[0001] The invention relates to a light fitting module which is fastenable in a fitting
frame.
[0002] Such a light fitting module is generally known. When providing lighting in a space
of, for instance, an office, a hotel, a conference center, or a house, an option is
to arrange fitting frames, such as channel sections, in which various light fitting
modules are fastenable, in or against the ceiling. Such a light fitting module may
for instance be a spotlight, but also a lamp with diffusor or a blind plate. Elegantly,
a modular lighting system can thus be obtained which can be simply adjusted to the
wishes of the customer and/or the space to be lighted.
[0003] A drawback of the known light fitting modules is that it is complex and labor intensive
to fasten them in the fitting frame. Furthermore, during mounting and/or demounting,
fingerprints may be left on the light fitting modules, which is undesired from an
aesthetic point of view. On the other hand, the use of gloves, which prevent the above
effect, is naturally difficult and laborious from a fitter's point of view.
[0004] The object of the invention is to provide a light fitting module which obviates at
least one of the above-mentioned disadvantages.
[0005] To this end, the invention provides a light fitting module which is fastenable in
a fitting frame, wherein the light fitting module comprises a locking module which
is provided with a manually operable locking arm which is adjustable between a stable
release position in which the locking arm releases the light fitting module for mounting
and/or demounting in the fitting frame, and a stable locking position in which the
locking arm locks the light fitting module in the fitting frame.
[0006] By providing the light fitting module with a locking module having a locking arm
which is manually adjustable between a stable release position and a stable locking
position, the light fitting module can in a simple manner be mounted relatively fast
and easily in the fitting frame. Also, based on the position of the locking arm, it
can be perceived whether the light fitting module is locked in the fitting frame or
not, which can facilitate a final check after mounting of the light fitting module.
Furthermore, the light fitting module can also be easily demounted. Both during mounting
and during demounting, contact with the light fitting module proper can be avoided,
which can signify an important advantage from an aesthetic point of view.
[0007] In the locking position, the light fitting module is locked to the fitting frame,
such that the module is firmly anchored and does not fall from the fitting frame,
so that the module could uncouple only upon application of a relatively major external
force. Conversely, in the release position the coupling between the module and the
fitting frame is removed to such an extent that the module can easily be taken out
of the fitting frame, also upon application of a relatively minor external force,
for instance a limited pull force. By configuring the release position in such a way
that the coupling between the light fitting module and the fitting frame, while relatively
weak, is yet maintained, then, despite exertion of gravity on the light fitting module,
the light fitting module in the release position is prevented from falling out of
the frame, which would be undesired. As the light fitting module remains suspended
in the frame also in the release position, the demounting process is simplified considerably.
Taking out the module is then done in the release position by manually removing the
relatively weak coupling between module and frame. In the release position, the module
can be relatively easily pulled from the frame. Thus, bringing the locking arm into
the release position and actually taking out the light fitting module can be carried
out separately. As a result, during mounting and demounting, actions can take place
in succession rather than simultaneously. Thus, mounting and/or demounting can be
carried out by a small number of persons, in principle even by one person. Thus, a
construction is obtained by which both a reliable, firm anchorage between light fitting
module and fitting frame, and an easily practicable mounting and/or demounting can
be realized.
[0008] As the release position and the locking position are stable, during mounting and/or
demounting the locking arm can be set in the desired position, after which the fitter
advantageously has the hand free for other activities, without the locking arm adjusting
of its own motion to a different position less desired at that time.
[0009] Elegantly and advantageously, the locking arm can be pivotably fastened to the light
fitting module. The locking arm may also be slidably fastened to the light fitting
modules.
[0010] By providing the locking module, for the purpose of cooperation with the locking
arm, with an elastic element which is configured for clamping engagement in the fitting
frame, the light fitting module can be mounted in the fitting frame relatively easily
without tools. As the light fitting module engages clampingly in the fitting frame,
the locking arm can be brought in the locking position without bearing the whole weight
of the module. In principle, for instance for reasons of cost price, the module can
also be designed without elastic element.
[0011] By designing the elastic element as a spring, the elastic element and/or the locking
arm can be constructed in a relatively simple manner. For instance, the spring is
designed as a leaf spring but the spring may also be designed as a linear spring,
a torsion spring or a springing lip. Alternatively, the elastic element comprises
a relatively stiff body and a resilient body to provide the spring action.
[0012] By providing the locking arm with a catch for fixing the elastic element in the locking
position, the elastic element can be made of relatively light design. This is because
in the locking position the light fitting module can be fixed in the channel section
in that the catch of the locking arm blocks the spring action of the elastic element.
As the catch then takes over the function of the elastic element, the necessary spring
force of the elastic element is relatively small, which enables a light design of
the elastic element without loss of function.
