BACKGROUND OF THE INVENTION
Technical Field
[0001] The present invention belongs to the technical field of lighting, specifically to
a novel line light.
Description of Related Art
[0002] Existing line lights are all individual LED light bars with a poor lighting effect,
and even line lights with four LED light bars also have dark spots. Moreover, it is
difficult to weld rims and is inconvenient to install the LED light bars after welding
is completed, tending to generate dark spots.
US 2012/0236597 A1 discloses a lighting device according to the preamble of claim 1.
BRIEF SUMMARY OF THE INVENTION
[0003] The objective of the present invention is to provide a novel line light of which
every two adjacent rims are conveniently welded, avoiding affecting the installation
of LED light bars and avoiding dark spots.
[0004] In order to solve the above technical solution, the present invention employs the
following technical solutions.
[0005] A novel line light consists of a frame which is formed by connecting four rims end
by end in sequence, wherein each rim is internally equipped with an LED light bar;
each one of the LED light bars can be a single LED light bar or formed by connecting
a plurality of LED light bars; the bottom of each one of the rims is embedded into
a diffuser plate; each one of the rims has a downward opening; each one of the rims
has a first flat plate; the two edges of each one of the flat plates are respectively
vertically connected with a first vertical plate and a second vertical plate; the
first flat plates of every two adjacent rims are in welded connection; the inner wall
of each one of the second vertical plates extends out to form an inclined second flat
plate; each one of the second flat plates is fixedly connected to a third flat plate;
an LED light bar is fixed on the lower surface of each one of the third flat plates
by screws; the lower surface of each one of the third flat plates is a little greater
than the surface of each corresponding one of the LED light bars; a distance is kept
between the outer side face of each one of the LED light bars and each corresponding
one of the second flat plates; and every two adjacent rims are fixed by mutually welding
the second flat plates thereof.
[0006] As a preferred solution made on the basis of the aforementioned solution, one edge
of each one of the second flat plates is fixed on the inner wall of each corresponding
one of the second vertical plates, and the other edge of each one of the second flat
plates is connected with the third flat plate; one edge of each one of the third flat
plates is fixed with each corresponding one of the second flat plates, and the other
edge of each one of the third flat plates is fixed on the inner wall of each corresponding
one of the first vertical plates.
[0007] As a preferred solution made on the basis of the aforementioned solution, every two
adjacent LED light bars are soldered to form an electrical connection, wherein the
upper surface of a first LED light bar is leveled with the upper surface of a second
LED light bar in height; the end face of the first LED light bar is leveled with the
outer side face of the second LED light bar; a light bulb disposed at an end portion
of the first LED light bar is linearly arrayed with a light bulb on the second LED
light bar; the end face of the second LED light bar fits the side face of the first
LED light bar, and no dark spot exists in the corners of the frame.
[0008] As a preferred solution made on the basis of the aforementioned solution, the bottom
inner wall of each one of the first vertical plates has a first convex strip; one
edge of each one of the second convex strips is fixed on the inner wall of each corresponding
one of the first vertical plates; each one of the first convex strips and each corresponding
one of the second convex strips form a first clamping slot; one edge of each one of
the diffuser plates is inserted into each corresponding one of the first clamping
slots to be fixed; each one of the third flat plates is positioned above each corresponding
one of the second convex strips; the bottom inner wall of each one of the second vertical
plates has a third convex strip; a fourth convex strip is disposed above each one
of the third convex strips; one edge of each one of the fourth convex strips is fixed
on the inner wall of each corresponding one of the second vertical plates; each one
of the third convex strips and each corresponding one of the fourth convex strips
form a second clamping slot; the other edge of each one of the diffuser plates is
inserted into each corresponding one of the second clamping slots to be fixed; each
one of the second flat plates is positioned above each corresponding one of the fourth
convex strips; and the LED light bars are positioned opposite to the diffuser plates.
[0009] As a preferred solution made on the basis of the aforementioned solution, each one
of the third flat plates has a groove on the lower surface; each one of the LED light
bars has a plurality of through-holes, and the screws pass through the through-holes
on the LED light bars and are fixed in the grooves.
[0010] Compared with the prior art, the present invention has the following prominent and
beneficial technical effects.
