81 and the spring, for endwise back and forth operation of line 24, through opening 91 in the receptacle, with spring tension balancing the weight of the hanging shade, 3o at any selected height position, whereby the shade remains in selected height position.
Receptacle 86g is typically a part of the head rail 12.
In Figs. 9 and l0, the coiling of the spring about 81g increases as the shade is pulled down. This decreases spring coiling about 80_a. Conversely, the coiling of the spring about 80~ increases as the shade is moved up. This decreases spring coiling about 81~. In this way, the spring acts as a force balancing device to maintain the shade at any selected elevation.
Fig. 7 is an enlarged end view upper extent of the Fig. 6 modification;
Fig. 8 is an end view of a modified attachment of the upper elongated member of the apparatus, to a wall;
Fig. 9 is an exploded view of a modified cord collector apparatus; and Fig. 10 is an exploded view of a portion of Fig. 9, showing spring attachment to rotary members.
DETAILED DESCRIPTION
In Figs. 1 and 2, a pleated shade assembly 10 is capable of height adjustment without use of external pull cords. It includes an upper elongated support 11 which may be in the form of a metallic channel or rail 12 which may be otherwise hollow.
The assembly also includes a lower elongated slat member 13 that is to be simply manually adjusted up or i5 down, as indicated by arrows 14 and 15. Shade pleats 16 are located between and connected to 12 and 13, as shown. The pleats are foldable, and expand or separate as member I3 is urged downwardly, to selectively adjusted height position, for example controllably covering a window. See for example Fig. 2. The pleats collapse toward one another as the member 13 is elevated toward 12, to another adjusted position or positions. Pleats expand as at 60, 2o from stacked positions as at 61. See also Fig. 2.
Primary lines or cords are provided to extend generally vertically through the pleats, as seen in Fig. 2, to suspend the lower member 13. See for example two lines 20 and 21, connected at their lower ends or terminals 20_a-and 21g to member 13, at laterally spaced positions. Two such lines are shown, but three may be provided, as for a larger width shade.
2s Primary rotors are provided, at the upper support or rail 11, to entrain the primary lines, and guide them toward a common connection 22 with at least one secondary line 24 which moves endwise relative to 12 as connection 22 is moved endwise. The number of secondary lines is less than the number of primary lines, for reasons as will appear. Typically, there is only one secondary line 24, and two or more primary lines, such as lines 20 and 21.
3o In that event, connection 22 connects the terminals of lines 20 and 21 with the terminal of line 24, whereby movement of that connection 22 and line 24 in one direction tends to equally raise primary line terminals 20g and 21a_; and movement of connection 22 and line 24 in the opposite direction tends to equally lower primary line terminals 20g and 21g, the lower member thereby being maintained in horizontal condition as it is raised and lowered.
Means is provided for acting on the secondary line or lines 24 for exerting force counterbalancing the suspension force exerted on the primary lines, by the weight of the lower member 13, and pleats, as at different shade height adjusted levels. Such counterbalancing s force enables stable suspension of the lower member 13 at any vertical position to which it is raised or lowered. Such means is generally indicated at 30 in Figs. 1 and 4 and may take different forms, but preferably enabling its reception as shown within the confining channel shaped support 11, as near one end thereof. Means 30 may include a housing 30g, and a tension exerting torsion spring element 32 within 30g. The line 24 is typically wound onto or tn off a spool or drum 33 within 30g, and spring force is exerted on the spool in a line winding direction, to provide the counterbalancing force or tension referred to. That force is maintained as the shade is raised or lowered to stable adjusted position, and static friction may be provided in the means 30 acting to hold the lower member at selected height adjustment.
Such friction may be supplied by drum 32 rubbing against the housing. Since only one line 24 t5 is typically spooled at 33, the size of the spool may be minimized to fit within channel 12. A
guide pulley 50 directs travel of line 24 to and from the winding area of the spool. Pulley 50 is axially slidable along axle SOa_, perpendicular to line 24, to follow or guide the line 24 as it is wound on and off drum 33.
