Technical Field
[0001] This invention relates to automatically discharge of salty water flooded during process
for salt addition into water softener located in the dishwashers.
Prior Art
[0002] The dishwashers warn users after it is detected that the salt is consumed in the
water softener located in the dishwasher. When the user opens the cover of the water
softener to add salt therein, salty water floods because of the pressure in the water
softener. Moreover, water keeps flooding until the salt addition of the user finishes
and some amount of salty water accumulates inside the machine. When the machine is
operated after salt addition process, some evident stains on the washed dishes remain.
Accordingly, before the user operates the machine on any program, said user should
operate the dishwasher on pre-wash program while it is empty after each salt addition
process. In the case the user forgets to operate the machine on pre-wash program after
the salt addition process, washing performance of the machine decreases and stains
on dishes are formed. Also, since the pre-wash program is achieved by delivering water
to water jets, it could not be used when the machine is loaded, so machine must be
certainly empty.
[0003] In the system described in
published patent application EP 0405086, pre-wash program is used to make resin to implement reverse washing without expanding
the washing time. Resin is renewed by implementing reverse washing on this program
that is used to clean the remained water residue on renewed resin. In this system,
there is no cleaning program for cleaning the water flooded from the water softener
located in the machine when the machine is empty.
[0004] Salt cleaning program of the invention could be used to clean the salty water flooded
during the salt addition in dishwashers even if the machine is loaded. In this system,
after the salt addition to the water softener of the dishwasher is detected, the machine
starts to operate according to a program specified during the manufacture and firstly
salty water is discharged and then it continues to normal washing program to provide
washing of dishes. Therefore, dishes are washed as stain free without the need for
a user to choose an option and by eliminating the possibility for the user to forget
to choose the pre-wash program.
Object of the Invention
[0005] The object of this invention is to discharge water flooded from the water softener
located in the dishwasher during salt addition process and the pressure change of
water softener without the need for a user to make any operation and to wash inside
of the sump.
[0006] Also, it is aimed by this invention to prevent dishes from remaining with stains
after being washed following the salt addition process.
[0007] Another object of the invention is to accomplish salty water discharge even if the
machine is loaded.
In one object of the invention, dishwasher starts cleaning program and implements
pre-wash program even if it is loaded by intake of water into the sump and than to
drying pump instead of spray arms.
Description of Figures
[0008] Salt cleaning program of the invention is illustrated in appended graphics and figures,
in which:
Graphic 1 is a graphic of water amount in the machine - time showing changes in accumulated
water and water amount during discharge over the time.
Figure 1 is a rear perspective view of the dishwasher.
Figure 2 is a view of the sump group.
Corresponding meanings of references shown in graphic and figures are given below:
Water accumulated in the machine (A)
Amount of water intake to the machine (B)
Dishwasher (1)
Water softener (2)
Sump (3)
Drain Pump (4)
Waste water discharge channel (5)
Water inlet valve (6)
Air breaker (7)
Water inlet tap (8)
Ion exchanger (9)
Ion exchanger connection hose (10)
Hose (11)
Electrovalve (12)
Description of Invention
[0009] In an exemplary dishwasher (1) shown in Figure 1 as a rear perspective view, as it
is known, it comprises a water inlet tap (8); a water inlet valve (6) which controls
incoming of water into the machine (1) from water inlet tap (8); an air breaker (7)
where the intake water coming into the machine (1) is firstly directed and air bubbles
contained therein are separated; a water softener (2) in the machine having salt-water
mixture in one section and ion exchanger (9) in other section; an ion exchanger connection
hose (10) which provides delivering of water exits from air breaker (7) where the
air bubbles are separated to ion exchanger (9); an electrovalve (12) which is located
between the section in which the salt-water mixture is contained and the section belonging
to ion exchanger (9) and operates at time intervals predetermined by the manufacturer
according to the water hardness; a hose (11) providing a connection between air breaker
(7) and the section in which the salt-water mixture is contained; a sump (3) where
the water flooded from the water softener (2) accumulates as a result of the pressure
formed in the water softener (2) when the cover of the water softener (2) is opened
to add salt; a drain pump (4) (figure 2) used to discharge the water accumulated in
the sump (3) through the waste water discharge channel (5) (figure 2). Besides, there
is a control panel (not shown in figure) comprising of displays and/or indicators,
electronic cards for the purpose of controlling and programming in dishwashers (1).