[0011] For the novel line light of the present invention, the inclined second flat plate
is disposed in each one of the rims such that every two adjacent rims are welded;
the distances between the outer faces of the LED light bars and the second flat plates
are beneficial to the welding of two corresponding adjacent rims and to the smooth
installation of the LED light bar; every two adjacent LED light bars are soldered
while the upper surfaces thereof are leveled, wherein the end face of the first LED
light bar is leveled with the outer side face of the second LED light bar, and the
light bulb at the end portion of the first LED light bar is linearly arrayed with
the light bulb on the second light bar, thus avoiding dark spots at corners of the
frame.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
[0012]
FIG.1 is a schematic view of the whole structure of the present invention;
FIG.2 is a schematic view of the whole structure of the present invention;
FIG.3 is a schematic view of the whole structure of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
[0013] The present invention is further described in conjunction with the attached drawings
and specific embodiments.
[0014] In the description of the present invention, it needs to be understood that the directional
or positional relationships indicated by the terms "upper", "lower", "top", "bottom",
"inner", "outer", etc. are directional or positional relationships as shown in the
figures, or directional or positional relationships of the conventional placement
of the product of the present invention in use, or directional or positional relationships
conventionally understood by those skilled in the art, which are only used to facilitate
the present invention and simplify the description and do not point out or indicate
that the corresponding devices or components must be located at specific positions
and constructed and operated by specific means, and therefore cannot be regarded as
limit to the present invention.
[0015] Furthermore, the terms "first" and "second" are merely used for description, and
cannot be understood as instructions or indications of the relative significance or
as an indication of the quantity of the technical characteristics. Therefore, the
characteristics marked with the term "first" or "second" can clearly or implicitly
include one or more such characteristics.
Embodiment 1:
[0016] Refer to FIG. 1 and FIG.3. Embodiment 1 discloses a novel LED line light, consisting
of a frame which is formed by connecting four rims end by end, wherein the four rims
are fixedly connected end by end in sequence; each one of the rims is internally equipped
with an LED light bar 1; the frame is integrally provided with four LED light bars,
so the whole novel LED line light has sufficient light rays and achieves a better
light effect than a single LED light bar has.
[0017] Each one of the rims has a first flat plate 2; each one of the first flat plates
is respectively vertically fixed with a first vertical plate 3 and a second vertical
plate 4 along two edges; the top of each one of the first vertical plates is fixed
with one edge of each corresponding one of the first flat plates; the top of each
one of the second vertical plates is fixed with the other edge of each corresponding
one of the first flat plates; the first flat plates, the first vertical plates and
the second vertical plates form a downward frame opening, and every two adjacent rims
are fixed by mutually welding the first flat plates thereof.
[0018] The bottom inner wall of each one of the first vertical plates has a protruding first
convex strip; each one of the first convex strips is formed by protrusion or bending
of the bottom inner wall surface of each corresponding one of the first vertical plates;
a second convex strip is disposed above each one of the first convex strips; one edge
of each one of the second convex strips is fixed on the inner wall of each corresponding
one of the first vertical plates; each one of the first convex strips and each corresponding
one of the second convex strips form a first clamping slot, and one edge of each one
of the diffuser plates (10) is inserted into each corresponding one of the first clamping
slots to be fixed.
[0019] The bottom inner wall of each one of the second vertical plates has a protruding
third convex strip; each one of the third convex strips is formed by protrusion or
bending of the bottom inner wall surface of each corresponding one of the second vertical
plates; a fourth convex strip is disposed above each one of the third convex strips;
one edge of each one of the fourth convex strips is fixed on the inner wall of each
corresponding one of the second vertical plates; each one of the third convex strips
and each corresponding one of the fourth convex strips form a second clamping slot,
and the other edge of each one of the diffuser plates is inserted into each corresponding
one of the second clamping slots to be fixed.
