[0001] The present invention relates to a washing machine comprising a tub having a sump
portion with a float and a drain line downwards the sump portion with a drain pump,
said float being configured to prevent communication between the sump portion and
the drain line when the drain pump is switched off and a liquid is present in the
drain line.
[0002] This kind of washing machine is well known in the art, and it is disclosed for instance
by
US 4821537. Said float, called also eco-ball in the industry, is driven by a back pressure deriving
from the presence of washing liquid or water in the drain line after the drain pump
has switched off. The purpose of the float is mainly to prevent the dispensed detergent
from sinking down into the drain line.
[0003] Even if the above known solution is very effective in creating a tight seal which
closes the tub drain tightly, it presents noise problems ("snorkeling" noises) created
by the drain pump during draining. If the washer is drained by the drain pump it can
happen (if the wash unit and the eco system including the above float is empty while
drain pump is still running) that the remaining water inside drain line between pump
impeller and exit orifice of the drain line starts to pulse. If this effect happens
it can be heard by customers as annoying snorkeling noise.
[0004] Another problem is linked to the use of the above known system with float when a
washing liquid circulation system is present (i.e. in washers using the so called
re-circulation technology), which drains a washing liquid from the sump portion of
the tub and supplies such liquid via a circulating line again in the tub. In this
configuration possible foam spits on door glass and laundry are created when the drain
pump is switched off. When a washer is drained by the drain pump, water will remain
in the drain line between drain pump and the exit orifice of the drain line. When
the drain pump is switched off the remaining water (water column) will immediately
flow back with speed towards wash unit. In case of a re-circulation where it is possible
to have communicating pipes, the water will fill the drain pump and will also flow
up the circulating line which is connected to the top of the wash unit. This can be
considered as a pressure peak. If now during the spinning where vibrations are present
some foam is built up in the empty pump housing the pressure peak will lift up the
foam inside the re-circulation hose. That can be visible for customer as undesired
foam spite on the door glass or laundry.
[0005] It is an object of the present invention to overcome the above technical problems
by a simple and effective solution.
[0006] Such object is reached thanks to the features listed in the appended claims.
[0007] According to a main feature of the invention, by adding a flap valve to the drain
line, for instance at the drain pump outlet or in the drain line (close to pump),
the pressure peak when drain pump is switched off will be entirely avoided and there
will not be any remaining water inside drain hose that can start to pulse generating
undesired noise. The flap valve according to the invention is working more or less
like a check valve or flow reducer, and in order to ensure the functionality of the
float of the known washer eco system, the flap has a predetermined water leak, for
instance created by having one or more very small opening(s) to allow the remaining
water to flow back towards wash unit at very low flow and speed to seal the eco system.
[0008] Other advantages of the present invention are the lack of rewetting of laundry when
the drain pump is switched off, such rewetting decreasing dramatically rest moisture
coefficient. Moreover according to the present invention no siphon is required in
the circulating line, which could increase the risk of contaminating laundry with
bacteria.
[0009] With the combination of flap valve and predetermined leakage the customer perceived
quality is improved in terms of minimizing annoying noise during spinning when drain
pump is running into air water condition.
[0010] Further advantages and features according to the present invention will become clear
from the following detailed description, provided by way of non-limiting example,
with reference to the attached drawings in which:
- Figure 1 shows the present draining system of a washer during the wash process;
- Figure 2 is similar to figure 1 and shows the draining system during a draining phase;
- Figure 3 shows a washer provided with a draining system according to the invention
in one first embodiment;
- Figure 4 shows the washer of figure 3 in the draining phase as in figure 2;
- Figure 5 is an enlarged detail of figure 4; and
- Figure 6 shows a second embodiment of a washer according to the present invention.
[0011] With reference to figure 1, a known washer 10 presents a tub 14 having a sump 12
using an eco-ball system 13 (whose float is indicated with reference numeral 13a).
In the tub 14 a rotating drum 16 is mounted, and the tub 14 is sealed due to the buoyancy
of the float 13a and of difference of water level D between water level A inside the
tub 14 and water level B in a drain hose 18. Downstream the eco-ball system 13 a drain
pump 20 is mounted, which is figure 1 is shown as idle ("off").
[0012] In figure 2 the same washing machine of figure 1 is shown in a final phase of draining,
i.e. when the drain pump 20 is running, the eco-ball system 13 is in an open configuration,
there is a sort of air and water mixture in the pump 20 and the water column inside
the drain hose 18 starts pulsating and generating annoying noises.
[0013] In figure 3 a washing machine according to the invention is shown, where for similar
or identical components the same reference numbers of figures 1 and 2 are used. According
to the invention, downstream the drain pump 20 a flap valve 22 is placed in the drain
hose 18 which is opened by the water flow delivered by the drain pump 18 and behaves
like a check valve.
[0014] In figure 4 the washing machine 10 according to the invention is shown at the end
of the draining phase, i.e. when the tub 14 is empty and no water remains to feed
the drain pump 20. Due to the use of the flap valve 22, an uncoupling is realized
between the water column inside drain hose 18 and air and water mixture inside the
drain pump 20. In this configuration the flap valve 22 is in its closed position,
while annoying pulsating noise is prevented. As shown in figure 5, the flap valve
22 present a central small hole 22a of about 3 to 5 mm which allows the water column
inside drain hose 18, once the drain pump 20 is switched off, to flow back smoothly
to the eco-ball system 13, so that such system is able again to seal the tub 14. Of
course even if in the example the controlled leakage of the flap valve 22 is realized
by a small hole 22a, there can be used other system, particularly if the flap valve
is replaced by a ball valve acting as a check valve (in this case one or more small
grooves in the seat of the ball valve could be used as well).
[0015] In figure 6 a second embodiment of the invention is shown, particularly with reference
to a washing machine having a circulating line 26 and a circulation pump 28. In this
case to the problem of pulsating noise in the drain hose 18 the problem of foam inside
the circulating line 26 above rising water column (due to vibration during spinning)
is added.
[0016] By using the flap valve 22 or similar non return valve with controlled leakage in
the drain hose 18 downstream the drain pump 20 allows a smooth water back flow of
washing liquid and a slow equalization of water level in the drain hose 18 and in
the circulating line 26. This prevents possible foam spits into the drum 16 or over
door glass (not shown) when drain pump 20 is switched off.
[0017] Even if the above example is referred to a horizontal axis washing machine, the technical
solution according to the invention may be applied to vertical axis washing machine
and to washer-dryers as well.
1. Washing machine (10) comprising a tub (14) having a sump portion (12) with a float
(13, 13a) and a drain line (18) downstream the sump portion (12) with a drain pump
(20), said float (13, 13a) being configured to prevent communication between the sump
portion (12) and the drain line (18) when a liquid is present therein, characterized in that downstream said drain pump (20) the drain line (18) is provided with an anti-return
valve (22) having a predetermined leakage.
2. Washing machine according to claim 1, wherein the anti-return valve is a flap valve
(22).
3. Washing machine according to claim 2, wherein said predetermined leakage is obtained
by means of a hole (22a) in the flap valve (22).
4. Washing machine according to any of the preceding claims, wherein a circulating line
(26) is present with a circulation pump (28), said drain pump (20) being placed downstream
the circulation pump (28) in the draining flow direction.
REFERENCES CITED IN THE DESCRIPTION
This list of references cited by the applicant is for the reader's convenience only.
It does not form part of the European patent document. Even though great care has
been taken in compiling the references, errors or omissions cannot be excluded and
the EPO disclaims all liability in this regard.
Patent documents cited in the description