In the primary rotor system illustrated a first rotor 40 may have spacing from 2o the tensioning means 30 such that the lengthwise path of travel indicated by dimension 90 of connection 22 does not pass over any primary rotor, or pulleys, such as first rotor 40, thereby eliminating risk of entanglement or "hang-up" of connection 22 with rotor structures. In this regard, first rotor 40 is shown as having spacing from said means 30 which exceeds said path of travel, for shade height adjustment between uppermost and lowermost positions.
2s As shown, the primary rotors include at least one second rotor over which said primary lines are entrained, and the primary rotors include a third rotor in the form of a pulley over which one of said primary lines is entrained, and a fourth rotor in the form of a pulley over which another of said primary lines (line 21) is entrained.
See for example the following:
30 - second rotor 46, (for example near 50) - third rotor 47 - fourth rotor 48.
All of such rotors are contained within the channel shaped support 1 I. Lines 20 and 21 project downwardly through lower extent of support 11. Rotor 46 is between 50 and 47, so that both lines 20 and 21 may be redirected by like idler rotors 47 and 48, for like vertical control of lines 20 and 21, enhancing maintenance of slat 13 in horizontal condition.
In Fig. 5, the assembly or apparatus 10 is installed at a window 112 bordered by a frame 111. The latter has horizontal and vertical frame members 113-116, as shown.
Support 11 is attached to upper horizontal frame member 113.
Referring now to the modification seen in Fig. 6, elements corresponding to elements of Fig. 1 are given corresponding identification numerals. In Fig. 6, rotors 40 and 46 are located at the same general position along 11; and this is enabled by providing an idler io rotor 42 carried by 11, and over which primary lines 20 and 21 extend or are entrained, as shown. Idler rollers or rotors 47 and 48 are located along the length of 11, and between 42 and 46.
Secondary line 24 extends to the means 133 acting on 24 for counter-balancing suspension force exerted on the primary lines 20 and 21, as at different shade height ~s adjustment levels. In this instance, the means 133 is a device for locking the secondary line 24 in a selected position or positions corresponding to selected shade height adjustment. In this example, line 24 has an extension 24g that hangs below the level of said device, for manual grasping and control of locking by said device. The user can control the locking or unlocking status of means 133 by varying the angularity of pull on single line 24a_, and thereby 2o control the positions of two lines 20 and 21 that control shade height and bottom level.
In accordance with an additional feature or features of the invention, a fastener or fasteners is or are provided to attach the upper elongated support to structure above the levels of said rotors and secondary line, said fastener or fasteners being one of the following:
i) a spacer portion to positively locate the elongated support spaced 25 below said structure, ii) a hinged portion to positively locate the elongated support below upright wall to which the hinged portion is attachable.
Figs. 6 and 7 show two such fasteners 160 having middle spacer portion 161 to positively locate elongated support lower wall I lg at a predetermined fixed distance below 3o the window frame upper member I 13. For this purpose, a lower flange 162 on 160 engages lower wall l lg, and an upper flange 163 on 160 engages the underside 1138 of member 113.
A retainer screw 164 extends through 160 and connects to 113.
In Fig. 8, the illustrated hinged portion 170 has a first component 171 to attach to the upper wall llb_ of the elongated support; and a second component 172 to swing upwardly and attach by fastener or fasteners 173 to upright wall 174 on or near the window frame.
Components 171 and 172 are hingedly connected together at 175 to form an L-shaped positive support when 172 is swung upwardly to position 1728.
In Figs. 9 and 10, a modified means is shown acting on the secondary line or lines 24 for counterbalancing suspension force exerted on the primary lines 20 and 21, at different shade height adjustment levels. The modified means, as shown, includes dual rotary members 80 and 81 exerting tensioning force on the secondary line 24, that line 24 being entrained or wound about the dual entry members, for line storage, as the shade is raised or lowered.