[0020] The inner wall of each one of the second vertical plates extends to form a second
flat plate 5; each one of the second flat plates is positioned above each corresponding
one of the fourth convex strips; and every two adjacent rims are fixed by mutually
welding the second flat plates thereof. One edge of each one of the second flat plates
is fixed on the inner wall of each corresponding one of the second vertical plates,
and the other edge of each corresponding one of the second flat plates is fixedly
connected with each corresponding one of the third flat plates 6. One edge of each
one of the third flat plates is fixed with each corresponding one of the second flat
plates, and the other edge of each corresponding one of the third flat plates is fixed
on the inner wall of each corresponding one of the first vertical plates. Each one
of the third flat plates is positioned above each corresponding one of the second
convex strips.
[0021] Each one of the third flat plates has a groove on the lower surface; each one of
the LED light bars has a plurality of through-holes 33; and the screws pass through
the through-holes on the LED light bars and are fixed in the grooves. The lower surface
of each one of the third flat plates is a little larger than the surface of each corresponding
one of the LED light bars. A distance is kept between each one of the LED light bars
and each corresponding one of the second flat plates. To weld two adjacent rims is
to mutually weld and fix the second flat plates thereof. During installation, the
outer side face 7 of each one of the LED light bars deviates from the weld joint of
each corresponding one of the second flat plates, thus facilitating the welding between
rims and preventing burrs and welding spots at the weld joints of the second flat
plates from roughing up the LED light bars and affecting the light uniformity at the
same time. The distances between the LED light bars and the diffuser plates are 3.5-5cm.
In this embodiment, the distances are 4.3cm.
[0022] Between every two adjacent LED light bars, the first LED light bar 30 has an upper
surface which is leveled with the upper surface of the second LED light bar 31 in
height. In the frame, the leveling of the upper surfaces of the four LED light bars
in height is beneficial to the formation of uniform lighting rays and the reduction
of dark spots. The end face of the first LED light bar is leveled with the side face
of the second LED light bar. A light bulb 32 disposed at the end portion of the first
LED light bar is linearly connected with a light bulb disposed on the second LED light
bar, and the end face of the second LED light bar fits the side face of the first
LED light bar. Through the linear arrangement of the light bulbs 32, the light bulbs
disposed at the corners of the frame avoid the existence of dark spots. The traditional
line light has no light bulb at the corners which are formed by every two adjacent
rims.
[0023] The electrical soldering connection between every two adjacent LED light bars can
reserve more space. The LED light bars of the traditional line lights are electrically
connected through wires. The wires reduce the joining space between every two adjacent
rims and bring inconvenience to installation, and the wires can block the light rays
radiated by the light bulbs, and tend to make the LED light bars staggered and uneven,
thus generating dark spots.
[0024] Each one of the first flat plates extends to form a fourth flat plate (13), and each
one of the fourth flat plates extends out from the top outer wall of each corresponding
one of the second vertical plates. In use, the whole frame is placed on a keel through
the fourth flat plates, and then a decorative plate such as a plasterboard is placed
on the first flat plates. The whole frame does not affect the installation of the
original keel and plasterboard.
Embodiment 2:
[0025] Refer to FIG. 2. Embodiment 2 discloses a novel LED line light, consisting of a frame
which is formed by connecting four rims end by end, wherein the four rims are fixedly
connected end by end in sequence; each one of the rims is internally equipped with
an LED light bar; the frame is integrally provided with four LED light bars, so the
whole novel LED line light has sufficient light rays and achieves a better light effect
than a single LED light bar has.
[0026] Each one of the rims has a first flat plate; each one of the first flat plates is
respectively vertically fixed with a first vertical plate and a second vertical plate
along two edges; the top of each one of the first vertical plates is fixed with one
edge of each corresponding one of the first flat plates; the top of each one of the
second vertical plates is fixed with the other edge of each corresponding one of the
first flat plates; the first flat plates, the first vertical plates and the second
vertical plates form a downward frame opening, and every two adjacent rims are fixed
by mutually welding the first flat plates thereof.
[0027] The bottom inner wall of each one of the first vertical plates has a protruding first
convex strip; each one of the first convex strips is formed by protrusion or bending
of the bottom inner wall surface of each corresponding one of the first vertical plates;
a second convex strip is disposed above each one of the first convex strips; one edge
of each one of the second convex strips is fixed on the inner wall of each corresponding
one of the first vertical plates; each one of the first convex strips and each corresponding
one of the second convex strips form a first clamping slot, and one edge of each one
of the diffuser plates is inserted into each corresponding one of the first clamping
slots to be fixed.