[0013] By providing the elastic element with an opening through which the catch engages
in the locking position of the locking arm, the locking module can be made of relatively
thin and yet robust design. Instead of an opening there may also be provided a guide
in which the locking arm engages. Thus the locking arm may be provided with a protrusion
which engages in a guide of the elastic element.
[0014] By providing the locking arm with an operating element for manually operating the
locking arm for adjusting the locking arm between the release position and the locking
position, the light fitting module can be fastened in the fitting frame relatively
easily without tools. As a result, mounting and fastening of the light fitting module
can be carried out relatively fast. The operating element may be designed as an operating
projection. In another embodiment, the operating element comprises a hook, eye or
grip to engage the locking arm. Also, the locking arm may be provided with an operating
element that can only be operated with an instrument, so that the locking arm can
be concealed from view more easily. Moreover, operation of the arm can then, in principle,
be reserved to professional users.
[0015] By additionally providing the locking module with a mounting frame on which the locking
arm is arranged, the locking module can be constructed as a separate part which, in
principle, can be fastened on any light fitting module. This can enhance the flexibility
in use of the locking module and/or of the light fitting module. Alternatively, the
locking module is fastened to the light fitting module directly, without intermediacy
of a mounting frame.
[0016] In a compact manner, the elastic element can be fastened to the mounting frame. Thus,
the locking arm additionally comprises the elastic element, so that the locking module
can be designed as a compact separate part. Naturally, the elastic element may also
be fastened differently, for instance directly, to the light fitting module.
[0017] By arranging for the locking module in the locking position to cooperate with the
fitting frame for laterally fixing a sidewall of the fitting frame, yielding of the
sidewall of the fitting frame in a direction transverse to the longitudinal direction
of the fitting frame can be prevented. As a result, the construction of the fitting
frame can be simplified and be made of less stiff design. Also, in the locking position
of the locking arm, the locking module can cooperate with the fitting frame to fix
an intermediate distance between sidewalls of the fitting frame, thereby preventing
the light fitting module from falling out of the fitting frame. In a simpler embodiment,
there is no provision or a different provision for a fixation of a sidewall or an
interspace between sidewalls.
[0018] In an optional embodiment in accordance with the invention, the mounting frame cooperates
with the fitting frame for laterally fixing sidewalls of the fitting frame.
[0019] Elegantly, the locking arm in the locking position is substantially completely folded
into the fitting frame. In this way, a fitting frame with light fitting module having
a relatively level finish can be obtained, with external disturbances in the aspect
of the locking module being practically absent. Furthermore, possible fingerprints
on the locking arm and/or dirt distortions are out of sight in the locking position.
[0020] Further advantageous embodiments are represented in the dependent claims.
[0021] The invention will be further elucidated on the basis of an exemplary embodiment
which is represented in a drawing.
[0022] In the drawing:
Fig. 1 shows a schematic perspective view of a locking module of a light fitting module
according to the invention in the release position;
Fig. 2 shows a schematic perspective view of the locking module of Fig. 1 in the locking
position;
Fig. 3 shows a schematic perspective view of a light fitting module according to the
invention; and
Fig. 4 shows a schematic front view of a light fitting module according to the invention
fastened in a channel section.
[0023] It is noted that the figures are only schematic representations of advantageous embodiments
which are represented by way of non-limiting exemplary embodiment. In the figures,
identical or corresponding parts are designated with the same reference numerals.
[0024] Fig. 1 shows a locking module 1 of a light fitting module according to the invention
which can be fastened to a light fitting module 2 as shown in Fig. 3 and Fig. 4. Different
designs of light fitting modules 2 are possible. For instance, the light fitting module
2 may be designed as a diffusor plate, shown in Fig. 3, or the light fitting module
may be designed as a lamp with a reflector (shown in Fig. 4). Also, the light fitting
module may for instance be designed as a spotlight, a blind plate or as an optic.
[0025] The locking module 1 is connected with the light fitting module 2 via a mounting
frame 3. The light fitting module 2 is fastenable in a fitting frame designed as a
channel section 4. The channel section 4 can be mounted in or against the ceiling.
Also, the channel section 4 can be designed in a wall or axle pendant mounting.
[0026] The locking module 1 comprises a locking arm 5 which is adjustable between a stable
release position in which the locking arm 5 releases the light fitting module 2 for
mounting and/or demounting in the channel section 4 and a stable locking position
in which the locking arm 5 locks the light fitting module 2 in the channel section
4. The locking module 1 with the locking arm 5 in the release position is shown in
Fig. 1. The locking module 2 with the locking arm 5 in the locking position is shown
in Fig. 2. By providing the locking arm 5, the light fitting module 2 can be mounted
in the channel section 4 and locked in a simple manner. Moreover, it can be perceived
relatively easily whether the light fitting module 2 is locked in the channel section
4.
