Tab release cord tension device

Information

  • Patent Grant
  • 6792999
  • Patent Number
    6,792,999
  • Date Filed
    Tuesday, November 12, 2002
    22 years ago
  • Date Issued
    Tuesday, September 21, 2004
    20 years ago
Abstract
A tensioning device for the cord loop of a window treatment apparatus includes a cord guide disposed in a housing, a biasing element such as a spring and a locking member that locks the cord guide into an installation position. During installation, the cord guide is fixed so that it cannot move and does not affect the tensioning of the cord. After installation, the locking member is removed and the cord guide can move in one direction or another to properly tension the cord.
Description




BACKGROUND OF THE INVENTION




A. Field of Invention




This application pertains to a device for tensioning the cord used for operating a roller blind or other similar window covering, and more particularly to a tensioning device that is adapted to adjust the tension automatically to adjust for changes in the physical characteristics of the cord.




B. Description of the Prior Art




Window coverings such as roller blinds, vertical and horizontal Venetian blinds, and so on, are typically operated by control cords that can be pulled in one direction or another. While many window coverings use a cord with two ends, systems are also popular that use a cord forming a closed loop. However, such systems are alleged ti be potentially dangerous to children. Therefore, interested organizations (such as the American National Standards Institute (ANSI) and the Window Covering Manufacturers Association (WCMA)) have developed a specification, in conjunction with the Consumer Products Safety Commission (CPSC), requiring such closed loop cord control systems to be secured by a tensioning device. The tensioning device is used externally of the window covering and is arranged so that it applies a tension in the cord within a predetermined range.




These tensioning devices are extremely effective in minimizing the danger to infants and young children resulting from the improper use of these cords. However, one problem with them is that during installation they must be carefully adjusted because if too much tension is applied, the window covering becomes difficult to operate and the additional stress on the window covering components results in a high wear and tear and reduced useful life. In fact, under certain conditions if the tension is high enough, the window covering may stop operating.




Strict instructions are normally provided to installers on how to install the window covering and the tensioning device. However, these instructions are frequently ignored, especially if the installer is the homeowner and not a professional.




A further problem in existing tensioning devices is that a high tension may develop after the tensioning device is installed due to changes in the physical characteristics of cord. For example, if the cord is made of knit or braided material, its fibers may shrink due to age, temperature and/or humidity changes, resulting in an increased tension.




OBJECTIVES AND SUMMARY OF THE INVENTION




In view of the disadvantages of the prior art, it is an objective of the present invention to provide a tensioning device that adjusts automatically to maintain tension in a continuous cord to a predetermined level.




A further objective is to provide a tensioning device that can be installed easily and quickly without requiring any special tools or techniques.




Yet another objective is to provide a tensioning device that does not require any extensive redesign, changes of components or other increased costs.




Other objectives and advantages of the invention shall become apparent from the following description.




Briefly, a tensioning device adapted to tension a cord loop of a window treatment apparatus includes a housing; a cord guide disposed in said housing and adapted to receive a portion of the cord loop; a biasing member adapted to bias said cord guide to apply tension on said cord loop; and locking means adapted to lock said cord guide in an installation position, said locking means being removable to allow said cord guide to tension said cord loop. The locking means includes a tab removably inserted into said cord guide. The tab may be a flexible tab extending through said housing and said cord guide. In one embodiment, rails defining a path of movement for said cord guide are disposed within said housing, the cord guide being adapted to shift up and down in the housing along the guide to selectively increase or decrease the tension on the cord loop.




In another embodiment, the cord guide includes a pulley rotatably disposed in said housing.




In another aspect of the invention, the tensioning device includes a housing having two housing portions; a cord guide movably disposed within said housing and adapted to receive a cord loop; a biasing spring coupled to said cord guide and adapted to apply a biasing force on said cord guide to thereby tension said cord loop; and a locking tab extending through said housing, said locking tab being constructed and arranged to lock said cord guide against movement during installation, said locking tab being removable to release said biasing spring.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

shows a perspective view of a window covering with a first prior art tensioning device;





FIGS. 2



a


and


2




b


show perspective views of other prior art tensioning devices without springs;





FIGS. 3A-3C

show a side elevational view of a prior art tensioning device with a spring and a pulley in an unmounted position, a mounted and operational position and a mounted and inoperational position, respectively;





FIG. 4

shows an exploded view of a tensioning device constructed in accordance with this invention;





FIG. 5

shows a side elevational cross sectional view of a tensioning device constructed in accordance with this invention;





FIG. 6

shows a front perspective elevational view of a tensioning device constructed in accordance with this invention with the housing closed;





FIG. 7

shows a rear perspective elevational view of a tensioning device constructed in accordance with this invention, with the housing closed.





