[0001] The present invention relates to a dryer comprising a filter which retains particles
such as fiber, lint, dust, etc. in the drying air.
[0002] In dryers, the air heated by various methods is directed into the drum containing
the items to be dried and is sucked back to in the heating cycle. During this circulation
of air, particles such as fiber, lint, dust, etc. must be filtered. Therefore, various
filters are developed for filtering said particles in dryers. Said filters produced
from various materials are disposed in the dryer on the circulation path of the air.
Accumulation of the particles retained by means of the filters during the circulation
of air adversely affects the flow rate of the drying air and hence the drying performance.
Therefore, during the drying cycle said filters are required to be periodically cleaned
and removed from the cycle of the drying air. Embodiments are known wherein the filters
are cleaned by being sprayed with water by means of nozzles. However, lints washed
with water become muddy when accumulated and create an unpleasant view for the user.
Furthermore, the fibers may clog the pump which discharges the water.
[0003] In the state of the art European Patent Application No.
EP2938777, a dryer is disclosed, wherein the filter retaining the fibers is washed.
EP3149237
[0004] In the state of the art European Patent Application No.
EP3149237, a dryer is disclosed, wherein the accumulated fibers are broken down by means of
a water jet.
[0005] The aim of the present invention is the realization of a dryer wherein the fibers
washed away from the filter are collected cleanly.
[0006] The dryer realized in order to attain the aim of the present invention, explicated
in the first claim and the respective claims thereof, comprises a sieve which is attached
under the filter and wherein the fibers washed away from the filter are collected.
The fibers are collected in the sieve and thus, the user replaces or cleans the sieve
by removing the same from its place. The sieve is preferably a water-permeable structure,
and the water flowing from the filter flows downwards without being collected in the
sieve. Thus, only the fibers are collected in the sieve.
[0007] In an embodiment of the present invention, the sieve covers only a portion of the
cross-section of the air circulation duct through which the drying air circulates,
which is perpendicular to the direction of the flow. By means of this embodiment,
the air circulation duct is not blocked and the drying air is enabled to flow even
when the sieve is full. Thus, the drying performance is prevented from decreasing.
[0008] In another embodiment of the present invention, the dryer comprises a squeezing mechanism
which compresses the sieve and enables the water thereon to be drained. The sieve
is preferably produced from fabric and gets wet despite the water-permeable structure
thereof and holds a certain amount of water. The squeezing mechanism compresses the
sieve so as to enable the water to be drained and only the fibers to be retained in
the sieve.
[0009] In another embodiment of the present invention, the squeezing mechanism is manually
controlled by the user. The user enables the water on the sieve to be drained by means
of the squeezing mechanism during the drying process or when the sieve is required
to be removed.
[0010] In another embodiment of the present invention, the squeezing mechanism is controlled
by means of a control unit provided in the dryer. The control unit operates the squeezing
mechanism during the drying process so as to enable the water on the sieve to be drained
and the sieve to remain dry at the end of the drying process.
[0011] By means of the present invention, the fibers which accumulate on the filter are
cleaned and collected in the sieve and the user is allowed to clean the dryer by removing
the sieve without touching the fibers. The sieve does not block the air circulation
duct and thus is prevented from decreasing the drying performance. Furthermore, by
draining the water on the sieve by means of the squeezing mechanism, the performance
is prevented from decreasing due to wetness during the drying process.
[0012] A dryer realized in order to attain the aim of the present invention is illustrated
in the attached figures, where:
Figure 1 - is the schematic view of a dryer.
Figure 2 - is the sideways cross-sectional view of the filter and the sieve in an
embodiment of the present invention,
Figure 3 - is the sideways cross-sectional view of the squeezing mechanism having
plates in an alternative embodiment of the present invention,
Figure 4 - is the sideways cross-sectional view of the sieve compressed by the plates
in an alternative embodiment of the present invention,
Figure 5 - is the sideways cross-sectional view of the squeezing mechanism having
cylinders in an alternative embodiment of the present invention,
Figure 6 - is the sideways cross-sectional view of the sieve being compressed by the
cylinders in an alternative embodiment of the present invention.
[0013] The elements illustrated in the figures are numbered as follows:
- 1. Dryer
- 2. Body
- 3. Drum
- 4. Air circulation duct
- 5. Filter
- 6. Water line
- 7. Nozzle
- 8. Sieve
- 9. Squeezing mechanism
- 10. Plate
- 11. Cylinder
- 12. Control unit
[0014] The dryer (1) comprises a body (2); a drum (3) wherein the laundry to be dried is
loaded; an air circulation duct (4) for circulating the drying air which dries the
laundry in the drum (3); at least one filter (5) which retains the particles in the
drying air such as fibers, lint, etc.; a water line (6) which delivers water to the
filter (5); and a nozzle (7) which is arranged on the filter (5) and which is connected
to the water line (6).
[0015] In the dryer (1), the fibers which are separated from the laundry are collected on
the filter (5) disposed on the air circulation duct (4). During or before/after the
drying process, the filter (5) is washed with water in order to remove the fibers
and lints on the filter (5). The water to be delivered to the filter (5) is supplied
through the water line (6). The water line (6) is connected to the nozzle (7) which
is arranged on the filter (5). The water inlet of the nozzle (7) is preferably inserted
into the water line (6) and thus, leakage during the flow of water is avoided. The
fibers on the filter are swept by means of the water pumped through the nozzle (7)
and thus, the filter (5) is cleaned. The filter (5) can be removed by the user when
needed. The lints swept away from the filter (5) can be collected in a separate receptacle
or can be discharged together with water.