[0027] It is noted here that 'stable' is understood to denote that the locking arm remains
in the release position or the locking position without autonomously adjusting therefrom
to a different position. Thus the release position and the locking position form a
stable, static position.
[0028] A light fitting module 2 can comprise a plurality of locking modules 1. Also, a single
locking module 1 may be provided with different locking arms 5. Thus, for instance,
in Fig. 3 and Fig. 4 a locking module 1 is shown which is provided with a locking
arm 5 on both sides of the mounting frame 3.
[0029] In the exemplary embodiment of the light fitting module 2 as shown in Fig. 3, the
locking arm 5 is pivotably fastened to the light fitting module 2 via the mounting
frame 3. The locking arm 5 may also be slidably fastened to the light fitting module
2. Optionally, the locking arm 5 may also be connected directly to the light fitting
module 2. Thus, the locking module 1 could be designed as an integral part of the
light fitting module 2.
[0030] As for instance shown in Fig. 4, the locking module 1 comprises an elastic element
6 for cooperation with the locking arm 5, the elastic element 6 being configured for
clamping engagement in the channel section 4. Fig. 4 shows a locking arm 5 in the
release position and a locking arm 5 on the opposite side of the channel section 4
in the locking position. The elastic element 6 engages through the spring force behind
a tooth 7 of the channel section 4. In this way, in the release position the light
fitting module 2 can be mounted in the channel section 4. By thereupon adjusting the
locking arm 5 into the locking position, the elastic element is fixed against the
channel section and the light fitting module 2 is locked in the channel section 4.
[0031] Advantageously, the elastic element 6 is designed as a spring 6; in this exemplary
embodiment the spring is designed as a leaf spring.
[0032] In Fig. 1 and Fig. 2 it is shown that the locking arm 5 is provided with a catch
8 for fixing the elastic element. By fixing the spring 6 in the locking position,
spring action in the locking position is prevented and the light fitting module 2
can be locked in the locking position in the channel section 4. As a result, the elastic
element 6 can be made of relatively light design. The elastic element 6 can be made
sufficiently elastic for the light fitting module 2, in the release position, to be
mounted in the channel section 4. Via the catch 8 the spring action can be blocked
in the release position, so that the catch 8 contributes to the locking of the light
fitting module 2.
[0033] In the exemplary embodiment of Fig. 1 and Fig. 2, it is shown that the elastic element
6 has an opening 9 through which the catch 8 engages in the locking position. As a
result, in the locking position, the spring action of the elastic element 6 can be
blocked better, so that the locking module 1 can be made of relatively robust and
thin design. Advantageously, the catch 8 engages through the opening 9 in the release
position as well. In this way, the locking module 1 can be made of more reliable design,
in that a situation can be prevented where the catch 8, when adjusting the locking
arm from the release position to the locking position, for instance, cannot engage
through the opening 9. Conversely, a situation can be prevented where the catch 8,
when adjusting the locking arm 5 from the locking position to the release position,
is hooked in the locking position. By also providing the mounting frame 3 with an
opening corresponding to the opening 9 of the elastic element 6, the locking module
1 can optionally be made of still more compact design. Instead of a catch 8 and an
opening 9, also a guide means may be provided on the locking arm 5, which is guided
in a guideway on the elastic element 6. Optionally, also a protrusion (for instance
a lug) may be provided which cooperates with a groove on an elastic element 6.
[0034] The locking arm 5, as for instance shown in Fig. 1 and Fig. 2, is provided with an
operating projection 10 for manually operating the locking arm 5 for adjusting the
locking arm 5 between the release position and the locking position. In this way,
the locking arm 5 can be engaged by hand in a simple manner, and no tool is needed,
for instance, to mount and lock the light fitting module 2 in the channel section
4. Nor is any tool needed to take the light fitting module 2 out of the channel section
4. Via the operating projection 10, the locking arm 5 can be engaged and be adjusted
from the locking position to the release position, so that the spring action is released
and the light fitting module 2 can be taken out of the channel section 4.
[0035] Fig. 4 shows a locking module 1 where, in the locking position, the locking arm 5
is folded practically completely into the channel section 4. In this way, elegantly,
the locking arm 5 can be concealed from view. Only the operating projection 10 of
the locking arm 5 remains visible and accessible to allow the locking arm 5 to be
operated and returned into the release position, for instance when the light fitting
module 2 is taken out of the channel section 4.
[0036] To mount a light fitting module 2 in a channel section 4, the light fitting module
2 can be provided with a locking module 1. This locking module 1 can be a separate
part which can be fastened to the light fitting module 2 for instance through a screw,
clamp, snap or punch connection. Also, the locking module 1 may be designed as an
integral part of the light fitting module 2.
