Fastening device for a flexible tubular lighting device, as well as arrangement

专利摘要:
The invention relates to a fastening device for a flexible tubular lighting device (1) with a first (3) and a second end (4). The fastening device is designed for fastening the tubular lighting device (1) at least at the first (3) and second end (4) and has a first end fastening device (6; 6 '; 6 ") for attaching the tubular lighting device (1) at the first end (3) and a second end fastening device (36; 36a-d) for fastening the tubular lighting device (1) to the second end (4). The fastening device is set up in such a way that the tubular lighting device (1) can be supplied with electrical current for its operation at the first end (3). Furthermore, the fastening device is designed in such a way that the tubular lighting device (1) can be arranged and fastened in space in a selectable of possible, in particular three-dimensional, shapes. The invention further relates to an arrangement (100; 200) comprising such a fastening device and a flexible tubular lighting device (1) which is fastened in the room by means of the fastening device.
公开号:AT523582A2
申请号:T50264/2020
申请日:2020-03-31
公开日:2021-09-15
发明作者:Hierzer Andreas
申请人:H4X E U；
IPC主号:

专利说明:

Fastening device for a flexible tubular
Lighting device, as well as arrangement
FIELD OF THE INVENTION
The invention relates to the field of lighting devices and in particular to a fastening device for a lighting device. It also affects the
Invention an arrangement with such a fastening device.
TECHNICAL BACKGROUND
Although the invention can be useful in many areas in which the achievement of a lighting effect is desired, the invention and the problems on which it is based are to be used below using the example of a lighting device for achieving an aesthetic lighting effect, in particular in an interior
room of a building, are explained in more detail.
It is generally known to provide lights or luminous elements in an interior of a building such as a room, not only to illuminate the room, ie to brighten it, but also for the purpose of achieving an aesthetic effect and / or the light emission in to design different areas of the room differently. With regard to a flexible, unimpeded design of the light effects, however, exist in conventional
Lighting equipment restrictions that it would be desirable to overcome.
SUMMARY OF THE INVENTION
Against this background, the invention is based on the object of a fastening
specify transmission device that makes it possible to use a flexible lighting device, especially
special tube-like shape ("light tube"), to be arranged and fastened in a simple, expedient manner in the room. In particular, the aim here is to achieve an effect that can be designed as freely as possible by means of a “light tube” and to at least partially overcome the limitations of conventional construction methods. A correspondingly improved arrangement with a flexible one is also intended
Lighting device that is fixed in the room can be specified.
According to the invention, this object is achieved by a fastening device with the features of claim 1 and / or by an arrangement with the features
len of claim 20 solved.
A fastening device for a flexible tubular lighting device with a first and a second end is proposed. The fastening device is designed for fastening the tubular lighting device at least at the first and the second end. Here, the fastening device has a first end fastening device for fastening the tubular lighting device to the first end and a second end fastening device for fastening the tubular lighting device to the second end. The fastening device is also set up in such a way that the tubular lighting device can be supplied with electrical current for its operation at the first end. In addition, the fastening device is designed in such a way that the tubular lighting device is in a selectable of possible, in particular three-dimensional, shapes of the same
Space can be arranged and fastened.
In addition, an arrangement comprising such a fastening device and a flexible tubular lighting device with a first and a second end is proposed, the tubular lighting device with-
by means of the fastening device in space, and in particular following a three-dimensional shape, is fastened.
One idea on which the invention is based is to use the fastening device to enable a shape-free and preferably three-dimensional design of flexible lighting devices, in particular flexible "light tubes", in space by providing a fastening at least at the first and the second end of the lighting device and In addition, care is also taken for the supply of electrical power. In particular, with the help of the free design of the shape of the lighting device, restrictions, as with conventional
given construction methods are to be overcome.
In addition, the fastening device according to the invention enables an aesthetic and appropriate fastening of a tubular lighting device. The attachment is provided at least at the first and the second end of the lighting device, and thus at defined locations of the same, which can have an aesthetic and decorative effect. In addition, the electrical supply of the lighting device is ensured at the same time via the first end. The first and second end fastening devices contribute to the shapeless design of the lighting device,
which make it possible to attach the first and second ends separately from one another, and in this way to influence the shape and lighting effect achieved by the lighting device, which can be both illuminating and decorative.
to take river.
Advantageous refinements and developments of the invention emerge from the further subclaims and from the description with reference to FIG
the figures.
In one embodiment, the first end fastening device has a mounting part which is provided at the first end on the tubular lighting device
or can be fastened to the tubular lighting device at the first end.
Furthermore, the mounting part is on an element which, in particular, is plate-shaped
is designed, and which can be, for example, a plate component of a ceiling or a wall or some other construction, can be clamped in place. In this way, an expedient and simple and easily detachable attachment in the area of the first end of the tubular lighting device is made possible, for example on the plate component, which can be a component of a false ceiling or a drywall. In addition, the clamped fastening with the help of the assembly part enables an advantageously unproblematic supply of the tubular lighting device with electrical energy, for example from the rear area of the false ceiling or drywall, i.e. from the area between the false ceiling and the raw or solid ceiling or the drywall and the Raw or solid wall, her-
can be added.
In a further embodiment, the mounting part has at least one clamping element which can be moved by means of a mechanism in order to effect the clamping fixation. In particular, the mechanism can be a screw mechanism. The clamping fixation can thus be brought about in a targeted and defined manner by an operator. In addition, one of these
term mechanism, for example, a suitable setting of the clamping force can be effected for a reliable fastening.
According to a further embodiment, the clamping element is designed like an arm or a wing and is in engagement with a screw element that can be actuated by the operator. The mounting part is also provided with a stop or with stops for the clamping element. In this case, the stop or stops limit or limit a pivoting range of the clamping element when it rotates together with the screw element, the clamping element abutting against the stop or one of the stops and simultaneous rotation of the screw element along the axis of the screw element
this is movable. In this way, it is possible, the clamping element along the
To move the screw element to effect the clamping fixation of the mounting part, or to loosen the mounting part again if necessary. The provision of a stop or stops for realizing a pivotability of the clamping element within a limited angular range together with the rotation of the screw element, preferably within an angular range <360 degrees, advantageously makes it possible to move the clamping element relative to a component
of the mounting part on which the screw element is mounted, swivel out or swivel in. Thus, for example, the assembly part can be partially
tion introduced into a plate-shaped element and then by means of rotation of the screw element, the clamping element can first be swiveled out in order to engage behind the plate-shaped element. A further rotation of the screw element can then be undertaken in order to bring about a movement of the clamping element along the screw element and a clamping fixation of the mounting part on the plate-shaped element. Here, the clamping element can preferably be attached to the plate-shaped element from a rear side.
get to the situation. A concealed and inconspicuous clamping fastening in the region of the first end of the tubular lighting device is thus advantageously possible. Especially with a view to the electrical supply at this end, the detachable
speed of attachment is also advantageous.
In particular, in a further development, the mounting part can be designed with a protrusion, which is intended to rest against the, in particular plate-shaped, element, for example in an edge region of an opening of the, in particular, plate-shaped element, through which the mounting part can be partially passed for fastening the first end . Here, the mounting part can in particular be designed in such a way that the clamping element can be brought into a position together with the screw element by pivoting when it rotates, in which the clamping element engages behind the especially plate-shaped element and in particular the edge of the opening, and the clamping element engages behind it
on another side of the particular plate-shaped element than the over-
stand is located.
In a further development, the mounting part has two or more clamping elements. This results in an even more reliable clamping fixation in the area of the first
Reached the end.
In an alternative embodiment, the first end fastening device is designed for fastening the tubular lighting device to the first end by means of magnetic force. The fastening by means of magnetic force can also be designed to be easily detachable, for example also to vary a position of the first end. In addition, the provision of an opening in the element, for example the plate-shaped element, e.g. the false ceiling or drywall, may advantageously not be necessary if the power supply for the tubular lighting device is not required for a continuous line to
game by means of induction, is provided.