[0028] The bottom inner wall of each one of the second vertical plates has a protruding
third convex strip; each one of the third convex strips is formed by protrusion or
bending of the bottom inner wall surface of each corresponding one of the second vertical
plates; a fourth convex strip is disposed above each one of the third convex strips;
one edge of each one of the fourth convex strips is fixed on the inner wall of each
corresponding one of the second vertical plates; each one of the third convex strips
and each corresponding one of the fourth convex strips form a second clamping slot,
and the other edge of each one of the diffuser plates is inserted into each corresponding
one of the second clamping slots to be fixed.
[0029] The inner wall of each one of the second vertical plates extends to form a second
flat plate; each one of the second flat plates is positioned above each corresponding
one of the fourth convex strips; and every two adjacent rims are fixed by mutually
welding the second flat plates thereof. One edge of each one of the second flat plates
is fixed on the inner wall of each corresponding one of the second vertical plates,
and the other edge of each corresponding one of the second flat plates is fixedly
connected with each corresponding one of the third flat plates. One edge of each one
of the third flat plates is fixed with each corresponding one of the second flat plates,
and the other edge of each corresponding one of the third flat plates is fixed on
the inner wall of each corresponding one of the first vertical plates. Each one of
the third flat plates is positioned above each corresponding one of the second convex
strips.
[0030] Each one of the third flat plates has a groove on the lower surface; each one of
the LED light bars has a plurality of through-holes; and the screws pass through the
through-holes on the LED light bars and are fixed in the grooves. The lower surface
of each one of the third flat plates is a little larger than the surface of each corresponding
one of the LED light bars. A distance is kept between each one of the LED light bars
and each corresponding one of the second flat plates. To weld two adjacent rims is
to weld and fix the mutual second flat plates. During installation, the outer side
face of each one of the LED light bars deviates from the weld joint of each corresponding
one of the second flat plates, thus facilitating the welding between rims and preventing
burrs and welding spots at the weld joints of the second flat plates from roughing
up the LED light bars and affecting the light uniformity at the same time. The distances
between the LED light bars and the diffuser plates are 3.5-5cm. In this embodiment,
the distances are 4.3cm.
[0031] Between every two adjacent LED light bars, the first LED light bar has an upper surface
which is leveled with the upper surface of the second LED light bar in height. In
the frame, the leveled upper surfaces of the four LED light bars in height are beneficial
to the formation of uniform lighting rays and reduction of dark spots. The end face
of the first LED light bar is leveled with the side face of the second LED light bar.
A light bulb disposed at the end portion of the first LED light bar is linearly connected
with a light bulb disposed on the second LED light bar, and the end face of the second
LED light bar fits the lateral face of the first LED light bar. Through the linear
arrangement of the light bulbs, the light bulbs disposed at the corners of the frame
avoid the existence of dark spots. The traditional line light has no light bulb at
the corners which are formed by every two adjacent rims.
[0032] The electrical soldering connection between every two adjacent LED light bars can
reserve more space. The LED light bars of the traditional line lights are electrically
connected through wires. The wires reduce the joining space between every two adjacent
rims and bring inconvenience to installation, and the wires can block the light rays
radiated by the light bulbs, and tend to make the LED light bars staggered and uneven,
thus generating dark spots.
[0033] Each one of the second vertical boards is fixed with each corresponding one of the
fourth flat plate 14 on the bottom outer wall, and each one of the first vertical
boards is fixed with each corresponding one of the fifth flat plates 15 on the bottom
outer wall. In use, the whole frame is placed on a keel through the fourth flat plates,
and a processed decorative plate such as the plasterboard are placed on the fifth
plat plates. The diffuser plate is leveled with the decorative plate. The line light
in this embodiment is more beautiful than the line light in embodiment 1.
[0034] The above embodiments are merely preferred embodiments of the present invention,
and cannot be regarded as limits to the protective scope of the utility model. Therefore,
all equivalent changes made on the basis of the structure, shape and principle of
the present invention should fall within the protective scope of the present invention,
which is defined by the appended claims.
