[0001] The invention relates to the field of food climatization containers, especially refrigerators.
[0002] Related art can be observed on the market and shows to refrigerators that have LED
bars mounted on the inner wall or shelve of the refrigerator for illuminating the
products in contained in the refrigerator.
[0003] Another related art concerns refrigerators built using walls and a frame structure
built of extrusion profiles.
[0004] The inventors found it disadvantageous that it is often difficult to mount such LED
bars and they require additional space.
[0005] The problem underlying the invention was to improve this disadvantage. The problem
is solved by the invention, in particular according to the independent claims.
[0006] In particular, this problem is solved by a food climatization container, wherein
the container comprises a compartment for storage of food products, the compartment
being surrounded by a frame structure and walls and closable by a door of the container,
wherein the container comprises or is connectable to a cooling unit for cooling the
compartment, wherein the frame structure comprises one or more extruded profiles interconnected,
preferably perpendicularly, with each other and comprising one or more mounting portions,
preferably receptacles, for a portion, preferably bended edge portion, of an inner
wall or outer wall of the container, wherein at least a first profile of the one or
more extruded profiles comprises a trough, preferably integrally formed with the profile,
facing towards the compartment, wherein the trough is configured to be covered by
a blind. The blind may alternatively be called a lid.
[0007] The trough may be further configured to receive an LED bar in place of the blind.
Hereby, a food climatization container is provided with an LED bar, which requires
less parts and less compartment space for attaching it to the container. According
to the invention, the term food can represent food and/or drinks or beverages.
[0008] Preferably, the profiles each have a longitudinal extension which is the extrusion
direction. Preferably, the trough has a longest extension in longitudinal direction.
Preferably, the one or more receptacles comprise a slit, preferably with the longest
extension in longitudinal direction, for sliding in a bent edge of an outer or inner
wall. Preferably, the slit is limited on one side by a web of the profile, which is
resilient by having a free end, such that the web engages onto the inserted wall at
a certain force. Preferably, the LED bar has a plurality of LED's aligned in longitudinal
direction on a common carrier component, e.g., a flexible strip or a rigid profile.
The LED bar is preferably covered by a (semi-)transparent lid. Preferably, LEDs, carrier
component and, eventually if present, the lid are preassembled and form a module.
[0009] As the trough is configured to receive either a blind or an LED bar, hereby, it is
possible to use the same profile also for portions of the frame that shall not be
equipped with an LED bar.
[0010] In a further food climatization container according to the invention, the trough
comprises in a wall, preferably base wall, of the trough, a groove configured to receive
an electric cable for the LED bar.
[0011] Hereby, the mounting of the LED bar can be further simplified. Preferably, the diameter
of the groove has a diameter within the range of 1 mm to 10 mm, preferably 2 to 5mm.
[0012] In a further food climatization container according to the invention, the trough
comprises one or more structures configured to engage with snap-fit elements, preferably
one or more hook elements, of the LED bar or a blind such that the LED bar or blind
is mounted and held in the trough via a snap-fit.
[0013] Hereby, the mounting of the LED bar can be further simplified.
[0014] In a further food climatization container according to the invention, the trough
comprises in a wall, preferably one or more side walls, of the trough an edge with
a surface next to it, whereby the surface is facing away from the compartment.
[0015] Hereby, a snap-fit can be realized through means that can already be created in the
extrusion step when extruding the profile.
[0016] In a further food climatization container according to the invention, the first profile
comprises in addition to the mounting portions and the trough an insulation chamber
wherein the insulation chamber is arranged between the trough an at least one of the
mounting portions.
[0017] Hereby, condensation effects on the LED bar can be reduced.
[0018] The present invention will now be described, by way of example, with reference to
the accompanying drawings, whereby
[0019] Fig. 1 to 4 a food climatization container according to the invention, wherein Fig.
1 shows a perspective view, Fig. 2 a portion of a horizontal cross-section through
the container and Fig. 3 a portion of a vertical cross-section through the container,
Fig. 4 the same horizontal cross-section as Fig. 2, however, without annotations for
better overview.
