Technical Field
[0001] The present invention relates to a fastening device, especially for fastening roller
blinds to a fixed construction.
Background art
[0002] A traditional roller blind usually consists of a cylindrical tube being wrapped with
the fabric which serves as the blind.
[0003] One end of the tube is provided with a plug having an essentially cylindrically pin
extending axially from said one end of the tube. Said pin is designed to fit into
a fastening device to be fixed on e.g. the wall in a suitable position in relation
to a window, and said pin located in its position in the fastening device is designed
in a way which enables the pin and the tube to be freely rotational. This is usually
accomplished by placing the pin in a hole in the fastening device. Usually said first
pin is actuated by a spring so as to be able to be axially pushed into the plug.
[0004] The other end of the tube is provided with a second plug having a second pin extending
axially from said other end of the tube. This second pin is designed to fit into a
second fastening device also to be fixed on e.g. the wall in a suitable position in
relation to a window. The second pin and the second fastening device are each designed
in a way that locks the second pin into an essentially fixed position in relation
to the second fastening device. This is usually accomplished by giving the pin and
the place for its positioning on the fastening device a non-circular form; e.g. the
pin being spade-shaped and the pin being placed in an oblong hole in the fastening
device.
[0005] Furthermore the prior art roller blind is provided with a spring and locking mechanism
that enables the fabric on the roller blind to be pulled off the tube and thus unwrapped
and locked in a position so as to blind the window to an extend which is suitable
for the user. This spring and locking mechanism is mechanically acting on the relative
motion of the tube and the second pin. Once the fabric is unwrapped and locked and
positioned in a position suitable for the user, the locking mechanism may - by careful
pulling the fabric - be unlocked and this accordingly allows the blind fabric to be
either further unwrapped by further pulling the fabric off the tube or to be wrapped
onto the tube by simply allowing the spring to act on the tube.
[0006] Prior art fastening devices for fastening roller blinds to a fixed construction usually
comprises a metal body having two elements bended in a mutual angle of 90 degrees
thus defining an L-shape. One element having a number of holes which serves as recipients
for the pins mentioned above (said element being arranged vertical and serving as
the actual holder for the roller blind tube). The other element serves as means for
mounting the fastening device on the wall, e.g. by using nuts or screws (said element
being arranged horizontal on a fixed construction).
[0007] One disadvantage of the prior art fastening devices is that an L-shaped fastening
device must be mounted to a fixed construction on a horizontal surface in order to
allow the element of the fastening device that holds the roller blind tube to be arranged
correctly (this latter element must be arranged vertically). Thus, it is not to possible
to mount the above mentioned prior art fastening devices on e.g. the vertical part
of a window frame.
[0008] When fastening a roller blind tube to such a prior art fastening device, the spade-shaped
pin (the second pin cf. the above description) is to be positioned in its respective
oblong hole in the vertical element of the fastening device. Thereafter the other
pin in the other end of the roller blind tube (the circular pin cf. the above description)
is by virtue of the spring actuation pushed into the plug in which it is located and
said pin is then aligned with the hole in the other vertical element of the other
fastening device in which it is to be fitted. When the alignment is accomplished said
spring actuated pin is released so that a portion of said pin enters into the hole
of the vertical element of said other fastening device in which it is to be fitted
thus locking the roller blind tube into position. By these operations the mounting
of the roller blind is accomplished.
[0009] However such prior art fastening devices suffers from the disadvantage that it is
usually very difficult to get the pins of the roller blind tube fixed in the holes
of the fastening device, and thus to fasten the roller blind tube to the fastening
device. This is especially the case, when the fastening device is mounted in high
places, such as at the upper part of a highly located window frame.
[0010] The ease of fixing the roller blind tube to the prior art fastening device is only
worsened by the fact that in order for the roller blind tube to be able to wrap an
unwrapped piece of blind fabric efficiently, the spring of the roller blind spring
and locking mechanism must possess a certain degree of pretension when the roller
blind is in its wrapped state. If not pretensioned in its wrapped state prior to mounting
of the roller blind, the roller blind spring mechanism will simply not be able to
wrap all the unwrapped fabric onto the roller blind tube efficiently resulting in
a substantial length of fabric hanging under the roller blind tube when all the fabric
is supposed to be wrapped onto the tube.
