[0001] The invention relates to a laundry dryer comprising a condensate storage container.
[0002] DE 42 38 546 A1 discloses a laundry dryer comprising an extractable condensate storage container
located at a lower portion of the dryer. The storage container has an inlet opening
comprising a valve which is connected to a sump container of the dryer to receive
condensate during a drying operation. To receive and keep more water in the storage
container, the inlet of the sump container is connected to a portion of a process
air channel being under high pressure, such that the high pressure pushes more water
into the storage container. The container further comprises at an upper portion an
air vent opening to relief air when collecting condensate.
EP 1 914 340 B1 discloses a laundry dryer comprising an extractable condensate storing container.
The storing container comprises a safety valve to connect a terminal portion of a
draining circuit of the dryer to the storing container. When the storing container
is removed from the dryer the valve is in a closed state and when the container is
inserted the valve is opened by the insert movement. The safety valve prevents accidental
spillage of the stored liquid when the container is not inserted in its seat.
[0003] It is an object of the invention to provide a laundry dryer comprising an improved
condensate storage container.
[0004] According to the invention, a laundry dryer comprises a condensate storing container,
wherein the condensate storing container has a container main body for storing condensate
formed in the laundry dryer, i.e. a condenser dryer. The container comprises a coupling
device arranged at an opening of the container main body which is adapted to couple
to a mating coupling device of the laundry dryer. The coupling device of the container
comprises a valve arranged at the container opening for opening and closing the container
opening. The valve comprises a valve body having a first sealing surface and a valve
element having a second sealing surface. The valve element is received in the valve
body and is biased by a spring element such that the second sealing surface is biased
against the first sealing surface when the valve is in the closed valve state. The
valve element is adapted to be actuated against the biasing force of the spring element
when coupling the coupling device and the mating coupling device of the laundry dryer.
[0005] Preferably at least a portion of the valve element has a hollow profile shape, for
example at least a portion of the valve element is formed as a hollow cylinder or
as a hollow profile having e.g. a square, rectangular, elliptic or circular cross
section. The valve element comprises passages through the profile wall for passing
or let pass the condensate in the open valve state. The condensate storing container
has exactly and only one opening between the exterior and the interior of the container
for passing the condensate through the coupling device in order to drain the condensate
from the condensate storing container. Preferably the one opening is adapted to drain
the condensate out of and fill the condensate into the condensate storing container.
I.e. only one opening is provided in the container main body through which the container
is filled or collects condensate and is discharged or emptied. In particular it is
not necessary to provide a cover for an additional outlet or discharge opening to
prevent spillage of condensate when the container is removed from the laundry dryer.
Thus the invention provides a laundry dryer having an improved condensate storage
container which is less complex in use and in fabrication, i.e. production time and
costs are reduced.
[0006] According to a preferred embodiment the cross section area of the axial passage through
the profile shape portion of the valve element is the same or is approximately the
same as the sum area of the areas of all condensate passages through the profile wall,
or the difference between the cross section area of the axial passage through the
profile shape portion of the valve element and the sum area of the areas of all condensate
passages through the profile wall is within a range of +/- 5%, 10%, 20%, 30% or 40%.
Thereby a maximum free flow of water through the valve in particular during discharging
the container is provided, i.e. the water flow through the valve is not or is substantially
not obstructed or blocked when flowing from the container through the condensate passages
into the (axial passage of the) valve. Thus the storing container can be discharged
in minimum time.
[0007] According to an embodiment the profile shape portion of the valve element has at
least 3, 4, 5, 6 or more condensate passages through the profile wall. By providing
more passages an easier counter flow of air and water is provided when the container
is emptied, thus the discharging time of the storing container is further reduced.
[0008] Preferably at least the container main body of the storing container is formed by
blow molding, i.e. the storage container can be fabricated time- and cost-efficient.
[0009] According to an embodiment the deflection movement path length, stroke length or
actuation length of the valve element when moving from the closed to the open valve
state is at least 7 mm, 8 mm, 10 mm, 12 mm or 15 mm. In particular the valve element
or an actuation element coupled to the valve element for actuating the valve element
is protruding from a stationary surrounding of the valve or container, which is rigidly
connected or coupled to the main body of the container, at least 7 mm, 8 mm, 10 mm,
12 mm or 15 mm. I.e. when a user opens the valve, he pushes the valve element into
the stationary part of the valve or container. By providing the above stroke length
a user can easily and conveniently open the valve, e.g. manually by a finger or by
abutting and pushing the valve element against a surface like an inner surface of
a sink, for discharging the container.