[0020] Now follows a more detailed description of Fig. 1 to 3. The container 1 comprises
a compartment 2 for storage of food products 5, the compartment 2 being surrounded
by a frame structure 10 and walls 11, 12, 13, 14 and closable by door 3 of the container
1, wherein the container 1 comprises a cooling unit for cooling the compartment 2,
wherein the frame structure 10 comprises extruded profiles 20, 30, 40 interconnected,
here perpendicularly, with each other and comprising mounting portions 21, 22, 31,
32, here receptacles, for a portion, here bended edge portion, of an inner wall 11,
13 or outer wall 12, 14 of the container 1, wherein at least a first profile 20 of
the extruded profiles 20, 30, 40 comprises a trough 23, 33, here integrally formed
with the profile 20, 30, 40, facing towards the compartment 2, wherein an LED bar
50 is mounted in the trough 23. In this example, the profiles 20, 30, 40 each have
a longitudinal extension which is the extrusion direction. In this example, the trough
23, 33 has a longest extension in longitudinal direction. In this example, the one
or more mounting portions 21, 22, 31, 32 comprise a slit 21.1, 22.1, here with a longest
extension in longitudinal direction, for sliding in a bent edge of a wall 11, 12,
13, 14.
[0021] In Fig. 3, not all the details are referenced with reference signs for sake of cleaner
visibility, but the extrusion profile 30 has the same cross-section as extrusion profile
20. Furthermore, in this example, the slit is limited on one side by a web 21.2, 22.2
of the profile 20, 30 which is resilient by having a free end, such that the web engages
onto the inserted wall at a certain force. In this example, the LED bar 50 has a plurality
of LEDs aligned in longitudinal direction on a common carrier component 52, here a
rigid profile. The LED bar is here covered by a transparent lid 53. In this example,
LEDs, carrier component 52 and the lid 53 are preassembled and form a module. The
first profile 20 and the second profile 30 of the extruded profiles 20, 30, 40 have
an identical cross-section, such that the second profile 30 also has a trough 33,
configured to receive an LED bar 50, wherein the trough 33 of the second profile 30
is covered by a blind 60. The trough 23, 33 comprises in a wall 23.1, 33.1, here base
wall, of the trough 23, 33, a groove 23.2, 33.2 configured to receive an electric
cable 51 for the LED bar 50. The trough 23, 33 comprises one or more structures configured
to engage with snap-fit elements, here one or more hook elements, of the LED bar 50
or the lid 60 such that the LED bar 50 or lid 60 is mounted and held in the trough
23 via a snap-fit. The trough 23, 33 comprises in a wall 23.3, 23.4, here one or more
side walls, of the trough 23, 33 an edge 23.5, 23.6 with a surface 23.7, 23.8 next
to it, whereby the surface 23.7, 23.8 is facing away from the compartment 2.The first
profile 20 comprises in addition to the mounting portions 21, 22 and the trough 23
an insulation chamber 24 wherein the insulation chamber 24 is arranged between the
trough 23 an at least one of the mounting portions 21.
[0022] There now follows a series of numbered clauses defining further examples of the disclosure.
- 1. Food climatization container (1), wherein the container (1) comprises a compartment
(2) for storage of food products (5), the compartment (2) being surrounded by a frame
structure (10) and walls (11, 12, 13, 14) and closable by door (3) of the container
(1), wherein the container (1) comprises or is connectable to a cooling unit for cooling
the compartment (2),
wherein the frame structure (10) comprises one or more extruded profiles (20, 30,
40) interconnected with each other and comprising one or more mounting portions (21,
22, 31, 32) for a portion of an inner wall (11, 13) or outer wall (12, 14) of the
container (1),
characterized in that at least a first profile (20) of the one or more extruded profiles
(20, 30, 40) comprises a trough (23, 33) facing towards the compartment (2), wherein
an LED bar (50) is mounted in the trough (23).
- 2. Food climatization container (1) according to clause 1, wherein the first profile
(20) and a second profile (30) of the one or more extruded profiles (20, 30, 40) have
an identical cross-section, such that the second profile (30) also has a trough (33),
configured to receive an LED bar (50), wherein the trough (33) of the second profile
(30) is covered by a blind (60).