[0011] Accordingly, the pins of the roller blind tube not only have to be positioned in
its respective holes in the prior art fastening devices which may be difficult in
itself, but furthermore the fixing of the spade-shaped pin must be made when the spade-shaped
pin is in a state of being actuated by the spring mechanism of the roller blind. This
fixing of the spade-shaped pin in such a pretensioned state is very difficult due
to the fact that the positioning of the pin into its oblong hole in the fastening
device is to be made in an axial direction. Thus, at the same time of axially moving
the spade-shaped pin into its position it is necessary to remove the fingers from
the spade-shaped pin thereby risking that the pin starts rotating by virtue of the
spring actuation before the pin is properly inserted into position. Although other
L-shaped prior art fastening means overcome this disadvantage by providing - as an
alternative to a hole - an aperture into which the spade-shaped pin may be slided,
neither of these fastening means can be mounted on a horizontal surface
[0012] In US 4 936 728 a pair of fastening devices for a window shade are disclosed; one
device having on its front side a slot member designed for engagement with the circular
pin of the window shade, and the other device having on its front side an aperture
member designed for engagement with the spade-shaped pin of the window shade. Each
member on its respective front side has a slot designed for engagement with a screwdriver.
Also, each member on its respective back side has a threaded, screw like portion extending
axially there from and intended as a screw for mounting the fastening device into
the wall or window frame. The teaching in US 4 936 728 solves the problem of axially
moving the spade-shaped pin into its position upon mounting the device by giving one
of the two fastening devices a design which allows the spade-shaped pin to be radially
slided into position. However, the spade-shaped pin is not really fixed into position
just by sliding it into the aperture; further operations involving twisting the spade-shaped
pin is also necessary. Furthermore, the necessity of two different devices for use
with a single window shade or roller blind makes the manufacture of such fastening
devices expensive. Moreover the prefabricated screw extending from the back side of
such a fastening device limits the possibility of proper securing the device on the
wall or in the window frame in respect of the different materials which may be encountered
in such wall or window frame. Such improper securing is likely to occur when the site
of mounting the device is a concrete wall which most often requires metal screws in
combination with an expandable member in a predrilled hole in the wall.
[0013] Accordingly there exists a need for an improved fastening device for a roller blind
which allows for very easy fastening the roller blind tube to the fastening device
and which allows for mounting on a vertical surface.
Brief description of the invention
[0014] According to the present invention there is provided a fastening device which overcomes
the above mentioned problems.
[0015] Accordingly, the present invention relates to a fastening device, especially for
fastening roller blinds to a fixed construction, wherein the device has a front side
and a back side, and a material thickness there between, and that one or more grooves
are provided in the front side, the groove(s) having a depth into the material thickness,
and that further a first hole penetrates the device from the bottom of a groove into
the material in an axial distance that at least corresponds to the distance to the
backside of the device and that optionally a second hole is provided from the front
side into a groove in a predefined distance from the backside of the device.
[0016] Furthermore the present invention relates to a process for the manufacture of a fastening
device, wherein the process is selected from cutting a body of the material of choice
into the shape of the fastening device; or in case of the material being a thermoplastic
polymer, from injection moulding; or in case of material being a light metal, from
pressure moulding.
[0017] The fastening device according to the present invention makes it very easy to mount
the roller blind tube onto the fastening device. Furthermore, the special design of
the fastening device according to the present invention makes it possible to be mounted
on a vertical surface, such as a vertical surface of a window frame.
[0018] Yet another advantageous effect of the fastening device according to the present
invention is that it is possible to design the fastening device so as to have very
small dimensions, allowing it - in contrast to the prior art devices described above
- to possess an almost invisible and thus very discrete appearance.
Drawing
[0019]
- Fig. 1
- is a perspective view of a first embodiment of the fastening device according to the
present invention.
- Fig. 2a
- is a perspective view of a second embodiment of the fastening device according to
the present invention.