For example, in a further development, the first end fastening device can have an, in particular ferromagnetic and / or magnetized, built-in element, which is in particular designed in the form of a strip or plate, the built-in element being intended for installation in a coupling area. Here
For example, the built-in element can be provided in particular for superficial or near-surface installation in a ceiling or a wall or some other construction. In this development, the first end fastening device has a
at the first end on the tubular lighting device provided or on the first end attachable to the tubular lighting device mounting part, wherein the tubular lighting device at the first end by means of
magnetic force between the mounting part and the installation element in the coupling area can be fastened.
In one embodiment, the mounting part has the first end fastening device
7758
a through opening, at least in one area of the through opening the first end of the tubular lighting device at least partially
wise can be recorded. This enables a reliable and aesthetic coupling of the mounting part to the lighting device.
In particular, the mounting part can have a clamping device, for example a clamping screw, in order to clamp the first end of the tubular lighting device in the through-opening. For example, the through opening can be formed at least in sections with a circular cross section. In a development, a cross section of the through opening can essentially correspond, at least in sections, to an outer cross section of the first end of the tubular lighting device. The tubular lighting device can thus advantageously be coupled to the mounting part in a simple and expedient manner. In addition, the through opening of the mounting part in particular makes it possible, for example, to lead a power supply line, for example a cable, out of the mounting part at the first end of the tubular lighting device on a rear, concealed side of the mounting part.
In a further advantageous embodiment, the second end fastening device is for fastening the tubular lighting device to the second end
formed by means of magnetic force.
In particular, the tubular lighting device can be fastened at the second end to a ceiling or a wall or another surface by means of magnetic force. This enables flexible attachment of the second end and thus contributes advantageously to the variable, shape-free design of the tubular lighting device. For example, the second end can be easily detached and reattached in a modified position. Thus, the decorative effect of the
Vary the “light tube” in a simple and effective way.
In a further development, the second end fastening device has an end piece provided at the second end of the tubular lighting device or attachable at the second end to the tubular lighting device, as well as an, in particular ferromagnetic and / or magnetized, built-in element, which is designed in particular in the form of a strip or plate , on. The built-in element is intended for installation in a coupling area, in particular for installation on the surface or close to the surface in a ceiling or wall or some other construction. The tubular lighting device can be fastened to the second end in the coupling area by means of the effect of magnetic force between the end piece at the second end and the installation element. Thus, a magnetic attachment succeeds in a particularly expedient manner, in which, for example, the magnetic coupling along a preferably invisibly built-in strip or plate-shaped built-in element is enabled and the positioning in the area of this built-in element can be varied in order to change the decorative lighting effect.
In particular, the end piece can have a permanent magnet at the second end.
In an alternative embodiment, the second end fastening device is designed for mechanical fastening and / or for non-magnetically adhering fastening of the tubular lighting device to the second end. This also makes it possible to fasten the second end in an expedient manner in order to achieve a shape-free design of the light tube. Such fastenings can also be implemented in a simple manner. In particular, the tubular lighting device at the second end can be mechanically and / or non-magnetically attached to a ceiling or a wall or another surface.
be attached in a tending manner.
In a further development, the second end fastening device can be used for fastening
of the tubular lighting device at the second end by screwing or by means of a Velcro connection or by means of an adhesive connection or by means of a pressure difference. Here, for example, the screwing can be viewed as a mechanical fastening, the Velcro connection also as a mechanical and, when considering the Velcro connection as a whole, also as a non-magnetically adhesive fastening, and the adhesive connection and the fastening by means of a pressure difference can each also be viewed as a non-magnetically adhesive fastening . The attachment by means of a pressure difference can be accomplished, for example, by means of one or more suction cups. Expanse
Different types of fastening can also be considered.
In particular, fastening by means of an adhesive connection, by means of suction cups or by means of a Velcro connection can be advantageous, for example, in the home area. The Velcro connection also offers the advantage of easier detachability, whereas suction cups are advantageous for fastening on smooth surfaces
could be.
In a further alternative embodiment, the second end fastening device has an end piece which is provided at the second end on the tubular lighting device or can be fastened at the second end to the tubular lighting device and which is attached to an, in particular plate-shaped, element, for example a plate component of a ceiling or a wall or another construction, can be clamped. This means that the
Advantages of a clamping fastening already explained above can be achieved.
In a further development, the end piece of the second end fastening device can have a recess or through-opening, the second end of the tubular lighting device being at least partially receivable in at least a part of the recess or through-opening. The end piece
can in a further development with a clamping device, for example a
Clamping screw, be equipped to clamp the second end in the recess or through opening of the end piece. An inner cross-section of the recess or the through opening of the end piece can, for example, be circular. In particular, a cross-section of the recess or through-opening of the end piece, at least in a section thereof, can be essentially an outer cross-section of the second end of the tubular light-emitting element
direction correspond. The tubular lighting device can thus be coupled to the end piece in a simple and expedient manner
It should be pointed out that in embodiments of the invention, different combinations of the above-described configurations of the first and second end fastening devices are conceivable and can be advantageous. A clamping fixation in the area of the first end combined with a magnetic attachment in the area of the second end is a preferred combination, wherein
however, other combinations may also be useful.
In a further embodiment, the fastening device has at least one intermediate fastening device, which can be arranged at any point between the first and second end along the tubular lighting device in order to attach the tubular lighting device to an additional location in the room. Fastening at an additional point in the room, or at several additional points in the room, with the help of one / more intermediate fastening devices enables the shapes of the tubular lighting device in the room, and in particular three-dimensional in the room, to be designed even more precisely and freely. A multitude of three-dimensional shapes of the "light tube", not only along ceiling surfaces, wall surfaces or other surfaces, but also, for example, floating in the room, becomes even better
possible. In this way, for example, special lighting effects can also be achieved.
In particular, the intermediate fastening devices can be in different
Configurations different degrees of freedom of the tubular lighting device in space, and for example different numbers of such freedom
straight, fix.
In one embodiment, the intermediate fastening device is designed with a ring-like holding component which is set up to enclose the tubular lighting device. This ensures reliable fastening of the hose
shaped lighting device achieved at the additional location.
In one development, an inner diameter of the ring-like holding component is preferably greater than an outer diameter of the tubular lighting device. This can make it possible to move or displace the tubular lighting device - the “light tube” - in relation to the ring-like holding component, for example in the longitudinal direction of the
Lighting equipment.
In a further embodiment, the intermediate fastening device is designed with a holding component in the form of a clamp, which is set up to partially encircle the tubular lighting device. In particular, the holding component in the form of a clamp can have two legs which are designed to come into clamping contact with an outside of the tubular lighting device. In this way, reliable fastening of the tubular lighting device at the additional location and, in particular, also fixing in the longitudinal direction of the lighting device can be achieved. In addition, it can be made possible that the light output of the tubular lighting device is not interrupted by the holding component at the additional location at least in a section of the circumference of the lighting device. That way one can
further, special aesthetic effect can be achieved.
In one embodiment, the intermediate fastening device is for hanging the
tubular lighting device formed by a ceiling or some other construction. Thus, the additional location at which the tubular lighting device is held with the aid of the intermediate fastening device can be located within the room - away from the ceiling and / or wall - whereby a free three-dimensional shape design of the tubular lighting device can still be achieved
becomes better possible.
In a further embodiment, the intermediate fastening device is designed with a component or assembly that can be fastened in a mechanical and / or non-magnetically adhering manner in an assembly area. The assembly area can be provided, for example, in the area of a wall or a ceiling or another surface or on some other construction. That way you can
an attachment of the tubular lighting device in different directions, for example fixed relative to the mounting area, can be achieved, which in turn is advantageous for the fixation of a selected three-dimensional shape of the "light-
hose ”can contribute.