[0010] Preferably the stroke and/or actuation length is equal to or is essentially equal
to the (maximum) axial length of the at least one condensate passage. Thus by actuating
the valve, i.e. by pushing the valve element along the valve axis about the actuation
length into the stationary part of the valve or container, the axial length of the
at least one condensate passage, i.e. the length in axial direction of the valve or
the moveable valve element, is completely open or exposed for discharging condensate
from the container. Thus a maximum cross-section of the passage(s) is provided such
that the container is dischargeable in minimum time.
[0011] Preferred the valve body comprises a body pipe section having an inner surface parallel
to the actuation path or to the direction of the actuation movement of the valve element
when being moved from the closed to the open valve state and wherein the valve element
comprises a pipe section having an outer surface mating to the inner surface of the
body pipe section and sliding on the inner surface during valve element actuation,
wherein in the closed and the maximum open valve state the inner surface and outer
surface overlap an alignment region or alignment length parallel to the actuation
path. Thus the inner surface and the outer surface overlap in the closed valve state
and also in the open valve state. In particular when moving the valve element between
the closed and the open valve state the inner surface and the outer surface overlap
permanently, such that a soft guiding of the valve element is provided when moving
between the closed and open state of the valve. In particular it is prevented that
the valve element or pipe section is tilted or tilts during a stroke, such that leakage
due to tilting of the valve element is prevented and a smooth and easy opening of
the valve is provided.
[0012] Preferably the minimum alignment length of overlap between the inner surface and
outer surface is at least 3 mm, 4 mm, 5 mm, 6 mm or 7 mm. The minimum alignment length
provides that the moveable valve element is always reliably and smoothly guided in
the stationary valve body or body pipe section.
[0013] Preferred a grip section is formed on the container main body, i.e. the grip section
is formed integrally with the main body. E.g. the container or main body is formed
by blow molding with the grip section being part of the mold. In particular no separate
grip or front panel has to be attached to the container main body, whereby the assembly
time is reduced and thereby the production costs.
[0014] Preferably the one opening of the container main body, in particular the coupling
device comprising the valve, is arranged at a side portion or edge of the container
main body. Preferred the grip section is formed on an edge region of the main body
opposite to an edge region where the valve is arranged at the container main body.
E.g. when the container is inserted in its operating position into the laundry dryer,
the opening is located in a vertical or substantially vertical side portion or an
upper edge of the container. Preferably the actuation path or direction between the
closed and open valve state is parallel to an inserting direction or movement of the
container into the laundry dryer. In particular by gripping the container at the grip
section and sliding or pushing the container (horizontally or substantially horizontally)
into the dryer the valve is actuated from the closed to the open state.
[0015] Preferred the grip section comprises one, two, three or more recesses in the container
main body with respect to the outer main contour of the container main body. Thereby
a user can securely and safely grip the container to extract the container from the
dryer and discharge the stored water.
[0016] According to another independent embodiment of the invention, a laundry dryer is
provided comprising a condensate storing container, the condensate storing container
having a container main body for storing condensate formed in the laundry dryer producing
condensate, the container comprising a coupling device arranged at an opening of the
container main body and adapted to couple to a mating coupling device of the laundry
dryer, wherein the coupling device comprises a valve arranged at the container opening
for opening and closing the container opening, wherein the valve comprises a valve
body having a first sealing surface and valve element having a second sealing surface,
wherein the valve body is received in the valve body and is biased by a spring element
such that the second sealing surface is biased against the first sealing surface in
the closed valve state, wherein the valve element is adapted to be actuated against
the biasing force of the spring element when coupling the coupling device and the
mating coupling device of the laundry dryer, and wherein at least a portion of the
valve element has a hollow profile shape comprising passages through the profile wall
for passing the condensate in the open valve state. The cross section area of the
axial passage through the profile shape portion of the valve element is the same or
is approximately the same as the sum area of the areas of all condensate passages
through the profile wall, or the difference between the cross section area of the
axial passage through the profile shape portion of the valve element and the sum area
of the areas of all condensate passages through the profile wall is within a range
of +/- 5%, 10%, 20%, 30% or 40%. Thereby a maximum free flow of water through the
valve in particular during discharging the container is provided, i.e. the water flow
through the valve is not or is substantially not obstructed or blocked when flowing
from the container through the condensate passages into the (axial passage of the)
valve. Thus the storing container can be discharged in minimum time. All features
for the first embodiment of the invention as described above, below and in the appended
claims are also applicable individually or in any combination to this another independent
embodiment without restrictions.