[0016] The dryer (1) of the present invention comprises a sieve (8) which is attached under
the filter (5) and wherein the fibers drained from the filter (5) are collected. The
sieve (8) is positioned under the filter (5) and covers only a portion of the cross-section
of the air circulation duct (4). The air circulation duct (4) is prevented from being
blocked by the filter (5) by washing the filter (5) and cleaning the fibers thereon
during the drying process. As the fibers are collected in the sieve (8) which only
partially covers the cross-section of the air circulation duct (4), the air circulation
duct (4) is enabled to be open at all times. The cross-section of the air circulation
duct (4) allows the smooth passage of the drying air even when the sieve (8) is completely
filled. Thus, problems such as increased temperature, decreased efficiency and increased
duration of the drying process due to the blockage or narrowing of the air circulation
duct (4) especially when laundry which produces too much fibers and lint is desired
to be dried are avoided.
[0017] In an embodiment of the present invention, the dryer (1) comprises a squeezing mechanism
(9) which is provided in the air circulation duct (4) and which compresses the sieve
(8) so as to drain the water thereon. The filter (5) is washed and the water used
to move the fibers into the sieve (8) flows onto the sieve (8) as well. The moist
in the sieve (8) humidifies the drying air during the drying process and decreases
the drying efficiency. The squeezing mechanism (9) compresses the wet sieve (8) and
enables the water to be drained. The sieve (8) from which the water is drained is
dried by means of the drying air like an ordinary clothing. The drained water is directly
discharged or accumulated in a receptacle to be discharged.
[0018] In another embodiment of the present invention, the squeezing mechanism (9) comprises
two plates (10) which are arranged on the two opposite sides of the sieve (8) and
a movement mechanism (not shown in figures) which moves the plates (10) towards each
other. The plates (10) are oppositely positioned such that the sieve (8) is positioned
therebetween. The movement mechanism has a mechanical arm or an electrical means such
as a motor or a solenoid, and moves the plates (10) towards each other. The sieve
(8) is compressed between the plates (10) and the water retained thereon is drained.
[0019] In a version of this embodiment, the surfaces of the plates (10) are perforated.
The water on the compressed sieve (8) is enabled to be discharged more quickly by
means of the perforated structure of the plates (10). Furthermore, since the water
can flow through a larger surface area, the movement mechanism is enabled to apply
a smaller force and thus, the energy consumption is decreased.
[0020] In another embodiment of the present invention, the squeezing mechanism (9) comprises
two cylinders (11) which are arranged on the two opposite sides of the sieve (8) and
which move from top to bottom so as to compress the sieve (8). The cylinders (11)
compress the sieve (8) like a roller and move downwards. Thus, the water on the sieve
(8) is drained so as to flow downwards.
[0021] In another embodiment of the present invention, the squeezing mechanism (9) is manually
controlled by the user. The user operates the squeezing mechanism (9) by means of
a manual arm, etc. to drain the water on the sieve (8) when needed. For example, when
the user requires to clean or replace the sieve (8), he/she drains the water accumulated
on the sieve (8) by means of the squeezing mechanism (9).
[0022] In another embodiment of the present invention, the dryer (1) comprises a control
unit (12) which enables the squeezing mechanism (9) to be operated during the drying
process. In this embodiment, the control unit (12) automatically operates the squeezing
mechanism (9). The squeezing mechanism (9) can be operated at any other time or during
the drying process so as to enable the sieve (8) to be dry at the end of the drying
process. Thus, the user does not encounter a wet and unpleasant view when he/she requires
to clean or replace the sieve (8).
[0023] By means of the present invention, the fibers removed from the filter (5) are collected
in the sieve (8) and the user is prevented from encountering an unpleasant view. Furthermore,
by collecting the fibers in the sieve (8), the fibers are dehumidified and bacterial
growth due to the presence of moisture is avoided. The hygienic conditions are further
improved by means of the squeezing mechanism (9).
1. A dryer (1) comprising a body (2); a drum (3) wherein the laundry to be dried is loaded; an air circulation
duct (4) for circulating the drying air which dries the laundry in the drum (3); at
least one filter (5) which retains the particles in the drying air such as fibers,
lint, etc.; a water line (6) which delivers water to the filter (5); and a nozzle
(7) which is arranged on the filter (5) and which is connected to the water line (6),
characterized by a sieve (8) which is attached under the filter (5) and wherein the fibers drained
from the filter (5) are collected.
2. A dryer (1) as in Claim 1, characterized by the sieve (8) which only partially covers the cross-section of the air circulation
duct (4).
3. A dryer (1) as in Claim 1 or Claim 2, characterized by a squeezing mechanism (9) which is provided in the air circulation duct (4) and which
compresses the sieve (8) so as to drain the water thereon.
4. A dryer (1) as in Claim 3, characterized by the squeezing mechanism (9) comprising two plates (10) which are arranged on the
two opposite sides of the sieve (8) and a movement mechanism which moves the plates
(10) towards each other.
5. A dryer (1) as in Claim 4, characterized by the plates (10) having perforated surfaces.
6. A dryer (1) as in Claim 3, characterized by the squeezing mechanism (8) comprising a pair of cylinders (11) which are arranged
on the two opposite sides of the sieve (8) and which move from top to bottom so as
to compress the sieve (8).
7. A dryer (1) as in any one of the Claims 3 to 6, characterized by the squeezing mechanism (9) which is manually controlled by the user.
8. A dryer (1) as in any one of the Claims 3 to 6, characterized by a control unit (12) which enables the squeezing mechanism (9) to be controlled.
9. A dryer (1) as in Claim 8, characterized by the control unit (12) which enables the squeezing mechanism (9) to be operated during
the drying process.