In further developments, the intermediate fastening device can be connected with a screw connection or by means of a Velcro connection or by means of an adhesive connection.
bond or be formed by means of a pressure difference in a mounting area attachable component or assembly. With regard to these types of fastening and their advantages, reference is made to the statements above on the second end fastening device. The advantages mentioned above can also be achieved analogously with a view to the intermediate fastening device. Other types of fastening can also be considered.
According to a further embodiment, the intermediate fastening device is set up for the fastening of the tubular lighting device at the additional location by coupling a component or assembly of the intermediate fastening.
to enable adjustment device in an assembly area by means of magnetic force. Of the
The mounting area can in turn be provided in the area of a ceiling or wall or another surface or on another construction. Fastening by means of magnetic force is advantageous, especially since it can be designed in such a way that it is easy to detach. Also can be the place of attachment without leaving behind
visible traces in the assembly area can be varied.
In a further development, the intermediate fastening device can have an, in particular ferromagnetic and / or magnetized, built-in element, which is designed in particular in the form of a strip or plate, the built-in element for, in particular superficial or near-surface installation in the assembly area, in particular in a ceiling or a Wall or other construction. In this case, the tubular lighting device can be fastened at the additional location by means of the action of magnetic force between the component or assembly and the built-in element. In this respect, too, reference can be made to the advantages already explained above in connection with the second end fastening device, the advantages mentioned with a view to the
Intermediate fastening device can be achieved analogously.
In particular, the component or assembly of the intermediate fastening device, which, for example, interacts magnetically with the installation element
can occur, have a permanent magnet.
Intermediate fastening devices corresponding to the configurations explained above can be developed in various, arbitrary ways and in a wide variety of numbers with the first and second end fastenings described above.
supply facilities are combined. In a further embodiment, the fastening device is for fastening
a tubular lighting device with a length of up to about 10 meters
set up. Other lengths of the tubular lighting device, also called
Light hose can be referred to, but are also conceivable.
The aforementioned, in particular ferromagnetic and / or magnetized / magnetizable, built-in elements can each be configured in particular as a metal plate or as a metal strip. This thus enables the magnetic attachment of the respectively mentioned assembly part or end piece or the component or assembly, for example under the effect of the permanent
magnets.
The built-in elements can be designed in various shapes and sizes. For example, the built-in element can be used as a straight
nig running or curved strips or instead as a polygonal or round plate.
In particular, it can be provided that the tubular lighting device has a substantially constant cross section, in particular a substantially constant round cross section, for example a circular cross section, along its length.
The above configurations and developments can be combined with one another as desired, provided that it makes sense. Further possible configurations, developments and implementations of the invention also include combinations of features of the invention that are not explicitly mentioned above or below with regard to the exemplary embodiments. In particular, the person skilled in the art will also use individual aspects as improvements or additions to the respective basic form
add to the present invention. It should also be noted that the above in connection with the
fastening device described configurations and developments the same
can be judged to be applied to the arrangement according to the invention.
CONTENTS OF THE DRAWING
The invention is explained in more detail below with reference to the exemplary embodiments specified in the schematic figures of the drawings. It shows here:
1 shows an arrangement according to a first exemplary embodiment of the invention;
2 shows an arrangement according to a second exemplary embodiment of the invention;
3 shows a tubular lighting device which is not yet fastened in space, with a mounting part of a first end fastening device at a first end and an end piece of a second end fastening device.
direction at a second end;
FIG. 4 shows the mounting part in the area of the first end according to FIG. 3, in an enlarged view, together with a schematically indicated plate
shaped element;
5 shows a longitudinal section through the first end of the tubular
Lighting device and the mounting part according to FIGS. 3 and 4;
6 shows the assembly part in the area of the first end of the tubular lighting device according to FIGS. 3-5 together with clamping elements, with a cover element being omitted, viewed from one side which
state of construction is facing a room;
7 shows a further, perspective illustration of components of the assembly
partly of FIGS. 3 to 6, without the cover element, to illustrate the mode of operation of the clamping elements;
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
Fig.
10
11
12th
13th
14th
15th
16
17th
- 16 -
a mounting part and a first end of a tubular lighting device, and also a schematically indicated plate-shaped element, according to a variant, wherein the first end of the tubular lighting
device is not yet coupled to the mounting part;
the mounting part of FIG. 8 in a state in which the clamping elements thereof are pivoted in;
the mounting part of FIG. 8 with a pivoted-out clamping element in
another view;
a first end fastening device according to a further variant;
a section of the tubular lighting device from Fig. 3 in the loading
rich of the second end, as well as the end piece arranged at the second end, In a further variant;
a representation analogous to FIG. 12, according to yet another variant;
a representation analogous to FIG. 12, according to yet another variant;
a representation analogous to FIG. 12, according to yet another variant;
an intermediate fastening device with a ring-like retaining component
nente and a section of a tubular lighting device;
an intermediate fastening device with a ring-like retaining component
component and a magnetically connectable assembly;
18 shows the magnetically connectable assembly of FIG. 17 in an exploded
depiction;
19 shows a holding component in the form of a clamp for another intermediate
fastening device;
FIG. 20 shows an intermediate fastening device with the holding component of FIG. 19,
designed as a suspension;
21 shows a further intermediate fastening device with the holding component of FIG. 19, designed for magnetic coupling, in an explosion
opinion;
FIG. 22 shows a further illustration of the intermediate fastening device from FIG. 21; FIG.
and
23 shows a schematic longitudinal sectional view of the magnetically connectable end piece of the second end fastening device of FIG. 3.
The accompanying drawings are intended to provide a further understanding of the embodiments of the invention. They illustrate embodiments and, in conjunction with the description, serve to explain principles and concepts of the invention. Other embodiments and many of the advantages mentioned emerge with a view to the drawings. The elements of the drawings are
not necessarily shown to scale to one another. In the figures, identical, functionally identical and identically acting elements, notices
male and component - unless otherwise stated - each with the same
ben given reference numerals.
DESCRIPTION OF EXEMPLARY EMBODIMENTS
1 shows an arrangement 100 which is used to illuminate an interior space in a building and at the same time to produce a decorative, aesthetic light effect. The interior has walls 17 and an intermediate ceiling 16. The ceiling 16 can, for example, be designed as a construction with plate-shaped elements, such as a suspended plasterboard construction. The walls 17 can be solid or also by a construction built in front of a solid wall
be formed with plate-shaped elements, such as a plasterboard construction.
The arrangement 100 comprises a flexible, tubular lighting device 1, which can also be referred to as a “light tube” 1. The “light tube” 1 can have LEDs in its interior for generating light, with other inputs
directions for light generation are conceivable.
The lighting device 1 is arranged in space in a three-dimensional shape, following a curve running in three-dimensional space, the flexibility of the light tube 1 allowing a very large number of possibilities for arranging and shaping the light tube 1. The flexible tubular lighting device 1 can be several meters long, for example up to about 10 meters long. Shorter or longer lengths are also conceivable. In a preferred example, the cross section of the lighting device 1 is constant and round along the entire length
formed, for example circular.
The arrangement 100 of FIG. 1 further comprises a fastening device by means of
which the lighting device 1 in the room, following the shape described, is attached. The fastening device provides a plurality of fastening options, at least the fastening of the tubular lighting device 1 in each case
at a first end 3 of the lighting device 1 and at a second end 4 of the
Enable lighting device 1. In the interaction of the fastening options provided by the fastening device, it makes it possible to arrange and fasten the flexible light tube 1 three-dimensionally in a selectable of the possible shapes, in other words “free of shape”. These are
a plurality of fastening devices provided, whose 0-
the lighting designer selectable combination and arrangement that allows flexible, free design of the course of the light tube 1.
An arrangement 200 according to a second exemplary embodiment with a plurality of flexible tubular lighting devices 1 and fastening devices by means of which
the lighting devices 1 are each fastened in the room, is shown in FIG.