1. A novel line light, comprising a frame which is formed by connecting four rims end
by end in sequence, each one of the rims internally equipped with an LED light bar
(1), each one of the LED light bars (1) being a single LED light bar or formed by
connecting a plurality of LED light bars, the bottom of each one of the rims embedded
into a diffuser plate (10), wherein each one of the rims has a downward opening; each
one of the rims has a first flat plate (2); the two edges of each one of the flat
plates (2) are respectively vertically connected with a first vertical plate (3) and
a second vertical plate (4); characterized in that, the first flat plates (2) of every two adjacent rims are in welded connection;
the inner wall of each one of the second vertical plates (4) extends out to form an
inclined second flat plate (5); each one of the second flat plates (5) is fixedly
connected with a third flat plate (6);
the LED light bar (1) is fixed on the lower surface of each one of the third flat
plates (6) by screws; the lower surface of each one of the third flat plates (6) is
a little greater than the surface of each corresponding one of the LED light bars
(1); a distance is kept between the outer side face (7) of each one of the LED light
bars (1) and each corresponding one of the second flat plates (5); and every two adjacent
rims are fixed by mutually welding the second flat plates (5) thereof.
2. The novel line light according to claim 1, characterized in that one edge of each one of the second flat plates (5) is fixed on the inner wall of
each corresponding one of the second vertical plates (4), and the other edge of each
one of the second flat plates is connected with the third flat plate (6); one edge
of each one of the third flat plates is fixed with each corresponding one of the second
flat plates, and the other edge of each one of the third flat plates is fixed on the
inner wall of each corresponding one of the first vertical plates (3).
3. The novel line light according to claim 1, characterized in that every two adjacent LED light bars (1) are soldered to form an electrical connection,
wherein the upper surface of a first LED light bar (30) is leveled with the upper
surface of a second LED light bar (31) in height; the end face of the first LED light
bar is leveled with the outer side face of the second LED light bar; a light bulb
(32) disposed at an end portion of the first LED light bar is linearly arrayed with
a light bulb on the second LED light bar; the end face of the second LED light bar
fits the side face of the first LED light bar, and no dark spot exists in the corners
of the frame.
4. The novel line light according to claim 1, characterized in that the bottom inner wall of each one of the first vertical plates (3) has a first convex
strip (8); a second convex strip (9) is disposed above each one of the first convex
strips (8); one edge of each one of the second convex strips is fixed on the inner
wall of each corresponding one of the first vertical plates; each one of the first
convex strips and each corresponding one of the second convex strips form a first
clamping slot; one edge of each one of the diffuser plates (10) is inserted into each
corresponding one of the first clamping slots to be fixed; each one of the third flat
plates (6) is positioned above each corresponding one of the second convex strips;
the bottom inner wall of each one of the second vertical plates (4) has a third convex
strip (11); a fourth convex strip (12) is disposed above each one of the third convex
strips; one edge of each one of the fourth convex strips is fixed on the inner wall
of each corresponding one of the second vertical plates; each one of the third convex
strips and each one of the fourth convex strips form a second clamping slot; the other
edge of each one of the diffuser plates (10) is inserted into each one of the second
clamping slots to be fixed; each one of the second flat plates is positioned above
each corresponding one of the fourth convex strips;
the LED light bars are positioned opposite to the diffuser plates, and the distances
between the LED light bars and the diffuser plates are 3.5-5cm.
5. The novel line light according to claim 2, characterized in that each one of the third flat plates (6) has a groove on the lower surface; each one
of the LED light bars (1) has a plurality of through-holes (33), and the screws pass
through the through-holes on the LED light bars and are fixed in the grooves.
6. The novel line light according to claim 1, characterized in that each one of the first flat plates (2) extends to form a fourth flat plate (13); each
one of the fourth plates extends out of the top outer wall of each corresponding one
of the second vertical plates (4), and the fourth flat plates are placed on a keel.
7. The novel line light according to claim 1, characterized in that a fourth flat plate (14) is fixed on the bottom outer wall of the second vertical
plate (4); a fifth flat plate (15) is fixed on the bottom outer wall of the first
vertical plate (3); the fourth flat plate is placed on a keel; and a plasterboard
is placed on the fifth flat plate.