As it is known, before the washing program starts in dishwasher (1), air bubbles in
the water taken inside to the machine (1) are separated in the air breaker (7) and
from here water is directed to the ion exchanger (9) in the water softener (2) by
means of the ion exchanger connection hose (10). Also, inhibition of ion exchange
between exchanger (9) and the water upon accumulation of these bubbles around the
exchanger (9) is prevented by separation of air bubbles in the water, before it reaches
to water softener (2). In addition, by removing of air bubbles, extra pressure that
they may lead in the water softener (2) is also prevented.
[0010] When the water separated from air bubbles reaches to ion exchanger (9) in the water
softener (2), calcium and magnesium ions contained that cause the water hardness are
retained on the exchanger (9), conditioned and sent to the machine (1). When the water
hardness exceeds the limit determined by the manufacturer, salt-water mixture is delivered
to the ion exchanger (9) by the electrovalve (12) opened with a signal coming from
the electronic card before the water is sent to the machine (1) and ions accumulated
on the ion exchanger (9) are cleaned off. For this cleaning process, water exiting
from the air breaker (7) reaches this section by passing through the hose (11) located
between the air breaker (7) and the section where the salt-water mixture is contained.
Water passed through the ion exchanger (9) reaches to the sump (3) and is discharged
from here by the drain pump (4). Ion exchanger cleaning process is generally made
process in many machines.
[0011] The salt used to clean the exchanger (9) in the dishwashers (1) is put in the water
softener (2) located in the machine (1) shown in figure 1. When the salt in the water
softener (2) is over, absence of salt is detected by the machine (1) and the user
is warned to add salt by signals such as a turned on indicator light located on the
control panel of the dishwasher (1) or relevant warning seen on the display. When
the user opens the cover of the water softener (2) to add salt, some amount of salty
water floods into the sump (3) due to pressure inside the receptacle (2). Flooding
of water continues during the salt addition process and some amount of water accumulates
in the sump (3). After the salt addition process ended, cover of the water softener
(2) is closed by the user.
[0012] In prior art, when washing is made after the salt addition, water taken into the
machine (1) is mixed with the water of high salt concentration in the sump (3) and
since the dishes are washed with this salty water mixture, stains are formed on the
dishes after washing. In the method of the invention as shown in figure 2, salty water
accumulated in the sump (3) is discharged before washing and dishes are prevented
to remain as stained. To do so, when the indicator light located on the control panel
is turned off after the salt is added to the machine (1), a signal goes to the electronic
card on the control panel and stays at the memory of the card to make the machine
(1) to operate salt cleaning program of the invention after it is firstly operated
by the user following the salt addition process no matter which washing program is
chosen by the user, primarily to discharge of salty water accumulated in the sump
(3), then to continue to the washing program chosen by the user to obtain stain-free
washing of dishes. Salt cleaning program is operated only once before normal washing
program by first operation of the machine by means of the signal remained at the memory
of the card and then this signal is deleted from the card memory. Afterwards, machine
(1) operates in normal washing program until next salt addition to the machine (1).
In order to use the salt cleaning program when the machine (1) is both empty and full,
during the salt cleaning program of the invention, washing motor located inside the
dishwashers is not operated and therefore water passes firstly through the air breaker
(7) and then through the ion exchanger (9) in the water softener (2) and accumulates
in the sump (3) without being delivered to the spray arms located inside the dishwashers.
[0013] In graphic 1, a graphic of water amount in the machine (1) - time showing changes
in accumulated water in the sump (3) of the dishwasher (1) and water amount during
discharge over the time is given. After the salt addition into the water softener
(2) is detected, a signal sent to the electronic card is saved in the card memory
and machine (1) sets the salt cleaning program before any program chosen by the user
and electronic card starts this program by operating the drain pump (4). As can be
seen from the graphic 1, as soon as the salt cleaning program starts, water (A) accumulated
in the sump (3) of the machine (1) is completely discharged from the machine (1).