The fastening device, as shown in the arrangements 100, 200 for example
Is used, will be described in more detail below.
3 again shows a flexible tubular lighting device 1 with a first end 3 and a second end 4. The fastening device comprises a first end fastening device 6 for fastening the lighting device 1 to the first end 3 and a second end fastening device 36 for fastening the
Lighting device 1 at the second end 4.
The lighting device 1 is supplied with electrical power for its operation in the region of the first end 3 by means of a supply line 5 which is designed, for example, as a cable. Further devices which are used to supply the lighting device 1 with electrical energy by means of the cable 5 are not shown in greater detail in the figures. It goes without saying, however, that further devices known per se to the person skilled in the art for enabling, switching and / or controlling the supply of the lighting device with electrical current are included
Converter, a transformer or similar devices can be provided.
The first end fastening device 6 has a mounting part 10 which is fastened to the first end 3 of the lighting device 1. The mounting part 10 enables a firm, clamping fixation and thus fastening of the lighting device 1 in the area of its first end 3 on a plate-shaped element 15, see FIG. 4, which is, for example, a plasterboard panel component of the ceiling 16. The plate-shaped element 15 is not necessarily part of a ceiling 16, but can be part of a wall 17 or some other construction
be tion.
The mounting part 10 has a base component 11 on which two screw elements 28 are rotatably mounted, see FIGS. 4 to 7. A longitudinal axis 10a of the mounting part 10 essentially coincides with the longitudinal axis of the tubular lighting device
1 at its first end 3, to which the mounting part 10 is attached, together. Longitudinal axes 28a of the screw elements 28 are arranged offset radially with respect to the axis 10a relative to the axis 10a, but in the embodiment shown
Approximate example each arranged running parallel to the axis 10a.
The mounting part 10 also has two clamping elements 21, each of which is arm-like or wing-like, see FIGS. 4, 6 and 7. Each of the clamping elements 21 is in engagement with an associated one of the screw elements 28, for which each of the clamping elements 21 has a section 23 may have an internal thread in
which engages an external thread of the screw element 28.
The mounting part 10 further comprises a cover element 12, see in particular FIGS. 4 and 5, the cover element being designed in such a way that, in an installed state of the mounting part 10, it is on a visible side S of the plate-shaped element
15, and thus a section 11d facing the space to be illuminated and essentially cylindrical on the outside, as well as part of a plate-like protrusion 11a of the base component 11. The base member 11 is on the
The visible side S is thus covered by the cover element 12. The cover element 12
has for this purpose an inner, central, step-like through opening 13, the inner dimensions of which at an end of the cover element 12, which is distal in relation to the plate-shaped element 15 in the installed state, essentially corresponds to an outer cross-section of the light tube 1 and on an outer cross-section of the light tube 1 in relation to the plate-shaped element 15 in the In the installed state, proximal end of the cover element
element 12 corresponds to the outer contour of section 11d and protrusion 11a. On an outside that is visible in the assembled state, the cover element 12 has a tapering, rotationally symmetrical one that is curved in the longitudinal section of FIG. 5
Contour 14 on.
5 also shows that the tubular lighting device 1 is guided with its first end 3 through the through opening 13 of the cover element 12 and through a likewise central through opening 9 of the base component 11. The inner cross-section of the through opening 9, which extends through the section 11d, also essentially corresponds to an outer cross-section of the first end 3 of the lighting device 1. The cable 5 used for the power supply
can in this way be led out from the rear of the base component 11 into a space behind the plate-shaped element 15. The first end 3 of the tubular lighting device 1 is clamped in the through opening 9 for fastening by means of clamping devices, whereby in the example of FIG. 5 the clamping devices are one or more clamping screws 8, which are designed as grub screws or threaded pins in FIG , acts. The clamping screws 8 are provided in the area of the section 11d and are therefore accessible in the absence of the cover element 12. The screw elements 28 are also accessible from the visible side S for their actuation, for example by means of a screwdriver,
as long as the cover element 12 has not been put on (Fig. 6). When assembling the first end 3 of the light tube 1, the assembly
part 10 with a rear portion 11b of the base component 11 through a two-
for example round opening in the plate-shaped element 15 are passed through
in such a way that the supply line 5 and the clamping elements 21 are located on the rear side of the plate-shaped element 15, that is to say the non-visible side opposite the visible side S. In this state, the screw elements 28 are accessible without the cover element 12. The first end 3 of the light tube 1 was previously fixed to the mounting part 10 by clamping by means of the clamping screws 8. In order to fasten the mounting part 10 and thus the first end 3 of the lighting device 1 to the plate component 15, the screw elements 28 can be actuated by an operator. 6 shows the engagement geometry of the screw elements 28. A screw mechanism is thus provided, by means of which the clamping elements 21 can be moved in order to achieve the clamping fixation.
tion to effect on the plate member 15.
To insert the rear section 11b of the base component 11 together with the clamping elements 21 through the opening in the plate-shaped element 15, the clamping elements 21 are each in a position in which they are pivoted relative to the position shown in FIGS. This position of the clamping elements 21, which is not shown in the figures, corresponds to a basic position in which the elements 21 do not protrude radially outward over the round plate-like projection 11a with respect to the axis 10a, but rather swiveled radially inward as far as possible and thereby relatively to the edge of the protrusion 11a radially
are set back.
After inserting the section 11b of the base component 11 together with the clamping elements 21 into the aforementioned opening in the plate-shaped element 15, the operator can rotate each of the screw elements 28 from the visible side S, see FIG Pivot angular range about a longitudinal axis 28a of the assigned screw element 28, whereby the clamping elements 21 each outwards over an edge
of the protrusion 11a also protrude. In this way, the clamping elements 21 can each have an edge of the plate-shaped element 15 from its rear side
reach behind.
A further rotation of each screw element 28 by the operator causes the clamping element 21 assigned to the screw element 28 to move in the direction of arrow 22, see FIG to clamp. In this way, the first end 3 of the light tube 1 is fixed to the plate-shaped element 15, the protrusion 11a and the clamping elements 21
pending on element 15.
In particular, FIG. 7 clearly shows that the base component 11 has a surface which acts as a stop 31 and the pivoting range of the clamping element
21 limited together with the screw element 28 during rotation of the same. In a first end position, not shown in FIG. 7, the clamping element 21 is present
the stop 31 with a first side of the clamping element 21 on this and
does not protrude beyond the protrusion 11a, but is pivoted inward as far as possible in order to be able to introduce the section 11b through an opening which is smaller than the outer diameter of the protrusion 11a. In a two-
th end position, shown in Fig. 7, the clamping element 21 is with a second side in a further area of the stop 31 on this, whereby the further Ro-
tation of the clamping element 21 with the screw element 28 is prevented and instead with further rotation of the screw element 28 and simultaneous contact with the stop 31, the clamping element 21 moves along the axis 28a
of the screw element 28 is moved in the direction 22 in order to effect the clamping.
A variant of a first end fastening device 6 ', which can alternatively be used, for example, in the arrangement 100 or 200, is shown in FIGS. 8 to 10. The end fastening device 6' is also for a firm, clamping fixation
of the first end 3 of the tubular lighting device 1 designed and represents
a variant of the first end fastening device 6
Differences between the first end fastening device 6 'relative to the first end fastening device 6 are described, with the addition of the
Reference is made to the above statements.
A cover element on the visible side S is not shown in FIGS. 8-10, it is understood
however, that such a thing can be provided.
The first end fastening device 6 'also has a base component 11' on which two screw elements 28 'are mounted. Analogously to the example in FIGS. 3-7, longitudinal axes 28a 'of each of the screw elements 28 run essentially parallel to it
a longitudinal axis 10a 'of the end fastening device 6' and offset to this.