[0037] For mounting of the light fitting module 2 in the channel section 4, the light fitting
module 2 is provided with a locking module 1. The locking arm 5 of the locking module
1 is brought into the release position. The light fitting module 2 can now be mounted
in the channel section 4. If the locking module 1 is provided with an elastic element
6, this elastic element 6 cooperates with the channel section 4, preferably with a
tooth 7 of the channel section 4. However, the locking module 1 can also be designed
without elastic element 6. In that case, the locking arm 5 may be provided at one
end with, for instance, a projection which in the locking position cooperates with
for instance the tooth 7 of the channel section 4. By engaging the locking arm 5 at
the operating projection 10 by hand, the locking arm 5 can be brought into the locking
position. In the locking position, the locking arm 5 is accommodated practically completely
in the channel section 4, and only the operating projection 10 will remain accessible.
The light fitting module 2 is now locked in the channel section 4. The channel section
4 with light fitting module 2 can thus be given a relatively level finish in an aesthetic
manner. Optionally, the locking module 1 in the locking position of the locking arm
5 can cooperate with for instance a section hook of the channel section 4 to prevent
lateral yield of sidewalls of the channel section 4. In this way, the channel section
can be fixed sideways, in a direction substantially transverse to the longitudinal
direction, for instance when the locking arm 5 is provided at one end with a projection
which in the locking position cooperates with, for instance, the tooth 7 of the channel
section. Also, in the locking position of the locking arm 5, the mounting frame 3
may hook, for instance via a protrusion or an extension of the mounting frame 3, behind
a section hook, so that lateral confinement of the channel section 4 can be achieved.
[0038] Optionally, the locking arm 5 may also be designed as a lever. As a result, the elastic
element 6 may be made, for instance, of lighter design, in that an arm of the lever
can, for instance, support the elastic element 6 in the spring action in the release
position.
[0039] The invention is not limited to the exemplary embodiments represented here.
[0040] Thus, the locking arm may be designed as a separate part which can for instance be
fastened directly onto a light fitting module, for instance through punching, snap-fitting
or screwing. Also, the elastic element 6 may be designed not only as a leaf spring
but also, for instance, as a resilient lip or a resilient hook. Optionally, a torsion
spring or a linear spring is also possible.
[0041] Furthermore, the fitting frame may be designed not as a channel section but differently,
for instance as a substantially rectangular block which on a long side comprises a
receiving space for receiving one or a plurality of light fitting modules. Thus, the
rectangular block may be manufactured from sheet steel, formed as a folded section
or as a beam in which openings are provided for cooperation with the locking arm.
[0042] Many variants will be clear to those skilled in the art and are understood to be
within the scope of the invention as set forth in the following claims.
1. A light fitting module fastenable in a fitting frame, wherein the light fitting module
comprises a locking module, provided with a manually operable locking arm which is
adjustable between a stable release position in which the locking arm releases the
light fitting module for mounting and/or demounting in the fitting frame, and a stable
locking position in which the locking arm locks the light fitting module in the fitting
frame.
2. A light fitting module according to claim 1, wherein the locking arm is pivotably
fastened to the light fitting module.
3. A light fitting module according to claim 1 or 2, wherein the locking module for the
purpose of cooperation with the locking arm comprises an elastic element, which is
configured for clamping engagement in the channel section.
4. A light fitting module according to claim 3, wherein the elastic element is a spring.
5. A light fitting module according to claim 4, wherein the spring is a leaf spring.
6. A light fitting module according to any one of claims 3-5, wherein the locking arm
is provided with a catch for fixing the elastic element in the locking position.
7. A light fitting module according to claim 6, wherein the elastic element is provided
with an opening through which engages the catch in the locking position of the locking
arm.
8. A light fitting module according to any one of the preceding claims, wherein the locking
arm is provided with an operating element for manually operating the locking arm for
adjusting the locking arm between the release position and the locking position.
9. A light fitting module according to any one of the preceding claims, wherein the locking
arm is designed as a lever.
10. A light fitting module according to any one of the preceding claims, wherein the locking
module further comprises a mounting frame on which the locking arm is arranged.
11. A light fitting module according to claim 10, wherein the elastic element is fastened
to the mounting frame.
12. A light fitting module according to any one of the preceding claims, wherein the locking
module in the locking position of the locking arm cooperates with the fitting frame
for laterally fixing a sidewall of the fitting frame.
13. A light fitting module according to claim 12, wherein the locking module in the locking
position of the locking arm cooperates with the fitting frame for fixing an intermediate
distance between sidewalls of the fitting frame.
14. A light fitting module according to any one of the preceding claims, wherein the locking
arm in the locking position is practically completely folded into the fitting frame.
15. A fitting frame provided with a light fitting module according to any one of claims
1-14.