- Fig. 2b
- is a plan view of the device of fig. 2a.
- Fig 3a
- is a side view of a third embodiment of the fastening device according to the present
invention.
- Fig. 3b
- is a plan view of the device of fig. 3a.
- Fig. 4a
- is a side view of a fourth embodiment of the fastening device according to the present
invention.
- Fig. 4b
- is a plan view of the device of fig. 4a.
- Fig. 5a
- is a side view of a mounting bracket for engagement to a fastening device according
to fig. 4a and 4b.
- Fig. 5b
- is a plan view of the bracket of fig. 5a.
Detailed description of the invention
[0020] As set out above the fastening device according to the present invention has a front
side and a back side, and a material thickness there between, and one or more grooves
are provided in the front side, the groove(s) extending from the rim of the device
into the material, the device further has a first hole that penetrates the device
from the bottom of a groove into the material in an axial distance that at least corresponds
to the distance to the backside of the device and that optionally a second hole is
provided from the front side into a groove in a predefined distance from the backside
of the device.
[0021] The first hole serves as the site for mounting the device on a wall by using a screw
or other suitable fastening means. The groove serves as the recipient for the spade-shaped
pin; and the second hole, if present, serves as the recipient for the other, essentially
cylindrical pin. If no second hole is provided, the groove itself may serve as the
recipient for the essentially cylindrical pin.
[0022] As at least one grove serves as a recipient for the spade-shaped pin it is essential
that at least one groove does not extend throughout the surface so as to meet the
rim of the device at two distinct places and thereby enable the pin which is to be
positioned in said groove to enter at one site of the rim of the device and exit the
device at another site. It is also important that the groove which is to serve as
the recipient is not too curved or has a shape that otherwise prevents said groove
from properly holding the spade-shaped pin into position.
[0023] In its most simple form the fastening device according to the present invention has
only one groove in the front side. This groove extends from the rim of the device
into the material. From the bottom of this groove a hole extends to the back side
of the device. A second hole may be provided so as to extend from the front side into
a groove in a predefined distance from the backside. If no second hole is provided,
the groove itself may serve as the recipient for the essentially cylindrical pin.
[0024] An embodiment of such a device having only one groove is shown in Fig. 1. Fig 1 shows
a fastening device 1a having a front side 2 and a back side 3 (not shown) and a material
thickness 4 there between. The device 1a is provided with one groove 5 in the front
side into the material, and is further provided with a first hole 6 penetrating the
device from the bottom of the groove 5 into the material to the back side 3 (not shown)
and a second hole 7 extends from the front side 2 into the groove 5. Furthermore the
device 1a is provided with "third" holes 8.
[0025] In a preferred embodiment the fastening device according to the present invention
is cylindrical having a circular front side and backside with a diameter of 8 mm to
30 mm, more preferred 10 mm to 20 mm and most preferred 12 mm to 15 mm.
[0026] The thickness of the fastening device according to the present invention may be 4
mm to 15 mm, preferably 7 mm to 12 mm, and more preferably 9 mm to 11 mm.
[0027] The groove(s) of the device according to the present invention is/are preferable
3 mm to 12 mm deep, and it/they has/have a width of 2 mm to 5 mm, more preferred approximately
3 mm.
[0028] When a fastening device according to the present invention is to be used for mounting
a roller blind, the fastening device is simply mounted on the vertical surface of
the window frame by fastening the device on the window frame at the appropriate position,
e.g. by screwing a screw through the first hole of the device and into the window
frame. This operation is repeated in the other side of the window frame using another
device. Having mounted the two fastening devices according to the present invention
on the window frame, the roller blind is now ready for being assembled onto the fastening
devices.
[0029] This operation is accomplished by first allowing the essential cylindrical pin of
one end of the roller blind tube to fit into the groove or the second hole of one
device according to the present invention. Next, the other end of the roller blind
tube having the spade-shaped pin extending axially out of the tube is simply slided
into position in the groove of the device mounted in the other side of the window
frame. These two simple operations constitute the mounting of the roller blind tube
on the fastening device.