[0017] Preferably a laundry dryer comprising a condensate storing container having any of
and any combination of the above described features is drained from (stored) condensate
according to the following exemplary method: Pulling the storing container from the
or out of the laundry dryer. Discharging the storing container by orienting the container
such that the valve is or is approximately pointing downwards and actuating the valve
element manually by pressing the valve element by a user's finger towards the open
valve state. Alternatively the container is discharged by abutting the valve element
or an actuating element for actuating the valve element protruding from the valve
body against a stationary element at a water draining sewage device or installation,
e.g. a bottom of a sink.
[0018] With respect to the method of the invention, full reference is made to the above
description of the laundry dryer and the described operation modes and advantages
thereof as well as to the below detailed description. Each of the above described
features, each of the following features of the preferred embodiment and each arbitrary
combination thereof can be combined for the laundry dryer and/or the method. Moreover
it is obvious that the condensate storing container adapted to be used in a laundry
treatment apparatus, like a laundry dryer, provides the advantage of the invention
as such.
[0019] Reference is made in detail to a preferred embodiment of the invention, an example
of which is illustrated in the accompanying figures, which show:
- Fig. 1
- a perspective front view of a laundry dryer,
- Fig. 2
- a perspective top view of a condensate storing container,
- Fig. 3
- a perspective view of a detail of the storing container of Fig. 2,
- Fig. 3 a
- a perspective sectional view of the detail of Fig. 3,
- Fig. 4
- a top view of the storing container of Fig. 2 before coupling the storing container
to a coupling device of a laundry dryer,
- Fig. 4a
- a cross-sectional side view of Fig. 4,
- Fig. 5
- a top view of the storing container of Fig. 2 after coupling the storing container
to a coupling device of a laundry dryer,
- Fig. 5a
- a cross-sectional side view of Fig. 5,
- Fig. 6
- a cross-sectional side view of the storing container of Fig. 2 in a closed valve state,
- Fig. 7
- a cross-sectional side view of the storing container of Fig. 2 in an open valve state,
- Fig. 8
- a perspective cross-sectional view of the storing container of Fig. 2, and
- Fig. 9
- a perspective bottom view of the laundry dryer of Fig. 1.
[0020] Fig. 1 shows a perspective view of a laundry dryer 1 comprising a condensate storing
container 2, i.e. a condenser dryer. The storing container 2 collects and stores condensate,
i.e. water, extracted from laundry within the dryer 1 during a drying operation. The
storing container is located at a bottom or lower portion of the dryer 1 and is extractable
for discharging stored condensate from the container 2. In particular, when the dryer
1 is in its operating position, the container 2 is extractable from the dryer 1 in
a horizontal or substantially horizontal direction or movement, i.e. in a drawer-like
manner.