FIGS. 8A-8C

show a side elevational view of a tensioning device without a pulley constructed in accordance with the present invention in a mounted, a mounted intermediate, and a mounted final position, respectively;





FIG. 9

shows a perspective view of an alternate embodiment of the invention with a pulley;











DETAILED DESCRIPTION OF THE INVENTION





FIG. 1

shows a typical installation of a window treatment apparatus with tensioning means. The window treatment apparatus


10


consists in this case of a folded panel


12


hanging from a cassette


14


. The cassette


14


is secured to a window frame


16


. Incorporated within the cassette


14


there is a mechanism (not shown) which is not part of this invention and which is activated or operated by a cord loop


18


. The cord loop passes through a tension device


20


also secured to the window frame


16


and is adapted to provide tension in cord loop


18


.

FIGS. 2A and 2B

show two types of tension devices


20


A and


20


B which do not utilize springs or any other active means of generating tension in the loop cord


18


. Hence, the tension in the loop cord


18


is controlled only by the position of the tension devices on the frame


16


. If this position is not selected properly, or if the loop cord


18


shrinks over time, the tension within the loop will increase, possibly to a level that may render the apparatus


10


inoperable.





FIGS. 3A-3C

show a more advanced tensioning device


20


C for tensioning cord loop


18


. The device


20


C includes a housing


22


supported by a bracket


24


. Inside the housing there is provided a pulley


26


biased in the downward direction by a spring


28


. The cord loop


18


is trained around the pulley, as shown.

FIG. 3A

shows the tension device


20


C before installation, with the spring


28


being relaxed.

FIG. 3B

shows the device


20


C installed. Normally, the device


20


C is positioned so that the pulley


26


is raised slightly and pushes upwardly against the spring


28


. In this position, the tension in cord loop


18


is dependent on the force generated by the spring


28


. However, if the device


20


C is installed too low and/or if the cord loop


18


shrinks excessively, the pulley


26


is raised sufficiently to squeeze the spring


28


tightly up against the top


30


of housing


22


. Under these conditions, the spring


28


is in effect disabled and the tension within the cord loop


18


may be high enough to interfere with the operation of, or even disable the respective apparatus. A tensioning device of this type is disclosed in U.S. Pat. No. 6,311,756, incorporated herein by reference.




A tensioning apparatus constructed in accordance with the present invention is shown in

FIGS. 4-8

. In this embodiment, the apparatus


120


includes a housing


122


formed of two housing parts


122


A,


122


B. A through hole


123


passes through the housing parts


122


A,


122


B. A bracket


24


is constructed and arranged to be mounted on a window frame. A straight pin


25


is used to attach housing


122


to the bracket


24


by passing the pin


25


through holes


123


and


125


in bracket


24


.




Within the housing


122


there is provided a cord guide


126


. Guide


126


is substantially semicircular with an annular groove


127


for accommodating the cord loop


18


. The cord guide


126


is associated with a spring


128


. More particularly, groove


129


are provided to allow the cord guide


126


to move up and down within the housing


122


. A spring


128


is disposed between the cord guide


126


and a top


130


portion of housing


122


. As in the embodiment of

FIGS. 3A-3C

, the cord guide is biased downwardly by the spring


128


. Preferably, housing part


122


A is formed with tracks


131


. The cord guide


126


is constructed so that it can move up and down on the tracks


131


within the housing


122


.




Importantly, the housing part


122


B is formed with a horizontal slot


132


. A similar slot


134


is provided in the cord guide


126


and a third slot


136


is formed in the housing part


122


A as shown. The cord guide


126


can be positioned between the housing portions


122


A,


122


B so that the three slots


132


,


134


,


136


are aligned to receive and accommodate a tab


140


. As seen in

FIG. 4

, the tab


140


is formed of a front portion


142


which is relatively flat and an intermediate portion


144


and a rear portion


146


. The front and rear portions


142


,


146


are substantially parallel and the intermediate portion


144


is perpendicular to the end portion and is sized and shaped to fit through slots


132


,


134


,


136


. The front portion


142


is large enough so that it can be imprinted with some instructions.




When the tensioning device


120


is completely assembled, the front and rear portions


142


,


146


of tab


140


are abutting the housing portions


122


B,


122


A, respectively, with the intermediate portion


144


extending through the housing portions


122


B,


122


A and the cord guide


126


, as seen in

FIGS. 7 and 8

. As shown in

FIG. 5

, in this position the cord guide


126


is pushing upwardly against the spring


128


so that the spring is somewhat compressed. Thus, tab


140


defines an installation position for the cord guide


126


in which the guide can travel a large distance vertically upward before coil


128


is completely compressed.




The tensioning device


120


is shipped with the tab


140


in place and the cord guide


126


locked in the installation position, as defined above, and shown in FIG.


8


A. When the tensioning device


120


is received, it is first installed on its bracket


24


while the tab


140


is in place, as shown in FIG.


8


B. The installer is instructed to insure that the bracket should be positioned to insure that the cord loop


18


is relatively taught, not loose. Because the tab


140


prevents movement of the cord guide


126


, the spring


128


does not yet apply any force on the cord loop


18


.




The tab


140


is made of an elastic material so that as the front portion


142


is pulled forward, the rear portion


144


is bent and can be retrieved through the slots


132


,


134


,


136


. The tab


140


can be made of paper or plastic. Once the tensioning device


120


is properly installed, the tab


140


is removed, as shown in FIG.