The first end 3 of the lighting device 1 can be clamped at the end fastening device 6 'in a central through opening 9', the inner cross-section of which essentially corresponds in sections to the outer cross-section of the first end 3 of the light tube 1, by means of clamping screws 8 '. See for example FIG. 10. In the variant according to FIGS. 8 to 10, however, after the base part 11 'has been inserted into an opening in the plate-shaped element 15, the clamping screws 8' are no longer accessible from the visible side S, but are in the installed state of the base component 11 'on a rear side of the element 15 opposite the visible side S. During assembly, the base component 11' is first clamped and thus coupled to the light tube 1 by means of the clamping screws 8 ' Opening in the plate-shaped element 15 can be introduced. In this state, the clamping elements 21 ', which are also designed like arms or wings in the variant of FIGS. 8-10, are in their pivoted-in state, as shown in FIG Protrusion 11a 'does not emerge, but
countries are set back relative to this.
The clamping elements 21 'and stops 31a', 31b 'are at the first end fastening
transmission device 6 'designed as described below.
Each clamping element 21 'has a section 23' which is formed with an internal thread. The internal thread of section 23 'engages with the external thread of screw element 28'. In the state of FIG. 9, in which each clamping element 21 'is in its pivoted-in state, a section 23' distal section of the clamping element 21 'is in contact with the stop surface 31b'. By rotating the screw element 28 ', the clamping element 21' can be moved away from the protrusion 11a ', while it still rests against the stop 31b'. Here, the clamping element 21 'can thus move against the direction of the arrow 22' (Fig. 8) along the screw element 28 '. In this way it can be achieved, for example, that the clamping element 21 'is removed sufficiently far from the protrusion 11a' to engage behind a plate-shaped element 15 of a given thickness. This movement can, for example, be carried out before or after the rear section 11b 'of the base component 11' has been inserted through the opening in the plate-shaped element 15, or the clamping element 21 'can be in the uppermost possible position or in an intermediate position, for example in the delivery state
Half of the free length of the screw element 28 'or similar are located.
For the clamping fixation of the base component 11 'and the mounting part 10' on the plate-shaped element 15, the screw element 28 'is then rotated by the operator in the opposite direction, for example as before using a screwdriver, see the accessible screw heads in FIG. 8 the clamping element 21 ', see the arrow 24' in FIG. 9, pivots about the axis 28a 'beyond the protrusion 11a'. The second stop 31a ’limits the swivel range of the clamping element 21’ to an angular range of <180 degrees. If thereupon the clamping element 21 'with a surface section adjacent to the section 23' rests on the stop 31a ', the clamping element 21' moves with further rotation of the screw element 28 'in the direction required for rotation 24'
led, along the screw element 28 'in the direction of the plate element 15, in
Direction of arrow 22 ', see FIG. 8. In this way, the mounting part 10' is clamped to the plate-shaped element 15 in a manner analogous to the example in FIGS. 3-7
and thus the attachment of the first end 3.
On a side facing the protrusion 11a 'and the plate-shaped element 15, see the example in FIGS. 8-10, the clamping element 21' can have an extension
25 'in such a way that between the screw element 28', which is in engagement with the section 23 ', and the extension 25' an undercut is created. This can help to achieve reliable clamping even with relatively thin plate-shaped elements 15. In addition, see Fig. 9, if desired, the clamping element can be locked in the lowest possible position of the clamping element 21 ', i.e. in its position which is closest to the protrusion 11a'
21 'can be achieved against unintentional pivoting out. For this purpose, the base component 11 'can be provided with a flat elevation 26' protruding from the protrusion 11a 'in the longitudinal direction 10a', behind which the extension 25 'can intervene, for example in a delivery state, when the clamping element 21' is attached to the
stroke 31b 'is pending.
For the sake of completeness, it should be pointed out that both in the first end fastening device 6 and in the first end fastening device 6 ', the clamping elements 21 and 21' are each designed in the same way and in the same way
are arranged and operable.
The end fastening device 6 'of FIGS. 8-10 also enables not only the firm clamping of the first end 3 of the light tube 1 to the plate-shaped element 15 and thus fastening to the ceiling 16 - or the wall 17 - but also the power supply of the lighting device 1 to the first end 3. For example, see Fig. 8-10, the through opening 9 'with a smaller diameter in a section 9a' along the longitudinal axis 10a 'of the mounting part 10' continues.
zen, so that the cable 5 (in Fig.
8-10 not shown) can be led out.
In particular in the variant of FIGS. 8-10, the rear section 11b 'of the base component 11' forms, in sections, a surface 11c 'as an outer surface, which is designed as a section of a cylinder surface. In the pivoted-in state of FIG. 9, the outside of the pivoted-in clamping element 21 'can e.g. B. each also at least approximately form a portion of this cylinder surface. In this way, the base component 11 'with swiveled-in clamping elements 21' can easily be guided through a circular opening in the plate-shaped element 15, the diameter of which essentially corresponds to the diameter of the cylinder that defines the shape of the surface 11c ', or is slightly larger. The protrusion 11a 'protrudes radially outward over the surface 11c' in such a way that against the protrusion 11a 'a clamping by means of the clamping
elements 21 'can be done.
In a further variant of the first end fastening device, it can be provided that the fastening of the tubular lighting device 1 in the space at the first end 3 is not made possible by clamping on the element 15, but by means of magnetic force. A first end fastening device 6 ″, which can also be used in the arrangements 100 or 200, is shown schematically in FIG. 11 by way of example. Here, a mounting part 10 ″ of the end fastening device 6 ″ is equipped, for example, with a ferromagnetic and / or magnetized element 7 ″, for example a permanent magnet. In the example in FIG.
side S is not visible. In the case of the first end fastening device 6 ″, the first end 3 of the light
hose 1 by means of magnetic force between the element 7 ″ and the
Component 99 can be held and fastened to the plate-shaped element 15.
For this purpose, the built-in component 99 can be, for example, a plate-shaped or strip-shaped, ferro-
have magnetic and / or magnetized built-in element.
In addition, the built-in component 99 can be designed as an induction device for supplying the tubular lighting device 1 with electrical energy in an inductive manner. A device 99a in the assembly part 10 ″ enables, through interaction with the built-in component 99, the transmission of electrical energy to the tubular lighting device 1 without a continuous line. The component 99 can in turn be supplied via a line 5. Such a first end fastening device 6 ″ can also be a
allow easy variation of the positioning of the first end 3.
Although the above-described examples of the first end fastening device 6, 6 ', 6' are advantageous, the mounting part could also be used in other variants
be fastened to the plate-shaped element 15 by screwing.
Reference is again made to FIGS. 1 and 2, which also show the second end 4 and the second end fastening device 36 provided in the region of the second end 4. The latter is used to attach the light tube 1 to the
second end 4 and will be described below.
In a preferred variant, the second end fastening device 36 is for fastening the tubular lighting device 1 to the second end 4 by means of
Magnetic force formed. This is shown schematically in FIG. 1.
The second end fastening device 36 has an end piece 40 which can be fastened to the second end 4 of the lighting device 1. Furthermore, the second end fastening device 36 has a ferromagnetic and / or magnetized built-in element 42 designed as a rather elongated plate or strip that
is built close to the surface in the wall 17, for example in a plate-shaped
Element 15 with which the wall 17 is formed. For example, the mounting element 42 can be a metal strip that can be installed anywhere in the wall 17, or in the ceiling 16 or other structure, for magnetic attachment of the end piece within the extent of the element 42 40 and thus the second end 4 of the light tube 1 to enable
chen. This is shown by way of example for the wall 17 in FIG. 1.
The more detailed design of the end piece 40 will be discussed in greater detail below. By means of the magnetic force between the end piece 40 and the installation element 42, the light tube 1 is at the second end 4 in one
Coupling area 44 can thus be fastened.