1. Neue Linienbeleuchtungsvorrichtung, umfassend einen Rahmen, der durch die Verbindung
von vier Fassungen Ende an Ende in Reihe gebildet ist, wobei jede der Fassungen im
Inneren mit einer LED-Lichtleiste (1) ausgestattet ist, wobei jede der LED-Lichtleisten
(1) eine einzelne LED-Lichtleiste ist oder durch die Verbindung einer Vielzahl von
LED-Lichtleisten gebildet ist, wobei die Unterseite jeder der Fsssungen in eine Diffusorplatte
(10) eingebettet ist, wobei jede der Fassungen eine Öffnung nach unten aufweist; jede
der Fassungen eine erste flache Platte (2) aufweist; die zwei Kante jeder der zwei
flachen Platten (2) jeweils vertikal mit einer ersten vertikalen Platte (3) und einer
zweiten vertikalen Platte (4) verbunden sind; dadurch gekennzeichnet, dass die ersten flachen Platten (2) von jeweils zwei benachbarten Fassungen in geschweißter
Verbindung stehen; sich die innere Wand jeder der zweiten vertikalen Platten (4) nach
außen erstreckt, um eine geneigte zweite flache Platte (5) zu bilden; jede der zweiten
flachen Platten (5) fest mit einer dritten flachen Platte (6) verbunden ist; die LED-Lichtleiste
(1) auf der unteren Fläche jeder der dritten flachen Platten (6) durch Schrauben befestigt
ist; die untere Fläche jeder der dritten flachen Platten (6) etwas größer als die
Fläche jeder Entsprechenden der LED-Lichtleisten (1) ist; ein Abstand zwischen der
äußeren Seitenfläche (7) jeder der LED-Lichtleisten (1) und jeder Entsprechenden der
zweiten flachen Platten (5) gehalten wird; und jeweils zwei benachbarte Fassungen
durch gegenseitiges Schweißen der zweiten flachen Platten (5) davon befestigt sind.
2. Neue Linienbeleuchtungsvorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass eine Kante jeder der zweiten flachen Platten (5) auf der inneren Wand jeder Entsprechenden
der zweiten vertikalen Platten (4) befestigt ist und die andere Kante jeder der zweiten
flachen Platten mit der dritten flachen Platte (6) verbunden ist; eine Kante jeder
der dritten flachen Platten mit jeder entsprechenden der zweiten flachen Platten befestigt
ist und die andere Kante jeder der dritten flachen Platten auf der inneren Wand jeder
Entsprechenden der ersten vertikalen Platten (3) befestigt ist
3. Neue Linienbeleuchtungsvorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass jeweils zwei benachbarte LED-Lichtleisten (1) geschweißt sind, um eine elektrische
Verbindung zu bilden, wobei die obere Fläche einer ersten LED-Lichtleiste (30) mit
der oberen Fläche einer zweiten LED-Lichtleiste (31) in der Höhe nivelliert ist; die
Endfläche der ersten LED-Lichtleiste mit der äußeren Seitenfläche der zweiten LED-Lichtleiste
nivelliert ist; eine Glühbirne (32), die an einem Endabschnitt der ersten LED-Lichtleiste
angeordnet ist, linear mit einer Glühbirne auf der zweiten LED-Lichtleiste aufgereiht
ist; die Endseite der zweiten LED-Lichtleiste zur Endseite der ersten LED-Lichtleiste
passt und kein dunkler Fleck in den Ecken des Rahmens vorhanden ist.
4. Neue Linienbeleuchtungsvorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass die untere innere Wand jeder der ersten vertikalen Platten (3) einen ersten konvexen
Streifen (8) aufweist; ein zweiter konvexer Streifen (9) über jedem der ersten konvexen
Streifen (8) angeordnet ist; eine Kante jedes der zweiten konvexen Streifen auf der
inneren Wand jeder Entsprechenden der ersten vertikalen Platten befestigt ist; jeder
der ersten konvexen Streifen und jeder Entsprechende der zweiten konvexen Streifen
einen ersten Klemmschlitz bilden; eine Kante jeder der Diffusorplatten (10) in jeden
Entsprechenden der ersten Klemmschlitze eingeführt ist, um befestigt zu werden; jede
der dritten flachen Platten (6) über dem Entsprechenden der zweiten konvexen Streifen
positioniert ist; die untere innere Wand jeder der zweiten vertikalen Platten (4)
einen dritten konvexen Streifen (11) aufweist; ein vierter konvexer Streifen (12)
über jedem der dritten konvexen Streifen angeordnet ist; eine Kante jedes der vierten
konvexen Streifen auf die innere Wand jeder Entsprechenden der zweiten vertikalen
Platten befestigt ist; jeder der dritten konvexen Streifen und jeder der vierten konvexen
Streifen einen zweiten Klemmschlitz bilden; die andere Kante jeder der Diffusorplatten
(10) in jede Entsprechende der zweiten Klemmschlitze eingeführt ist, um befestigt
zu werden; jede der zweiten flachen Platten über jedem Entsprechenden der vierten
konvexen Streifen positioniert ist; die LED-Lichtleisten gegenüber den Diffusorplatten
positioniert sind und die Abstände zwischen den LED-Lichtleisten und den Diffusorplatten
3,5 - 5 cm sind.
5. Neue Linienbeleuchtungsvorrichtung nach Anspruch 2, dadurch gekennzeichnet, dass jede der dritten flachen Platten (6) eine Nut auf der unteren Fläche aufweist; jede
der LED-Lichtleisten (1) eine Vielzahl von Durchgangslöchern (33) aufweist, und die
Schrauben durch die Durchgangslöcher auf den LED-Lichtleisten verlaufen und in den
Nuten befestigt sind.
6. Neue Linienbeleuchtungsvorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass sich jede der ersten flachen Platten (2) erstreckt, um eine vierte flache Platte
(13) zu bilden; sich jede der vierten Platten aus der oberen äußeren Wand jeder Entsprechenden
der zweiten vertikalen Platten (4) erstreckt und die vierten flachen Platten auf einem
Kiel platziert sind.
7. Neue Linienbeleuchtungsvorrichtung nach Anspruch 1, dadurch gekennzeichnet, dass eine vierte flache Platte (14) auf der unteren äußeren Wand der zweiten vertikalen
Platte (4) befestigt ist; eine fünfte flache Platte (15) auf der unteren äußeren Wand
der ersten vertikalen Platte (3) befestigt ist; die vierte flache Platte auf einem
Kiel platziert ist; und eine Gipsplatte auf der fünften flachen Platte platziert ist.
1. Rampe d'éclairage innovante, comprenant un châssis qui est formé en reliant quatre
bords extrémité par extrémité, de manière successive, chacun des bords étant équipé
d'une barre d'éclairage à LED (1), chacune des barres d'éclairage à LED (1) étant
une seule barre d'éclairage à LED ou étant formée en reliant une pluralité de barres
d'éclairage à LED, la partie inférieure de chacun des bords étant intégrée à une plaque
de diffuseur (10), dans laquelle chacun des bords possède une ouverture vers le bas
; chacun des bords possède une première plaque plate (2) ; les deux bords de chacune
des plaques plates (2) étant respectivement reliés verticalement à une première plaque
verticale (3) et une seconde plaque verticale (4) ; caractérisée en ce que les premières plaques plates (2) de chaque paire de bords adjacents sont reliées
par soudure ;
la paroi interne de chacune des secondes plaques verticales (4) s'étend vers l'extérieur
afin de former une seconde plaque plate inclinée (5) ; chacune des secondes plaques
plates (5) est reliée de manière fixe à une troisième plaque plate (6) ;
la barre d'éclairage à LED (1) est fixée sur la surface inférieure de chacune des
troisièmes plaques plates (6) par des vis ; la surface inférieure de chacune des troisièmes
plaques plates (6) est un peu plus grande que la surface de chacune des barres d'éclairage
à LED (1) ; une distance est maintenue entre la face latérale externe (7) de chacune
des barres d'éclairage à LED (1) et chacune des secondes plaques plates correspondantes
(5) ;
et chaque paire de bords adjacents est fixée en soudant manuellement les secondes
plaques plates (5) de ceux-ci.