[0030] Prior to performing this second operation one should however make sure that the device
is oriented in a way so that the point of intersection of the groove that is to serve
as recipient of the spade-shaped pin and the rim of the device (i.e. the site where
the groove meets the rim of the device) does not point downward. This will ensure
that the roller blind tube will not fall down as a consequence of the action of the
gravitational force.
[0031] The fastening devices according to the present invention may be mounted in the window
frame by suitable means, such as screws, pins and the like. If appropriate, the devices
may even be glued to the window frame.
[0032] The window frame in which the fastening device according to the present invention
is to be mounted may be made of various different materials, such as plywood or other
types of wooden materials, bricks or concrete. The exact way of mounting the fastening
devices according to the present invention will accordingly depends on the material
of the window frame. Accordingly, when the window frame is made of plywood or other
wooden material, it will be appropriate to mount the fastening device by means of
wood screws which are screwed directly into the wooden material. If on the other hand
the material of the window frame is made of bricks, concrete or the like it will be
appropriate to mount the fastening device by means of a screw in combination with
some kind of an expandable member, such as a plug in a predrilled hole.
[0033] In a preferred embodiment according to the present invention, the fastening device
is provided with three intersecting grooves. These grooves are in a yet more preferred
embodiment arranged so as to form a mutual angle of 120 degrees. The presence of three
intersecting groves in a mutual angle of 120 degrees has the advantage that al least
one of the three intersecting grooves always points upward (as opposed to downward),
making the exact axial orientation of the device arbitrary. Another advantage is that
the three intersecting grooves in a mutual angle of 120 degrees themselves define
the second hole in which the essentially cylindrical pin of the roller blind tube
is to be fitted. In such an embodiment it is further preferred that the first hole
and the second hole are essentially axially aligned.
[0034] An embodiment of such a device having three intersecting grooves is shown in Fig.
2a. and 2b. Fig 2a shows a fastening device 1b having a front side 2 and a back side
3 (not shown) and a material thickness 4 there between. The device is provided with
three grooves 5 in the front side into the material, and is further provided with
a first hole 6 penetrating the device from the bottom of the groove 5 into the material
to the back side 3 (not shown) and a second hole which is defined by the three intersecting
grooves extends from the front side 2 into the three intersecting grooves 5. Furthermore
the device 1b in fig. 2a and 2b is provided with "third" holes 8.
[0035] Fig 2b shows a plan view of the device 1b of fig 2a. In this figure the second hole
is clearly seen as defined by the three intersecting grooves.
[0036] In another preferred embodiment of the fastening device of the present invention
the back side of the device extends integrally into an expansion member, said expansion
member being cylindrical having an outer diameter larger than the diameter of the
first hole, which expansion member being arranged centrally along the centre axis
of the first hole, which hole extends at least a substantial part of the way through
the expansion member.
[0037] Such an embodiment is useful when the fastening device is to be mounted in a window
frame made of e.g. bricks, concrete or the like. The presence of the integral expandable
member makes the use of an external provided expandable member unnecessary and thus
makes the mounting of the fastening device on the fixed construction easier.
[0038] In the embodiment in which the fastening device is provided with an expansion member,
the outer diameter of the cylindrical expansion member is 4 mm to 12 mm, more preferred
6 mm to 10 mm and still more preferred about 8 mm, and the extension of the expansion
member along the centre axis of the second hole is 10 mm to 50 mm, more preferred
15 mm to 35 mm and still more preferred 20 mm to 30 mm.
[0039] The first hole may extend all the way through the expansion member or only part of
the way through the expansion member. It is however preferred that said hole extends
at least a substantial way though said expansion member, such as more than 50%, preferably
more than 60 % and more preferred more than 75 % of the axially dimension of the expansion
member.