8


C. As soon as the tab is removed, the cord guide


126


is pushed down by the spring


128


thereby tensioning the cord loop


18


to the proper level. Moreover, if the cord loop


18


gets shorter because of shrinkage or other reason, the cord guide


126


automatically rises to compensate for this effect. However, because in its initial or installation position, the cord guide


126


is positioned at the bottom of the housing


120


, there is sufficient room in the housing to allow the cord guide


126


to rise applying excessive tension on the cord loop


18


and disabling the whole apparatus.




In the embodiment of

FIGS. 4-8

, the cord guide


126


provides groove


127


through which the cord loop


18


can slip. In order to reduce friction, the cord guide


126


can incorporate a pulley


126


A, as shown in FIG.


9


. The pulley


126


A is formed with a slot


134


A to accommodate a tab as described above. In addition, as shown in

FIG. 9

, instead of a compression-type spring


18


, a tension spring


28


A can be used to bias the pulley


126


downwardly. Of course, a similar tension spring


28


A may also be used for the embodiments of

FIGS. 4-8

.




The pulley


126


A is rotatably supported by a bracket


133


which is then connected to the end of spring


128


A. The slot


134


A may be provided in the bracket


133


rather than the pulley


126


A.




The tensioning device described herein is advantageous because it insures that the cord loop is properly tensioned at installation. Moreover, if the tension on the cord loop changes, for example, due to changes in the physical characteristics of the cord loop, the device automatically adjusts itself by allowing the cord guide or pulley to shift.




The tab can also be made of a relatively stiff material, in which case it is inserted into the housing through the slots and can be selectively removed therefrom without necessary bending any of its portions.




While the invention has been described with reference to several particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles of the invention. Accordingly, the embodiments described in particular should be considered as exemplary, not limiting, with respect to the following claims.



Claims
  • 1. A tensioning device adapted to tension a cord loop of a window treatment apparatus, said tensioning device comprising:a housing receiving a portion of said cord loop; a cord guide disposed in said housing and adapted to receive said portion of cord loop; a biasing member adapted to bias said cord guide to apply tension on said cord loop; and a locking member removably inserted through said housing and said cord guide adapted to lock said cord guide in an installation position within said housing, said locking member being removable from said housing to allow said cord guide to tension said cord loop.
  • 2. The tensioning device of claim 1 wherein said locking member includes a tab removably inserted into said cord guide.
  • 3. The tensioning device of claim 1 wherein said locking member includes a flexible tab extending through said housing and said cord guide.
  • 4. The tensioning device of claim 1 further comprising rails defining a path of movement for said cord guide within said housing.
  • 5. The tensioning device of claim 1 wherein said cord guide includes a pulley rotatably disposed in said housing.
  • 6. A tensioning device comprising:a housing having two housing portions; a cord guide movably disposed within said housing and adapted to receive a cord loop; a biasing spring coupled to said cord guide and adapted to apply a biasing force on said cord guide to thereby tension said cord loop; and a locking tab extending through said housing portions and said cord guide, said locking tab being constructed and arranged to lock said cord guide against movement during installation, said locking tab being removable to release said biasing spring.
  • 7. The tensioning device of claim 6 wherein said cord guide is slidably disposed in said housing.
  • 8. The tensioning device of claim 6 wherein said cord guide includes a pulley rotatably disposed in said housing, said pulley being disabled by said tab.
  • 9. The tensioning device of claim 6 wherein said housing includes a slot, and said locking tab extends into said housing through said slot.
  • 10. The tensioning device of claim 9 wherein said cord guide includes another slot receiving said locking tab.
  • 11. A method of tensioning the cord of a window treatment apparatus comprising:providing a tensioning device including a housing with a cord guide adapted to receive the cord a spring adapted to bias said cord guide to tension said cord and a locking member extending through said housing and said cord guide to lock said cord guide in an installation position; installing said tensioning device; and removing said locking member to allow said cord guide and said spring to tension said cord.
  • 12. The method of claim 11 wherein said cord guide is allowed to change position after said locking member is removed to tension said cord.
  • 13. A tensioning device adapted to tension a cord loop of a window treatment apparatus, said tensioning device comprising:a housing; a cord guide disposed in said housing and adapted to receive a portion of said cord loop; a biasing means adapted to bias said cord guide to apply tension on said cord loop; and locking means adapted to lock said cord guide in an installation position, said locking means being removable to allow said cord guide to tension said cord loop, wherein said locking means includes a flexible tab extending through said housing and said cord guide.
RELATED APPLICATIONS

This application claims priority to provisional application Ser. No. 60/347,973 filed Nov. 13, 2001 and incorporated herein by reference.

US Referenced Citations (6)
Number Name Date Kind
3123351 Graber Mar 1964 A
4846766 Glatzel Jul 1989 A
5752558 Lin May 1998 A
5845696 Chou Dec 1998 A
6311756 Anderson et al. Nov 2001 B1
6447415 Hashimoto et al. Sep 2002 B1
Provisional Applications (1)
Number Date Country
60/347973 Nov 2001 US