The referenced counterbalancing means includes a spring coupled to said dual rotary members and exerting force tending to entrain said secondary line or lines about said dual rotary members, for storage on at least one of the members. See for example the spring is 83 which has S-shaped configuration, so as to wind or coil at 83~ in a clockwise direction about a first portion 80g of member 80, and so as to wind or coil at 83~ in a counterclockwise direction about a first portion 81a_ of rotary member 81. The secondary line 24 winds at 24g about a second portion 80~ of the member 80, and at 24~ about a second portion 81~ of member 81, as shown. Portions 80g and 80~ are coaxial, and portions 81g and 81~ are 2o coaxial, as shown.
Note in Fig. 10 the attachment of spring end 83~ to member 80, as for example by means of a fastener or set screw 84; and the attachment of spring end 83~
to member 81, as by means of fastener or set screw 85. The spring ends may be attached to the two members as by other means, such as bonding, or by spring end turning into grooves in the members.
25 Fig. 9 also shows a housing 86 that includes a receptacle 86g and a cover 86~.
Posts 87a and 87b_ attached to the plate 86_b extend in parallel relation through bores 80g and 81g in the rotary members, to mount those members for rotation. Caps 87-90 position the members 80 and 81 and the spring, for endwise back and forth operation of line 24, through opening 91 in the receptacle, with spring tension balancing the weight of the hanging shade, 3o at any selected height position, whereby the shade remains in selected height position.
Receptacle 86g is typically a part of the head rail 12.
In Figs. 9 and l0, the coiling of the spring about 81g increases as the shade is pulled down. This decreases spring coiling about 80_a. Conversely, the coiling of the spring about 80~ increases as the shade is moved up. This decreases spring coiling about 81~. In this way, the spring acts as a force balancing device to maintain the shade at any selected elevation.
Claims (3)
1. A collapsible window covering capable of height adjustment, comprising, in combination:
a) an upper elongated support, b) a lower elongated member that is adjustable up and down, c) control line means extending downwardly to suspend said lower elongated member, d) primary rotor structure at said upper elongated support to entrain said line means, e) and other means acting on said line means for counterbalancing suspension force exerted on said line means at different window covering height adjusted levels, f) said other means including dual rotary members one of which exerts tensioning force on said line means, g) said other means including an S-shaped spring coupled to said dual rotary members acting to urge said one of said rotary members in a direction for winding said line means on said one rotary member, h) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary members and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
a) an upper elongated support, b) a lower elongated member that is adjustable up and down, c) control line means extending downwardly to suspend said lower elongated member, d) primary rotor structure at said upper elongated support to entrain said line means, e) and other means acting on said line means for counterbalancing suspension force exerted on said line means at different window covering height adjusted levels, f) said other means including dual rotary members one of which exerts tensioning force on said line means, g) said other means including an S-shaped spring coupled to said dual rotary members acting to urge said one of said rotary members in a direction for winding said line means on said one rotary member, h) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary members and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
2. A collapsible shade or blind assembly capable of height adjustment without use of pull cords, comprising, in combination:
a) an upper elongated support, b) a lower elongated member that is manually adjustable up and down, control line means extending downwardly to suspend said lower elongated member, c) primary rotor structure to entrain said line means, d) including a rotary member entraining and exerting tensioning force on said line means and a spring operatively connected to said rotary member to variably coil thereabout as shade or blind height changes, and acting to urge said rotary member in a direction for winding said line means on said rotary member, whereby said rotary member exerts counterbalancing suspension force exerted on said line means at different shade or blind height adjusted levels, e) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary member and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
a) an upper elongated support, b) a lower elongated member that is manually adjustable up and down, control line means extending downwardly to suspend said lower elongated member, c) primary rotor structure to entrain said line means, d) including a rotary member entraining and exerting tensioning force on said line means and a spring operatively connected to said rotary member to variably coil thereabout as shade or blind height changes, and acting to urge said rotary member in a direction for winding said line means on said rotary member, whereby said rotary member exerts counterbalancing suspension force exerted on said line means at different shade or blind height adjusted levels, e) said upper elongated support including a straight channel, there being a receptacle in the channel in which said rotary member and spring are protectively carried, whereby the channel orients said receptacle so that line means in the channel remain or remains substantially aligned with said one rotary member in the receptacle.