[0021] Fig. 2 shows a perspective view of a condensate storing container 2. The storing
container 2 comprises a main body 28 having an inner volume to collect or store fluid
like condensed water. The container 2 comprises a single, i.e. only one, opening 4
at which a valve 6 is arranged. The valve 6 is in a closed state when the container
2 is extracted from the dryer 1 and is in an opened state when the container 2 is
(completely) inserted in the dryer 1 in its operating position. Thus the container
2 is filled with condensate and the condensate is discharged from the container 2
via or through the valve 6 and the the single opening 4, respectively. Two locking
hooks 40a-b are arranged next to or at the valve 6 or opening 4 to releasable couple
the container 2, i.e. the valve 6, to a mating coupling device 42 (Fig. 4) of a drain
pipe or duct (44) (Fig. 4) of the dryer 1 when the container 2 is inserted. The locking
hooks 40a-b provide a secure connection of the container 2 to the laundry dryer 1
when the container 2 is inserted while at the same time the connection is easily releasable
by a user pulling at the container, e.g. with a short jerk. To provide a secure grip
for a user when extracting and discharging the container 2, the container comprises
a grip section 26 at a side portion of the container 2 facing the outside of the dryer
1 when the container 2 is inserted. The container main body 28 comprises several pictograms
30 which indicate that the condensate stored in the container 2 is suitable for watering
plants, ironing and batteries and is not suitable for drinking. The main body 28 is
formed in one-piece, e.g. by blow molding to provide a cost-efficient production of
the storage container 2.
[0022] Fig. 3 shows a perspective view of a detail of the storing container 2 of Fig. 2
with the valve 6 in a closed state and Fig. 3a shows a perspective sectional view
of the detail of Fig. 3. The valve 6 comprises a (stationary) valve body 10 which
is connected or fixed to the container main body 28, wherein in this embodiment the
locking hooks 40a-b are formed integrally with the valve body 10. Within the valve
body 10, in particular in a body pipe section 22 of the valve body 10, a moveable
valve element 8 is guided. The valve element 8 comprises an element pipe section 24
which is guided by the valve body 10, i.e. the body pipe section 22. In particular
an outer surface of the element pipe section 24 is guided on or slides along an inner
surface of the body pipe section 22, e.g. when the valve element 8 is pushed into
the valve body 10 during inserting the container 2 into the dryer 1. The valve element
8 comprises a hollow profile portion, in particular a hollow profile end portion which
faces into the container 2 or into the container main body 28. The hollow profile
portion comprises four passages 20a-c (only three visible in Fig. 3) through which
the container 2 is filled and emptied, i.e. through which the condensate flows when
the container 2 is inserted in the dryer 1 and when the container 2 is discharged
after extracting it from the dryer 1.
[0023] The valve 6 comprises several gaskets 18a-c in form of O-rings. Gasket 18c is arranged
on the moveable valve element 8 and provides a tight sealing between a first sealing
surface 12 of the the valve body 10 and a second sealing surface 14 of the valve element
8. A spring element 16 (Fig. 4a) provides that the valve element 8 and the valve body
10, i.e. the respective sealing surfaces 12, 14, are pressed tightly together when
the container 2 is extracted from the dryer 1, such that the valve is in the closed
state and stored condensate cannot be spilled accidentally.
[0024] Fig. 4 shows a top view of the storing container of Fig. 2 before coupling the storing
container 2 to a coupling device 42 attached to the draining duct 44 of the laundry
dryer 1. Fig. 4a shows a cross-sectional side view of Fig. 4 along the line A-A. The
spring element 16 pushes the valve element 8, i.e. the second sealing surface 14,
against the first sealing surface 12 of the valve body 10 such that the valve 6 is
in the closed state. The (open) end of the moveable valve element 8 facing the outside
of the container 2 has a maximum outlet diameter d. When actuating the valve 6, the
valve element 8 is pushed along the valve axis into the (stationary) part of the valve
6, i.e. the valve body 10 (Figs. 5, 5a). An actuation length of the valve element
8, i.e. the length the valve element 8 has to be moved from the closed valve state
to the (completely) open valve state, is in the range of 5 mm to 15 mm. In particular
the valve 6 is (completely) open when the complete cross-section of all passages 20a-c
is exposed to the inner volume of the container 2, i.e. the container main body 28.
[0025] Fig. 5 a top view of the storing container 2 of Fig 2 after coupling the container
2 to the coupling device 42 of the laundry dryer 1. Fig. 5a shows a cross-sectional
side view of Fig. 5 along the line B-B. The valve 6 is actuated, i.e. the valve element
8 is pushed into the valve body 10 such that the passages 20 a-c are exposed to the
interior of the main body 28, i.e. the valve is in the open state. In particular the
actuation length of the valve element 8 is selected such that at the end of the actuation
movement the passages 20a-c are fully exposed in their maximum axial length x (Fig.
7).