In a further variant it can also be provided that the second end fastening device 36 can be fastened to a plate-shaped element 15 in a clamping manner analogous to the end fastening device 6, 6 '. In particular, when the light tube 1 is supplied with electrical current via the first end 3, such a power supply is not required at the second end 4. Thus, as the second end fastening device 36, an analogous to the mounting part 10, 10 '
formed end piece be provided.
Further variants of the fastening device which can enable the tubular lighting device 1 to be fastened in the arrangements 100, 200 are shown in FIG
Figures 12-15.
Fig. 12 shows a fastening of the second end 4 of the tubular lighting device 1 in a mechanical manner, for example on a wall 17 or the ceiling 16 by screwing, the end piece 40a, for example, with a base part designed for fastening by screwing and a cover element essentially analogous to that Cover element 12 of FIGS. 3-7 can be formed.
Purely by way of example and schematically, two screws 41a are indicated in FIG. 12.
Another variant is shown in FIG. At the second end 4, an end piece 40b is provided, which is designed for fastening the second end 4 of the light tube 1 to the wall 17, or alternatively, for example, to the ceiling 16, by means of a Velcro connection. 13 shows Velcro connection elements 41b, the Velcro connection element 41b fastened, for example glued on, to the wall 17 being, for example, larger than the element 41b provided on the end piece 40b
can be in order to allow the positioning of the end 4 to be varied.
In a further variant, shown in FIG. 14, an end piece 40c can be attached to the second end 4 of the light tube 1, which also enables non-magnetic adhesion for attaching the lighting device 1 to the second end 4. The end piece 40c here has suction cups 41c. The suction
Cups 41c enable the second end 4 to be fastened to a particularly smooth surface, for example to the wall 17 or also to the ceiling 16. For example, fastening to a smooth glass, ceramic or stone surface is possible. The attachment by means of the suction cups 41c is carried out by means of negative pressure, i.
H. a pressure difference between the ambient pressure and the through the suction
cup enclosed volume.
In yet another variant, see FIG. 15, an end piece 40d is attached to the second end 4, the end piece 40d being designed with an adhesive surface 41d. The light tube 1 can thus be attached to the second end 4 by means of an adhesive connection
for example on the wall 17 or the ceiling 16.
Returning once again to FIGS. 1 and 2, the fastening device in each of the arrangements 100, 200 also has intermediate fastening devices which are used to fasten the light tube 1 at other points in the room, whereby the
Options for the design of the light tube 1 are further expanded.
Some examples of intermediate fastening devices 46a to 46g are shown schematically in FIGS. 1, 2 and 16-22. Each of the intermediate fastening devices 46a-g can be arranged at any freely selectable, free location between the first end 3 and the second end 4 of the lighting device 1 in order to hold the lighting device 1 at an additional location Z1 to Z9 and thus on
to fix this place additionally.
Examples of the intermediate fasteners 46a-46g are described in more detail below. Depending on the design, the intermediate fastening devices
device different degrees of freedom of the light tube 1 at one point of the same.
The intermediate fastening device 46a has a ring-like holding component 50 at the end of a rope 51. The ring-like holding component 50 completely encloses the tube-like lighting device 1 along its circumferential direction, wherein
in the example of FIGS. 1, 16 and 17, an inner diameter of the ring-like holding component 50 is greater than the outer diameter of the light tube 1
In this way, the ring-like holding component 50 does not lie closely on the circumferential side of the light tube 1, but rather loosely surrounds the light tube 1 in such a way that the light tube 1 rests on the inner circumference of the holding component 50 only in a lower area of the ring-like holding component 50, viewed in the vertical direction. This is e.g. in Fig. 16, the one variant 46f of the intermediate fastening device 46a
shows, can be seen. A movement of the light tube 1 in its longitudinal direction relative to the holding component 50, as well as a rotation therein relative to this, are thus possible.
with easily possible.
The intermediate fastening device 46a and its variant 46f in FIG. 16 are also designed for suspending the tubular lighting device 1 from the ceiling 16, or alternatively from another construction. In this way, the lighting device 1 is at the other point Z1 or Z9 in the room (see Fig. 1, 16)
held, with a lateral movement normal to the direction of the rope 51 possible
remain.
The intermediate fastening device 46a is set up to enable the light tube 1 to be fastened at the additional location Z1 by coupling an assembly 78 in a mounting area 85 to the ceiling 16 by means of magnetic force. For this purpose, the intermediate fastening device 46a has a ferromagnetic and / or magnetized built-in element 91 which, in the example of FIG. 17 schematically shows the installation element 91, for example a plate made of ferromagnetic material
Metal, e.g. made of iron, as well as assembly 78.
The assembly 78, see FIG. 18, includes a base element 79, a round, disk-shaped permanent magnet 80 with a central through opening, a screw 81 and a cover element 82 to be coupled, and is formed with a tapered shape along its longitudinal axis. In the area of the wider end of the base element 79, the latter has an essentially circular, flat recess which is designed to receive the permanent magnet 80 therein. The permanent magnet 80 can be fastened to the base element 79 by means of the screw 81, the last-mentioned recess of the latter having a central opening, for example with a thread, for screwing in the screw 81.
The lighting device 1 can be attached to the additional location Z1 by means of the action of magnetic force between the permanent magnet 80 and the built-in element 91. 17 shows that the cover element 82 covers the central area of the permanent magnet 80 and the screw 81. For example, the element 82 could be glued onto the permanent magnet 80. The element 82 could consist of a similar
Union material such as the base element 79 or the cover element 82
could be designed to be soft around the mounting area 85 in the case of the magnetic
To conserve coupling and, if necessary, repositioning.
The intermediate fastening device 46f of FIG. 16, on the other hand, is designed with an assembly 64 which is connected to the cable 51, the assembly 64 being mechanically fastened to the ceiling 16 in an assembly area 70. In this case, the assembly 64 is fastened in the assembly area 70 in particular by screwing on the component 64 by means of fasteners not shown in detail.
screws.
The intermediate fastening device 46c of FIG. 19 has a holding component 55 in the form of a clamp, the holding component 55 being set up to encompass the light tube 1 not completely, but only along part of the circumference thereof. The light emitting effect of the light tube 1 in the area of the clamp 55 is therefore not along the entire circumference of the light tube 1
interrupted, which in turn achieves a different optical effect.
The intermediate fastening device 46c, see also FIG. 1, can only be used for fastening at the additional points Z2 to Z5 with the clamp-shaped holding component 55 and an associated fastening screw (not shown in the figures) for mechanically fastening the clamp 55 ("clip"). on the ceiling 16 - or the wall 17 - be formed. This enables in the middle area of the light tube 1 of FIG. 1, for example, a fastening with relatively small distances between the positions
len Z2 to Z5 in a comparatively inconspicuous manner and with the light tube 1 guided close to the ceiling.
The holding component 55, which is in the form of a clamp, has two legs 60 which are arranged essentially symmetrically to one another and which are shaped, for example, in the shape of a segment of a circular arc and for this purpose, with their inner side in
clamping contact with an outside of the tubular lighting device
to kick. The two legs 60 are each curved in cross-section in such a way that they are adapted to the round cross-sectional shape of the hose-like lighting device 1, and are each connected to one another in one piece on one side by means of an intermediate section 61. The intermediate section 61 is straight in cross section and has a centrally arranged through opening 62 through which, for example, a screw for fastening the component 55, such as for the intermediate fastening device.
directions 46c shown in Fig. 1, can be passed.
20 shows a variant in which a holding component 55 according to FIG. 19 is connected via a cable 51 to an assembly 64 in order to form an intermediate fastening device 46d, which allows the tubular lighting device 1 to be suspended from the ceiling at an additional point in the room 16 or another construction. Here, the rope 51 can, for example, be passed through the through opening 62 and provided with a thickening at the end passed through it,
to establish the connection with terminal 55.