3. A collapsible window covering capable of height adjustment, in combination:
a) an upper longitudinally elongated support, b) a lower elongated member that is adjustable up and down, c) primary lines extending downwardly to suspend said lower elongated member, d) primary rotors at said upper elongated support to entrain said primary lines, e) secondary line means, there being an operative connection between said primary lines, and said secondary line means, f) and force exerting means acting on said secondary line means for counterbalancing suspension force exerted on said primary lines at different window covering height adjusted levels, g) said force exerting means including rotary members one of which exerts tensioning force on said secondary line means, said primary lines and said operative connection remaining everywhere spaced from said rotary members, at all times, h) and force exerting means including spring means windingly coupled to said rotary members acting to urge said one of said rotary members in a direction for winding said secondary line means on said one rotary member, said secondary line means being the only tensioning force exerting line means wound on said one rotary member, i) said upper longitudinally elongated support including a straight channel, there being a longitudinally elongated receptacle retained in the channel and in which said rotary members and spring means are carried and confined, and wherein the channel orients said elongated receptacle so that the secondary line means and said connection remain substantially directly longitudinally aligned in the channel with said one rotary member confined in the receptacle, and so as to define a protective longitudinal travel path for said connection in the channel toward the one rotary member, j) said rotary members being longitudinally spaced apart and having parallel axes of rotation, and having laterally axial overall dimensions confined within the receptacle in the channel, k) said spring means rotatably coupled to said rotary members whereby all of said rotary members rotate during winding of the secondary line means on said one rotary member.
a) an upper longitudinally elongated support, b) a lower elongated member that is adjustable up and down, c) primary lines extending downwardly to suspend said lower elongated member, d) primary rotors at said upper elongated support to entrain said primary lines, e) secondary line means, there being an operative connection between said primary lines, and said secondary line means, f) and force exerting means acting on said secondary line means for counterbalancing suspension force exerted on said primary lines at different window covering height adjusted levels, g) said force exerting means including rotary members one of which exerts tensioning force on said secondary line means, said primary lines and said operative connection remaining everywhere spaced from said rotary members, at all times, h) and force exerting means including spring means windingly coupled to said rotary members acting to urge said one of said rotary members in a direction for winding said secondary line means on said one rotary member, said secondary line means being the only tensioning force exerting line means wound on said one rotary member, i) said upper longitudinally elongated support including a straight channel, there being a longitudinally elongated receptacle retained in the channel and in which said rotary members and spring means are carried and confined, and wherein the channel orients said elongated receptacle so that the secondary line means and said connection remain substantially directly longitudinally aligned in the channel with said one rotary member confined in the receptacle, and so as to define a protective longitudinal travel path for said connection in the channel toward the one rotary member, j) said rotary members being longitudinally spaced apart and having parallel axes of rotation, and having laterally axial overall dimensions confined within the receptacle in the channel, k) said spring means rotatably coupled to said rotary members whereby all of said rotary members rotate during winding of the secondary line means on said one rotary member.
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US10/623,776 US6837294B2 (en) | 2003-02-10 | 2003-07-21 | Pull down, push up, shade assembly |
| US10/623,776 | 2003-07-21 | ||
| CA002504047A CA2504047C (en) | 2003-07-21 | 2004-07-21 | Pull down, push up, shade assembly |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA002504047A Division CA2504047C (en) | 2003-07-21 | 2004-07-21 | Pull down, push up, shade assembly |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CA2549110A1 CA2549110A1 (en) | 2005-02-03 |
| CA2549110C true CA2549110C (en) | 2011-10-18 |
Family
ID=36938982
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA2549110A Expired - Fee Related CA2549110C (en) | 2003-07-21 | 2004-07-21 | Pull down, push up, shade assembly |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA2549110C (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB2448524B (en) * | 2007-04-19 | 2009-11-25 | Ker-Min Lin | A reeling device for a window covering |
-
2004
- 2004-07-21 CA CA2549110A patent/CA2549110C/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| CA2549110A1 (en) | 2005-02-03 |
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| Date | Code | Title | Description |
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| EEER | Examination request | ||
| MKLA | Lapsed |
Effective date: 20140722 |