[0040] An embodiment of such a device having an expandable member is shown in Fig. 3a and
3b. Fig. 3a is a side view and fig. 3b is a front view. Accordingly, fig 3a and 3b
show a fastening device 1c having a front side 2 and a back side 3 and a material
thickness 4 there between. The device is provided with three grooves 5 in the front
side 2 into the material, and is further provided with a first hole 6 penetrating
the device from the bottom of the groove 5 into the material to the back side 3 and
a second hole as defined by the three intersecting grooves extends from the front
side 2 into the grooves 5. Furthermore the device 1c is provided with "third" holes
8. Finally the device 1c is provided with a cylindrical expansion member 9 which is
integral with and extending from the back side 3.
[0041] In another preferred embodiment, the fastening device according to the present invention
is designed in a way, wherein the device on the back side and integral with said device
is provided with a leg portion, said leg portion extending in a direction parallel
to the plane defined by the back side, said leg portion having means for detachably
engaging a mounting bracket, said bracket being suitable for fastening to a fixed
construction and further that the means for detachably engaging the bracket or the
engagement section on the bracket comprises resilient or flexible engagement means.
[0042] The above embodiment of the fastening device according to the present invention enables
the roller blind to be fixed in a position that extends a certain distance from the
window frame. This is achievable due to the fact that the fastening device for the
roller blind is mounted on a detachable mounting bracket, which itself is mounted
in the window frame or even on the wall surrounding the window frame. Furthermore,
the above embodiment of the fastening device having a leg portion also allows that
the fastening device extends downward from a horizontal surface, such as the upper
part of the window frame or even from the ceiling. This can be made possible by proper
design of the mounting bracket.
[0043] An embodiment of such a device having a leg portion is shown in Fig. 4a and 4b. Fig.
4a is a side view and fig 4b is a plan view showing a fastening which additionally
is provided with a leg portion. Accordingly, fig 4a and 4b show a fastening device
1d having a front side 2 and a back side 3. The device 1d is provided with three grooves
5 in the front side into the material, and is further provided with a first hole 6
penetrating the device from the bottom of the groove 5 into the material to the back
side 3 and a second hole as defined by the three intersecting grooves extends from
the front side 2 into the grooves 5. Finally the device 1d on fig. 4a and 4b is provided
with a leg portion 10 which is integral with and extending from the back side 3. The
leg portion is provided with flexible means 11 for detachably engaging a mounting
bracket which is suitable for mounting to a fixed construction
[0044] Fig. 5a and fig 5b show an example of a mounting bracket 17 to be used with a fasting
device 1d having a leg portion. Fig 5a and 5b are views of a mounting bracket 17 comprising
a hollow member 12 having in one end an opening 13 for receiving the leg portion 10
of the fastening device 1d and another closed end 14 provided with mounting holes
15. Furthermore the mounting bracket is provided with means 16 for locking the flexible
means 11 of the fastening device 1d onto the mounting bracket.
[0045] The leg portion of such a fastening device according may extend 5 mm to 90 mm, preferably
15 mm to 70 mm and most preferred 20 mm to 45 mm, and the bracket may overlap the
leg portion by 5 mm to 50 mm, more preferred 10 mm to 35 mm.
[0046] In a yet further embodiment the fastening device according to the present invention
comprises one or more "third" holes from the front side to the back side, offset from
the first hole.
[0047] The presence of such third hole or holes allows for further attachment of the fastening
device to the fixed construction in cases where the back side of the fastening device
is in direct contact with a fixed construction.
[0048] The fastening device according to this embodiment can be further attached to the
fixed construction by hammering one or more pins through the respective "third" hole
or holes of the fastening device and into the fixed construction. In addition to preventing
the fastening device from rotating and thus risking the spade-shaped pin to leave
its groove by virtue of the gravitational force, such pin or such pins will further
serve as additional attachment means for the fastening device per se.
[0049] According to the present invention a process for manufacturing the fastening device
is also provided.
[0050] The fastening device according to the present invention may be made of any suitable
material, such as polymers, for example thermoplastic polymers, such as PP (polypropylene),
PE (polyethylene), POM (polyoxymethylene), PVC (polyvinyl chloride), PBT (polybutadiene
terepthalate), PS (polystyrene) or PC (polycarbonate); or fibre reinforced polymers;
or light metals, such as aluminium.
[0051] The preferred material of the fastening device according to the present invention
is PP, PE, POM, PVC, PBT, PS or PC.