Analogously to the intermediate fastening device 46f shown in FIG. 16, the assembly 64 can be fastened to the ceiling 16 by screwing.
A variant of the intermediate fastening device 46d is shown in FIG. 2 with the intermediate fastening device 46g. In FIG. 2, the rope 51, which is connected at one end to a clamp-like holding component 57, which is preferably designed analogously to the holding component 55, is connected at the other end of the rope to a component 65, which in turn is mechanically attached to the ceiling in the assembly area 70
attached, e.g. screwed into it.
Another variant 46b of an intermediate fastening device is shown in FIG. 1. The intermediate fastening device 46b also serves to suspend the tubular lighting device 1 from the ceiling 16, and for this purpose has two
mechanically fastened to the ceiling 16 by screwing in the assembly area 70
Assemblies 64 on. A cable 51 is connected to each assembly 64, the cables 51 being connected at their other ends to an associated end of an elongated holding component 56. The holding component 56 is designed in the manner of a continuous profile within which the light tube 1 runs, for example, in a straight line. In this way, a varied effect can again be achieved. While the holding component 56 is essentially closed on the rear side 56a, the front side 56b opposite the side 56a is the
Holding component 56 open so that the light tube 1 shines out there.
The holding component 56 is preferably designed with a cross section that corresponds to that of the holding component 55 from FIG. 19, but the holding component 56 is very much longer than the component 55. For example, the holding component 55 can be a short section, the holding component 56 a significantly longer section, of an otherwise identical profile, in which the through-opening at a suitable point in the area of the section 61
tion (s) 62 for connecting e.g. the rope (s) 51 can be introduced.
A further variant of an intermediate fastening device 46e is shown in FIGS. 21 and 22. Here, the holding component 55 of FIG. 19 is also used, this being combined in FIGS. 21 and 22 with an assembly 78 'for magnetic fastening.
The assembly 78 'comprises a base element 79', a permanent magnet 80 and a screw 81. As with the assembly 78 in FIG. 18, the permanent magnet 80 is screwed to the base element 79 'by means of the screw 81. The base element 79 ′ is designed essentially analogously to the base element 79, but in the area of the tapered end of the base element 79 ′ for screwing in a screw 58
formed, by means of which the holding component 55 can be attached to the base element 79 '.
21 and 22 show no cover element 82 for the assembly 78 ', each
however, it should be understood that, analogously to the example in FIG. 18, a cover element 82, as in FIG. 18
described, could be provided.
By means of the intermediate fastening device 46e, the tubular lighting device 1 can be fastened at an additional location by coupling the assembly 78 'in the assembly area 85 by means of magnetic force, for example by means of magnetic force between the permanent magnet 80 and the built-in element 91. The built-in element 91 can be installed as in FIG be, or at another
Any place of the ceiling 16 or a wall 17 can be provided.
It should also be pointed out that the further mechanical and / or non-magnetically adhesive connections, as described by way of example for the second end fastening device with reference to Figs. or by gluing, can also be applied to the intermediate fastening devices 46a-g. In particular, the assembly 78 or the assembly 78 'for a Velcro connection analogous to FIG. 13 or for a connection with
by means of negative pressure analogous to FIG. 14 or for an adhesive connection analogous to FIG.
fall and the base element 79 or 79 'can be modified accordingly.
In addition, once again with reference to FIGS. 1 and 3, it should be noted that the second end fastening device 36, as shown in FIG made possible in the area 44 by the action of a magnetic force between the built-in element 42 and the permanent magnet 80. Here, the end piece 40 is provided with a recess corresponding to FIG. 21 or 18, in which the permanent magnet 80 is received and fastened with a screw 81, for example. If necessary, a cover element 82 can also be provided. That
End piece 40 can, for example, be a basic component 40 'with two parts, one
inner part and a cover element, wherein the inner part is equipped with the recess for the permanent magnet 80 and can also be designed with a recess or through opening approximately analogous to FIG. 5 for receiving the second end 4 of the light tube 1. A schematic representation is shown in FIG. 23, with a clamping screw 8 ″ for clamping the
second end 4 is shown schematically on the inner part.
In the arrangement of FIG. 1, the fastening devices 6 and 36, as well as the intermediate fastening devices 46a, 46b and 46c, are used by way of example. In Fig. 1, seen from left to right, a mechanical clamping and power supply at the first end 3 and thus a complete fixation at this end, followed by a magnetically attached rope suspension with a ring-like one, is thus required for fastening and shaping the light tube 1 by means of the first end fastening device 6 Holding component 50, furthermore “clips” 55 fastened mechanically by screwing to the ceiling 16 for fastening the light tube 1 to the ceiling in a section of the same, a cable suspension fastened mechanically by screwing to the ceiling 16 with the aid of the two assemblies 64, which the continuous, long “clip "56 includes, and at the second end 4 on the wall 17 a magnetic" end cap "in the form of the end piece 40 of the second Endbesti-
transmission device 36 is provided.
In the exemplary embodiments and variants described above, the built-in elements 42, 91, 99 can be designed in the most varied of shapes and sizes. A built-in element 42, 91 or 99 in the form of a straight strip or a rectangular or round plate may be advantageous, but is not
absolutely necessary. Instead, the installation element 42, 91 or 99 could be designed as a strip that follows an arcuate course or another curve.
In addition, it is not absolutely necessary to add a built-in element 42 or 91
use, although this may be beneficial. For example, suitable
Metallic elements, for example rail-like or plate-like elements, which form part of the equipment of the building interior or the wall or ceiling construction, to which a magnetic coupling by means of the permanent magnet 80 of the end fastening device 36 o0-
which one of the intermediate fastening devices, for example 46a, 46e, is possible.
The above-described variants of the first and second end fastening devices and the intermediate fastening devices can be combined in the most varied of ways in order to make any one of the large variety of possible three-dimensional shapes possible which the tubular lighting device 1 can assume in space. In addition, by means of the magnetic fastening or coupling variants that have been described above with regard to the end and intermediate fastening devices, a variability is also possible.
this form possible.
Although the invention has been fully described above on the basis of preferred exemplary embodiments, it is not restricted thereto, but rather can be modified in many different ways.
The fastening of the light tube is in particular not limited to a ceiling and / or wall. The first and second end fastening devices and the intermediate fastening device (s) could each serve to enable the light tube to be fastened to a floor area. For example, the light hose could go from the ceiling to the wall with the help of the fastening device
be led down to the ground.
List of reference symbols
1 tubular lighting device
3 first end
4 second end
5 supply line
6, 6 ', 6 "first end fastener
7 "ferromagnetic and / or magnetized element 8, 8 ', 8" clamping screw
9.9 through opening
9a 'section (through opening)
10, 10 ’, 10” assembly part
10a, 10a 'axis (assembly part) 11, 11' base component
11a, 11a 'supernatant
11b, 11b 'section
110 'surface
11d section
12 cover element
13 inner passage opening 14 outer contour
15 plate-shaped element 16 ceiling
17 wall
21, 21 'clamping element
22, 22 'direction of movement 23, 23' section with thread
24 'pivoting direction 25 extension 26' elevation
27 'outside (clamping element 21') 28, 28 'screw element
28a, 28a 'axis (screw element 28, 28') 31 stop
31a ', 31b' stop 36, 36a-d second end fastening device 40, 40a-d end piece
40 'basic component
41a screw
41b Velcro fastener
41c suction cup
41d adhesive surface
42 built-in element
44 Docking area
46a-46g intermediate fastening device 50 ring-like retaining component
51 rope
55 Retaining Component
56 Retaining Component
57 Retaining Component
56a back (retaining component 56) 56b front (retaining component 56) 58 screw
60 legs
61 intermediate section
62 through opening
64 Component / Assembly
65 Component / Assembly
70 assembly area
78, 78 'Component / assembly
82 85 91
99 99a
100 200
Z1-Z9
Base element permanent magnet screw cover element
Mounting area built-in element
Built-in component facility arrangement arrangement
Visible side additional place
"41 -

权利要求:
Claims (1)
[1]
Claims
Fastening device for a flexible tubular lighting device (1) with a first end (3) and a second end (4);
wherein the fastening device for fastening the tubular lighting device (1) is formed at least in each case at the first (3) and the second (4) end and the fastening device has a first end fastening device (6; 6 "; 6") for fastening the tubular lighting device ( 1) at the first end (3) and a second end fastening device (36; 36a; 36b; 36c; 36d) for fastening the tubular lighting device (1) to the second end (4);
wherein the fastening device is set up in such a way that the tubular lighting device (1) can be supplied with electrical current for its operation at the first end (3); and
wherein the fastening device is designed in such a way that the tubular lighting device (1) can be selected from among possible, in particular
three-dimensional, shapes of the same can be arranged and fastened in space.