2. Rampe d'éclairage innovante selon la revendication 1, caractérisée en ce qu'un bord de chacune des sondes plaques plates (5) est fixé sur la paroi interne de
chacune des secondes plaques verticales correspondantes (4),
et l'autre bord de chacune des secondes plaques plates est relié à la troisième plaque
plate (6) ;
un bord de chacune des troisièmes plaques plates est fixé avec chacune des secondes
plaques plates correspondantes, et l'autre bord de chacune des troisièmes plaques
plates est fixé sur la paroi interne de chacune des premières plaques verticales correspondantes
(3).
3. Rampe d'éclairage innovante selon la revendication 1, caractérisée en ce que chaque paire de barres d'éclairage à LED (1) est soudée afin de former une liaison
électrique, dans laquelle la surface supérieure d'une première barre d'éclairage à
LED (30) est nivelée avec la surface supérieure d'une seconde barre d'éclairage à
LED (31) en hauteur ; la face d'extrémité de la première barre d'éclairage à LED est
nivelée avec la face latérale externe de la seconde barre d'éclairage à LED ; une
ampoule (32) disposée au niveau d'une partie d'extrémité de la première barre d'éclairage
à LED est disposée de manière linéaire avec une ampoule sur la seconde barre d'éclairage
à LED ; la face d'extrémité de la seconde barre d'éclairage à LED s'adapte à la face
latérale de la première barre d'éclairage à LED, et aucun point sombre n'existe dans
les angles du châssis.
4. Rampe d'éclairage innovante selon la revendication 1, caractérisée en ce que la paroi interne inférieure de chacune des premières plaques plates (3) possède une
première bande convexe (8) ; une seconde bande convexe (9) est disposée au-dessus
de chacune des premières bandes convexes (8) ; un bord de chacune des secondes bandes
convexes est fixée sur la paroi interne de chacune des premières plaques verticales
correspondantes ; chacune des premières bandes convexes et chacune des secondes bandes
convexes forment une première fente de fixation ; un bord de chacune des plaques de
diffuseurs (10) est inséré dans chacune des premières fentes de fixation correspondantes
afin d'être fixé ; chacune des troisièmes plaques plates (6) est positionnée au-dessus
de chacune des secondes bandes convexes correspondantes ;
la paroi interne inférieure de chacune des secondes plaques verticales (4) possède
une troisième bande convexe (11) ; une quatrième bande convexe (12) est disposée au-dessus
de chacune des troisièmes bandes convexes ; un bord de chacune des quatrièmes bandes
convexes est fixé sur la paroi interne de chacune des secondes plaques verticales
correspondantes ; chacune des troisièmes bandes convexes et chacune des quatrièmes
bandes convexes forment une seconde fente de fixation ; l'autre bord de chacune des
plaques de diffuseurs (10) est inséré dans chacune des secondes fentes de fixation
afin d'être fixé ; chacune des secondes plaques plates est positionnée au-dessus de
chacune des quatrièmes bandes convexes correspondantes ;
les barres d'éclairage à LED sont positionnées de manière opposée aux plaques de diffuseurs,
et les distances entre les barres d'éclairage à LED et les plaques de diffuseurs sont
comprises entre 3,5 et 5 cm.
5. Rampe d'éclairage innovante selon la revendication 2, caractérisée en ce que chacune des troisièmes plaques plates (6) possède une rainure sur la surface inférieure
; chacune des barres d'éclairage à LED (1) possède une pluralité d'orifices traversants
(33), et les vis passent par les orifices traversants sur les barres d'éclairage à
LED et sont fixées dans les rainures.
6. Rampe d'éclairage innovante selon la revendication 1, caractérisée en ce que chacune des premières plaques plates (2) s'étend afin de former une quatrième plaque
plate (13) ; chacune des quatrièmes plaques s'étend à l'extérieur de la paroi externe
supérieure de chacune des secondes plaques verticales correspondantes (4), et les
quatrièmes plaques plates sont placées sur une quille.
7. Rampe d'éclairage innovante selon la revendication 1, caractérisée en ce qu'une quatrième plaque plate (14) est fixée sur la paroi externe inférieure de la seconde
plaque verticale (4) ; une cinquième plaque plate (15) est fixée sur la paroi externe
inférieure de la première plaque verticale (3) ; la quatrième plaque plate est placée
sur une quille ; et une plaque de plâtre est placée sur la cinquième plaque plate.