[0052] The fastening device according to the present invention may be made in any suitable
way, such as by cutting a body of the material of choice. Alternatively the fastening
device according to the present invention may be manufactured by pressure moulding
of a light metal, such as aluminium. However, it is preferred to manufacture the fastening
device according to the present invention by injection moulding of PP, PE, POM, PVC,
PBT, PS or PC.
1. A fastening device, especially for fastening roller blinds to a fixed construction,
wherein the device has a front side and a back side, and a material thickness there
between, and that one or more grooves are provided in the front side, the groove(s)
extending from the rim of the device into the material, and that further a first hole
penetrates the device from the bottom of a groove into the material in an axial distance
that at least corresponds to the distance to the backside of the device and that optionally
a second hole is provided from the front side into a groove in a predefined distance
from the backside of the device.
2. A fastening device according to claim 1 wherein the device is provided with three
intersecting grooves that are arranged in mutual angles of approximately 120 degrees
and wherein a second hole is present, said second hole being defined by the three
intersecting grooves.
3. A fastening device according to claim 2 wherein the device is circular and the grooves
are arranged such that the grooves intersect in the centre of the device and wherein
the first hole is provided at the centre.
4. A fastening device according to any preceding claim wherein extending from and integral
with the back side of the device an expansion member is provided, said expansion member
being cylindrical having an outer diameter larger than the diameter of the first hole,
and arranged centrally along the centre axis of the first hole, which hole extends
at least a substantial part of the way through the expansion member.
5. A fastening device according to claim 1, 2 or 3 wherein on the back side of the device
and integral with said device a leg portion is provided, said leg portion extending
in a direction parallel to the plane defined by the back side, said leg portion having
means for detachably engaging a mounting bracket, said bracket being suitable for
fastening to a fixed construction and further that the means for detachably engaging
the bracket or the engagement section on the bracket comprises resilient or flexible
engagement means.
6. A fastening device according to claim 1 to 4 wherein the device comprises one or more
"third" holes from the front side to the back side, offset from the first hole.
7. A fastening device according to any preceding claim wherein the device is circular
and 4 mm to 15 mm, preferably 7 mm to 12 mm, and more preferably 9 mm to 11 mm thick,
and that the diameter of the device is 8 mm to 30 mm, preferably 10 mm to 20 mm and
most preferred 12 mm to 15 mm, and that the groove/grooves is/are 3 mm to 12 mm deep,
and that the groove/grooves is/are 2 mm to 5 mm, more preferred 3 mm wide.
8. A fastening device according to claim 4 wherein the outer diameter of the cylindrical
expansion member is 4 mm to 12 mm more preferred 6 mm to 10 mm and still more preferred
about 8 mm, and the extension of the expansion member along the centre axis of the
second hole is 10 mm to 50 mm, more preferred 15 mm to 35 mm and still more preferred
20 mm to 30 mm.
9. A fastening device according to any preceeding claim wherein the device is made of
polymers, for example thermoplastic polymers such as PP, PE, POM, PVC, PBT, PS or
PC; or fibre reinforced polymers; or light metals, such as aluminium.
10. A fastening device according to claim 5 wherein the leg portion extends 5 mm to 90
mm, preferably 15 mm to 70 mm and most preferred 20 mm to 45 mm, and that the bracket
overlaps the leg portion by 5 mm to 50 mm, more preferred 10 mm to 35 mm.
11. A fastening device according to any preceding claim, wherein the first and second
hole are essentially axially aligned.
12. A process for the manufacture of a fastening device according to any of the preceding
claims, wherein the process is selected from cutting a body of the material of choice
into the shape of the fastening device; or in case of the material being a thermoplastic
polymer, from injection moulding; or in case of material being a light metal, from
pressure moulding.
13. A process according to claim 12, wherein the fastening device is manufactured by injection
moulding of thermoplastic polymers such as PP, PE, POM, PVC, PBT, PS or PC; or fibre
reinforced polymers.
14. A process according to claim 12, wherein the fastening device is manufactured by pressure
moulding of a light metal, such as aluminium.