Fastening device according to claim 1, characterized in that the first end fastening device (6; 6 ') is a
Mounting part (10; 10 ') which is provided at the first end (3) on the tubular lighting device (1) or can be attached to the first end (3) on the tubular lighting device (1) and which is also attached to a, in particular plate-shaped , Element (15), for example a plate component (15) of a ceiling (16) or a wall (17) or another
Construction that can be fixed by clamping.
Fastening device according to claim 2, characterized in that the mounting part (10; 10 ') at least one
Clamping element (21; 21 ') which can be moved by means of a mechanism, in particular a screw mechanism, in order to achieve the clamping fixation
to effect.
Fastening device according to claim 3, characterized in that the clamping element (21; 21 ') arm or wingar-
tig and is in engagement with a screw element (28; 28 ') that can be actuated by an operator, and that the mounting part (10; 10') has a stop or stops (31; 31a ', 31b') for the clamping element (21 ; 21 '), the stop or stops (31; 31a', 31b ') delimiting / delimiting a pivoting range of the clamping element (21; 21') when it rotates together with the screw element (28; 28 ') and the clamping element (21; 21 ') in contact with the stop or one of the stops (31; 31a', 31b ') and simultaneous rotation of the screw element (28; 28') along the axis (28a; 28a ') of the screw element ( 28; 28 ') is movable (22; 22') on this.
Fastening device according to claim 1, characterized in that the first end fastening device (6 ") for
attaching the tubular lighting device (1) to the first end
de (3) is formed by means of magnetic force.
Fastening device according to one of claims 1 to 5, characterized in that the second end fastening device (36) for
fastening the tubular lighting device (1) to the second
End (4) is formed by means of magnetic force.
44/58
_ 44 -
Fastening device according to claim 6, characterized in that the second end fastening device (36) is a
End piece (40) provided at the second end (4) on the tubular lighting device (1) or attached to the second end (4) on the tubular lighting device (1) as well as a ferromagnetic and / or magnetized built-in element (42), which is in particular in Strip shape or plate shape, wherein the built-in element (42) is intended for installation in a coupling area (44), in particular a superficial or near-surface installation in a ceiling (16) or a wall (17) or another construction, and the tubular lighting device (1) can be attached to the second end (4) in the coupling area (44) by means of the effect of magnetic force between the end piece (40) and the built-in element (42).
Fastening device according to one of Claims 1 to 5, characterized in that the second end fastening device (36a-d)
for mechanical fastening and / or non-magnetically adhesive fastening of the tubular lighting device (1) to the second end (4)
is trained.
Fastening device according to claim 8, characterized in that the second end fastening device (36a-d)
for fastening the tubular lighting device (1) to the second end (4) by screwing (36a) or by means of a Velcro connection (36b) or by means of an adhesive connection (36d) or by means of a pressure difference (36c).
Fastening device according to one of claims 1 to 5, characterized in that the second end fastening device (36) has a front end at the second end (4) on the tubular lighting device (1).
12th
13th
14th
- 45 -
has an end piece (10; 10 ') which is seen or can be fastened to the tubular lighting device at the second end (4) and which is attached to an, in particular plate-shaped, element (15), for example a plate component (15) of a ceiling (16) or a wall (17) or another construction, clamp-
mend can be fastened.
Fastening device according to one of the preceding claims, characterized in that the fastening device at least one
Intermediate fastening device (46a-469g) which can be arranged at any point between the first (3) and second (4) end along the tubular lighting device (1) in order to attach the tubular lighting device (1) to an additional location (Z1 -Z9) to be fixed in the room
gen, has.
Fastening device according to claim 11, characterized in that the intermediate fastening device (46a, 46f)
is formed with a ring-like holding component (50) which is set up to enclose the tubular lighting device (1).
Fastening device according to claim 11 or 12, characterized in that the intermediate fastening device (46b, 46c,
46d, 46e, 469g) is designed with a holding component (56, 55, 57) in the form of a clamp, which is set up to partially encircle the tubular lighting device (1) and which also has, in particular, two legs (60) which are designed to be in clamping contact with
to step on an outside of the tubular lighting device (1).
Fastening device according to one of Claims 11 to 13, characterized in that the intermediate fastening device (46a, 46b, 46d, 46f, 469g) for suspending the tubular lighting device
16.
17th
18th
_- 46 -
(1) is formed by a ceiling (16) or some other construction.
Fastening device according to one of Claims 11 to 14, characterized in that the intermediate fastening device (46b, 46c,
46d, 46f, 469g) with a component or structural component that can be fastened mechanically and / or non-magnetically in a mounting area (70)
group (55, 64, 65) is formed.
Fastening device according to one of Claims 11 to 15, characterized in that the intermediate fastening device (46b, 46c,
46d, 46f, 469g) with a component or assembly (55, 64, 65) that can be fastened in a mounting area (70) by screwing or by means of a Velcro connection or by means of an adhesive connection or by means of a pressure difference
is trained.
Fastening device according to one of Claims 11 to 14, characterized in that the intermediate fastening device (46a,
46e) is set up for the fastening of the tubular lighting device (1) at the additional location (Z1) by coupling a component or assembly (78, 78 ') of the intermediate fastening device (46a,
46e) in a mounting area (85) by means of magnetic force.
Fastening device according to claim 17, characterized in that the intermediate fastening device (46a, 46e) is a ferromagnetic and / or magnetized built-in element (91), the
is in particular designed in strip form or plate form, the installation element (91) for installation, in particular superficial or near the surface, in the assembly area (85), in particular in a ceiling (16) or a wall (17) or another construction, is provided and
by means of magnetic force between the component or assembly
20th
"47 -
(78, 78 ') and the built-in element (91) the tubular lighting device
(1) can be attached to the additional location (Z1).
Fastening device according to one of the preceding claims, characterized in that the fastening device for fastening a tubular lighting device (1) with a length of up to about 10
Meters is set up.
Arrangement (100; 200) comprising a fastening device according to one of the preceding claims and a flexible tubular luminous element
direction (1) with a first end (3) and a second end (4), wherein the tubular lighting device (1) by means of the fastening device in
Space, in particular following a three-dimensional shape, is attached.

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同族专利:

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公开号 | 公开日

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AT523582A3|2021-12-15|

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DE102020202916B4|2021-12-02|

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DE102020202916A1|2021-09-09|

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EP3875841A1|2021-09-08|

引用文献:

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CN208859362U|2018-08-15|2019-05-14|亿思特（赣州）灯饰产业发展有限公司|A kind of naked lamp string of illumination convenient for suspension|

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CN209068236U|2018-12-17|2019-07-05|昆山市翌兴通光电科技有限公司|The rainbow soft light bar of included suspended structure|DE102020208809A1|2020-07-15|2022-01-20|H4X E.U.|Tubular lighting device and lighting arrangement|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE102020202916.4A|DE102020202916B4|2020-03-06|2020-03-06|Fastening device for a flexible tubular lighting device, as well as an arrangement with it|

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