At this stage, water inside the sump (3) is completely discharged. Then, water starts
to fill the sump (3) by passing firstly through the air breaker (7) and then the exchanger
(9) in the water softener (2) after electronic card opens the inlet valve (6). Water
(B) is taken inside the machine (1) in just enough amounts to remove salty water residues
in the sump (3). Amount of water is determined according the size of the sump (3).
Since the washing motor is not operated during the water intake process, water is
not sent to the spray arms but it is conditioned by passing through the air breaker
(7) and then exchanger (9) in the water softener (2) and the sump (3) is filled with
that water, therefore it is not important whether the machine (1) is empty or loaded.
Then, the water taken inside is discharged by operating the drain pump (4) from a
while and discharged water is expelled by delivering to the waste water discharge
channel (5). At this stage, water inside the machine (1) is again discharged completely.
Therefore, salty water accumulated in the machine (1) is cleaned by taking water inside
the machine (1) and discharging it. Water is taken inside machine (1) and then discharged
one or more times. Therefore, the cleaning program of the invention is automatically
operated without the need for the user to make any operation, unwanted salty water
accumulated in the sump (3) is discharged and washing the dishes is continued according
to the program chosen by the user.
[0014] It will be recognized that the above described invention may be embodied in other
specific forms without departing from the spirit or essential characteristics of the
disclosure. Thus, it is understood that the invention is not to be limited by the
foregoing illustrative details, but rather is to be defined by the appended claims.
1. A salt cleaning method used in dishwashers comprising a water inlet valve (6) which
controls incoming of water into the machine (1) from water inlet tap (8); an air breaker
(7) where the intake water is firstly directed and air bubbles contained therein are
separated; a water softener (2) in the machine having salt-water mixture in one section
and ion exchanger (9) in other section and whereto water coming from the air breaker
(7) is directed; an ion exchanger connection hose (10) which provides delivering of
water exited from air breaker (7) where the air bubbles are separated, to the ion
exchanger (9); an electrovalve (12) which is located between the section in which
the salt-water mixture is contained and the section belonging to ion exchanger (9)
and operates at time intervals predetermined by the manufacturer according to the
water hardness; a hose (11) providing a connection between air breaker (7) and the
section in which the salt-water mixture is contained; a sump (3) where the water flooded
from the water softener (2) is accumulated as a result of the pressure formed in the
water softener (2) when the cover of the water softener (2) is opened to add salt
and the salt addition of the user; a drain pump (4) used to discharge the water accumulated
in the sump (3) through the waste water discharge channel (5), to provide for discharging
of salty water flooded from the water softener (2) located in the dishwasher (1) during
salt addition process due to pressure inside the water softener (2) and the salt addition
of the user without the need for the user to make any operation, for washing inside
the sump and after salt addition process for preventing the dishes to be remained
as stained; the method
characterized in that it comprises following steps:
i. a signal sent to the electronic card after the detection of salt addition into
the water softener (2) is saved in the card memory and machine (1) sets the salt cleaning
program before any program chosen by the user;
ii. electronic card starts salt cleaning program by operating the drain pump (4);
iii. as soon as the salt cleaning program starts, water (A) accumulated in the sump
(3) of the machine (1) is completely discharged from the machine (1);
iv. water taken into the machine (1) starts to fill the sump (3) in the amount (B)
enough to remove the salty water residues, without being sent to the spray arms since
the washing motor is not operated, by passing firstly through the air breaker (7)
and then the exchanger (9) in water softener (2) after electronic card opens the inlet
valve (6);
v. the water filled the sump (3) is discharged from a while by operating the drain
pump (4) and expelled by delivering into the waste water discharge channel (5) and
again the water inside the machine (1) is completely discharged;
vi. providing operation of the machine (1) on normal washing programs until next salt
addition to the machine by deleting the signal stored at the memory at first stage
from the card memory.
2. A salt cleaning method according to claim 1 wherein fourth and the fifth stages are
repeated at least once.