[0026] In particular the sum of the cross-sections of all passages 20a-c is equal to or
approximately equal to the cross-section of the maximum axial opening of the valve
element 8, in particular the outlet opening of the valve element 8 having the diameter
d. Thus a free flow of water through the valve 6 during discharging the container
2 is provided, i.e. the water flow through the valve 6 is not or is essentially not
constricted. By providing several passages 20a-c through the valve element profile
section the counterflow of air during discharging the container 2 is facilitated,
whereby the discharging time for the container 2 is reduced.
[0027] Fig. 6 shows a cross-sectional side view of the valve 6 of the container 2 of Fig.
2 in a closed state and Fig. 7 shows a cross-sectional side view of the valve 6 in
an open state during discharging. Fig. 7 shows that the projecting length of the valve
element 8 which protrudes from the (stationary) valve body 10 in the closed valve
state corresponds to the (minimum) actuation length (i.e. the minimum length or distance
the valve element 8 is moved between the closed and opened valve state, i.e. to fully
uncover or open the cross-section of all passages 20a-c to the inner volume of the
container). The (minimum) actuation length in turn corresponds to the maximum axial
length x of the passages 20a-c. In other words the valve body 10 or the outer edge
of the valve body 10 forms a mechanical stop when the valve 6 reaches the (completely)
open valve state, such that an incorrect handling of the valve 6 during discharging
is prevented. Thus by actuating the valve 6 for discharging stored condensate (Fig.
8) the passages 20a-c are completely open to the inner volume of the container 2 and
the container 2 is discharged in minimum time.
[0028] Fig. 8 shows a perspective cross-sectional view of the storing container 2 of Fig.
2 when discharging stored condensate. After removing or extracting the container 2
from the dryer 1, the valve 6 is in the closed state (Fig. 6). To discharge the container
2, e.g. in a sink 46, the container 2 is oriented such that the valve 6 faces or faces
approximately downwards. The valve element 8 is brought into contact with the (bottom
of the) sink 44 and pushed downwards such that the valve element 8 is actuated, i.e.
pushed into the valve body 10 (Fig. 7). As long as a user pushes the container 2 downwards
against the biasing force of the spring element 16 the valve is in an open state and
stored condensate is discharged.
[0029] Thereby it is advantageous that a user does not come into contact with the stored
water and can extract and discharge the container 2 with only one hand as no cap or
cover has to be removed to drain water from the container 2. Alternatively the container
2 is dischargeable by a user pushing the valve element 8 manually into the valve body
10, e.g. with a finger.
[0030] Fig. 9 shows a perspective view of the laundry dryer of Fig. 1 from below. The container
2 is inserted in the corresponding recess at a bottom portion of the dryer 1. As shown
in the magnified detail, the valve 6 is connected to the draining duct 44, i.e. the
mating coupling device 42, of the dryer 1 at a back portion of the dryer 1.
Reference Numeral List:
[0031]
- 1
- condenser dryer
- 2
- container body
- 4
- opening
- 6
- valve
- 8
- movable valve element
- 10
- valve body
- 12
- first sealing surface
- 14
- second sealing surface
- 16
- spring element
- 18a-c
- gasket
- 20a-c
- passage
- 22
- body pipe section
- 24
- element pipe section
- 26
- grip section
- 28
- container main body
- 30
- pictogram
- 40a-b
- locking hook
- 42
- coupling device
- 44
- draining duct
- 46
- sink
- x
- axial passage length
- d
- outlet diameter
1. Laundry dryer comprising a condensate storing container, the condensate storing container
(2) having a container main body (28) for storing condensate formed in the laundry
dryer (1) producing condensate, the container (2) comprising a coupling device arranged
at an opening (4) of the container main body (28) and adapted to couple to a mating
coupling device (42) of the laundry dryer (1),
wherein the coupling device comprises a valve (6) arranged at the container opening
for opening and closing the container opening (4),
wherein the valve (6) comprises a valve body (10) having a first sealing surface (12)
and valve element (8) having a second sealing surface (14),
wherein the valve element (8) is received in the valve body (10) and is biased by
a spring element (16) such that the second sealing surface (14) is biased against
the first sealing surface (12) in the closed valve state,
wherein the valve element (8) is adapted to be actuated against the biasing force
of the spring element (16) when coupling the coupling device and the mating coupling
device (42) of the laundry dryer, and
wherein at least a portion of the valve element (8) has a hollow profile shape comprising
passages (20a-c) through the profile wall for passing the condensate in the open valve
state,
characterized in that
the condensate storing container (2) has exactly and only one opening (4) between
the exterior and the interior of the container (2) for passing the condensate through
the coupling device in order to drain the condensate from the condensate storing container
(2).