- 3. Food climatization container (1) according to one of clauses 1 to 2, wherein the
trough (23, 33) comprises in a wall (23.1, 33.1) of the trough (23, 33), a groove
(23.2, 33.2) configured to receive an electric cable (51) for the LED bar (50).
- 4. Food climatization container (1) according to one of clauses 1 to 3, wherein the
trough (23, 33) comprises one or more structures configured to engage with snap-fit
elements of the LED bar (50) or a blind (60) such that the LED bar (50) or blind (60)
is mounted and held in the trough (23) via a snap-fit.
- 5. Food climatization container (1) according to clause 4, wherein the trough (23,
33) comprises in a wall (23.3, 23.4) of the trough (23, 33) an edge (23.5, 23.6) with
a surface (23.7, 23.8) next to it, whereby the surface (23.7, 23.8) is facing away
from the compartment (2).
- 6. Food climatization container (1) according to one of clauses 1 to 5, wherein the
first profile (20) comprises in addition to the mounting portions (21, 22) and the
trough (23) an insulation chamber (24) wherein the insulation chamber (24) is arranged
between the trough (23) an at least one of the mounting portions (21).
Reference signs
1 |
food climatization container |
23.3 |
wall of trough |
2 |
compartment |
23.4 |
wall of trough |
3 |
door |
23.5 |
edge |
5 |
food products |
23.6 |
edge |
10 |
frame structure |
23.7 |
surface |
11 |
inner wall |
23.8 |
surface |
12 |
outer wall |
24 |
insulation chamber |
13 |
inner wall |
30 |
extrusion profile |
14 |
outer wall |
31 |
mounting portion |
20 |
extrusion profile |
32 |
mounting portion |
21 |
mounting portion |
33 |
trough |
21.1 |
slit of mounting portion |
33.1 |
wall of trough |
21.2 |
web of the profile |
33.2 |
groove |
22 |
mounting portion |
40 |
extrusion profile |
22.1 |
slit of mounting portion |
50 |
LED bar |
22.2 |
web of the profile |
51 |
electric cable |
23 |
trough |
52 |
carrier component |
23.1 |
wall of trough |
53 |
(semi-)transparent lid |
23.2 |
groove |
60 |
blind |
1. Food climatization container (1), wherein the container (1) comprises a compartment
(2) for storage of food products (5), the compartment (2) being surrounded by a frame
structure (10) and walls (11, 12, 13, 14) and closable by a door (3) of the container
(1), wherein the container (1) comprises or is connectable to a cooling unit for cooling
the compartment (2),
wherein the frame structure (10) comprises a first extruded profile (20, 30, 40) comprising
one or more mounting portions (21, 22, 31, 32) for a portion of an inner wall (11,
13) or outer wall (12, 14) of the container (1),
wherein the first extruded profile (20, 30, 40) comprises a trough (23, 33) facing
towards the compartment (2), wherein the trough (23, 33) is configured to be covered
by a blind (60).
2. Food climatization container (1) according to claim 1, wherein the trough (23, 33)
is further configured to receive an LED bar (50) in place of the blind (60).
3. Food climatization container (1) according to claim 2, wherein the trough (23, 33)
comprises in a wall (23.1, 33.1) of the trough (23, 33), a groove (23.2, 33.2) configured
to receive an electric cable (51) for the LED bar (50).
4. Food climatization container (1) according to one of claims 1 to 3, wherein the trough
(23, 33) comprises one or more structures configured to engage with snap-fit elements
of the LED bar (50) or the blind (60) such that the LED bar (50) or blind (60) is
mounted and held in the trough (23) via a snap-fit.
5. Food climatization container (1) according to claim 4, wherein the trough (23, 33)
comprises in a wall (23.3, 23.4) of the trough (23, 33) an edge (23.5, 23.6) with
a surface (23.7, 23.8) next to it, whereby the surface (23.7, 23.8) is facing away
from the compartment (2).
6. Food climatization container (1) according to one of claims 1 to 5, wherein the first
profile (20) comprises in addition to the mounting portions (21, 22) and the trough
(23) an insulation chamber (24) wherein the insulation chamber (24) is arranged between
the trough (23) and at least one of the mounting portions (21).