2. Laundry dryer according to claim 1, wherein the profile shape portion of the valve
element (8) has at least 3, 4, 5, 6 or more condensate passages (20a-c) through the
profile wall.
3. Laundry dryer according to claim 1 or 2,
wherein the cross section area of the axial passage through the profile shape portion
of the valve element (8) is the same or is approximately the same as the sum area
of the areas of all condensate passages (20a-c) through the profile wall, or
wherein the difference between the cross section area of the axial passage through
the profile shape portion of the valve element (8) and the sum area of the areas of
all condensate passages (20a-c) through the profile wall is within a range of +/-
5%, 10%, 20%, 30% or 40%.
4. Laundry dryer according to claim 1, 2 or 3, wherein at least the container main body
(28) of the storing container (2) is formed by blow molding.
5. Laundry dryer according to any of the previous claims, wherein the deflection movement
path length or stroke length of the valve element (8) when moving from the closed
to the open valve state is at least 7 mm, 8 mm, 10 mm, 12 mm or 15 mm.
6. Laundry dryer according to any of the previous claims, wherein the valve element (8)
or an actuation element coupled to the valve element (8) for actuating the valve element
(8) is protruding from a stationary surrounding of the valve (6) or container (2),
which is rigidly connected or coupled to the main body (28) of the container, at least
7 mm, 8 mm, 10 mm, 12 mm or 15 mm.
7. Laundry dryer according to any of the previous claims, wherein the stroke and/or actuation
length is equal to or is essentially equal to the (maximum) axial length (x) of the
at least one condensate passage (20a-c).
8. Laundry dryer according to any of the previous claims, wherein the valve body (10)
comprises a body pipe section (22) having an inner surface parallel to the actuation
path of the valve element (8) when being moved from the closed to the open valve state
and wherein the valve element (8) comprises a pipe section (24) having an outer surface
mating to the inner surface of the body pipe section (22) and sliding on the inner
surface during valve element actuation, wherein in the closed and the maximum open
valve state the inner surface and outer surface overlap an alignment length parallel
to the actuation path.
9. Laundry dryer according to any of the previous claims, wherein the minimum alignment
length of overlap between the inner surface and outer surface is at least 3 mm, 4
mm, 5 mm, 6 mm or 7 mm.
10. Laundry dryer according to any of the previous claims, wherein a grip section (26)
is formed on the container main body (28).
11. Laundry dryer according to any of the previous claims, wherein the grip section (26)
is formed on an edge region of the main body (28) opposite to an edge region where
the valve (6) is arranged at the container main body (28).
12. Laundry dryer according to any of the previous claims, wherein the grip section (26)
comprises one, two, three or more recesses in the container main body (28) with respect
to the outer main contour of the container main body (28).
13. Laundry dryer according to any of the previous claims, wherein at least one pictogram
(30) is formed on the outer surface of the container main body (28).
14. Laundry dryer according to any of the previous claims, wherein the at least one pictogram
(30) comprises one or more of: an indication that the condensate water can be used
for ironing, an indication that the condensate water can be used as flower water,
an indication that the condensate water may not be used as drinking water, and an
indication that the water may be used as decalcified or battery water.
15. Method of draining condensate from a condensate storing container of a laundry dryer
according to any of the previous claims, comprising the steps:
pulling the condensate storing container (2) containing condensate water out of the
laundry dryer (1), and
discharging the condensate storing container (2) by orienting the container such that
the valve (6) is or is approximately pointing downwards and manually actuating the
valve element (8) by pressing the valve element (8) by a user's finger towards the
open valve state or by abutting the valve element (8) or an actuating element for
actuating the valve element (8) protruding from the valve body (10) against a stationary
element at a water draining sewage device or installation (46).