FR2980217A1 - WASHING MACHINE COMPRISING A WATER RECIRCULATION DEVICE - Google Patents

Abstract

A washing machine (1) comprises: a body (2); a washing tub (5); a drum (7) rotatably mounted in said wash tub (5), said drum (7) having a loading and unloading opening of the laundry being closed by a door (9); a water recirculation device (10) comprising a water recirculation pump (11) circulating the water inside said washing tub (5). Said water recirculation pump (11) is stopped during the rotational drive of said drum (7) in a first direction of rotation and put into operation when driving said drum (7) in a second direction rotation, wherein the first direction of rotation produces a decrease in the amount of water in the lower part of said washing tank (5) greater than the second direction of rotation. Use especially in a washing machine.

Description

The present invention relates to a laundry machine equipped with a water recirculation device. In general, the invention relates to washing machines and machines for washing and drying laundry, and more particularly the machines for domestic use. Washing machines are already known comprising a body having an access opening. A wash tub is housed inside the body. The wash tub has an opening for loading and unloading laundry. A drum is rotatably mounted in the wash tub. The drum has an opening for loading and unloading laundry. This opening is closed by a door. The washing machine also includes a water recirculation device. The water recirculation device comprises a water recirculation pump circulating the water inside the washing tub. These laundry machines operate the water recirculation pump continuously during a laundry stirring step of an operating cycle of the machine regardless of the direction of rotation of the drum. However, these washing machines have the disadvantage, during the driving rotation of the drum, causing a phenomenon of driving water and air in the water recirculation pump. This water and air entrainment phenomenon in the water recirculation pump occurs when the amount of water located upstream of it for its water supply is less than a threshold value. In addition, the operating cycles implemented by the washing machines are defined so that the volume of water present in the wash tank is as low as possible to reduce the consumption of water and energy.

The amount of water present in the lower part of the washing tank for the water supply of the water recirculation pump is a function, in particular, of the water supply flow rate of the washing tank, the quantity of laundry contained in the drum and the absorption of the laundry in water, the flow rate of the water recirculation pump, and the water flow time from the outlet of the water recirculation pump to the portion bottom of the wash tub. When driving in rotation of the drum, the amount of water present in the lower part of the washing tub for the water supply of the water recirculation pump is also dependent on the direction of rotation of the drum. , asperities on the peripheral contour of the drum driving the water located in the lower part of the washing tub, the position of the suction zone of the water recirculation pump in the lower part of the washing tub, and the maximum possible water volume at the suction zone of the water recirculation pump -2- at the bottom of the wash tank. During the rotation of the drum and the operation of the water recirculation pump, these different parameters cause a phenomenon of driving water and air in the water recirculation pump as soon as the The amount of water present in the lower part of the washing tank is insufficient to avoid water and air supply to the water recirculation pump. The phenomenon of water and air entrainment in the water recirculation pump generates an increase in the level of acoustic noise. Taking into account the various parameters described above, the phenomenon of driving water and air in the water recirculation pump occurs more rapidly in a first direction of rotation of the drum relative to a second rotation of the drum. The amount of water present in the lower part of the washing tank decreases more rapidly in a first direction of rotation of the drum relative to a second direction of rotation of the drum, in particular, because of the asperities on the peripheral contour of the drum forming a water retaining zone and entraining water located in the lower part of the washing tub. In the case of washing machines with laundry loading from above, these have the disadvantage, when driving in rotation of the drum in a first of two directions of rotation of the drum, a zone of Water retaining formed at least in part by the drum door causes the water located in the lower portion of the wash tub. The water retaining zone formed at least in part by the drum door, having a scoop shape, causes the water at the bottom of the wash tub to be driven during the rotational driving of the drum. drum in the first direction of rotation. Therefore, the movement of water entrained by the water retaining zone formed at least in part by the drum door generates noise. This movement of water during the rotation of the drum in the first direction of rotation is generated when the drum door comprises one or two gates. In a first case where the drum door comprises a single door, the water holding area is formed by the spacing between the drum door and the drum shell.

In a second case where the drum door comprises two gates, the water holding zone is formed by the spacing between the first drum gate and the second drum gate. In addition, the movement of water from the bottom of the washing tub generated by the drum door during the driving of the drum in the first direction of rotation causes a decrease in the amount of water present in the drum. lower part of the washing tank, and in particular at the suction zone of the water recirculation pump. Therefore, when the amount of water present in the lower part of the washing tub is too low, the water recirculation pump is not sufficiently filled and the noise level generated by it increases. The water movement generated by the drum door in the wash tub and the lack of water supply to the water recirculation pump causes noises that are noticeable to the user. Thus, the acoustic noise level in the direction of rotation of the drum where the drum door causes the water located in the lower part of the washing tub is greater than that generated in the other direction of rotation of the drum.

The noise generated by the operation of the water recirculation pump when driving the drum in the first direction of rotation is a source of discomfort for the user. In addition, the water flow recirculated by the water recirculation pump when driving the drum in the first direction of rotation is low and does not improve the washing performance during a cycle. operation of the washing machine. The object of the present invention is to solve the aforementioned drawbacks and to propose a machine for washing the laundry making it possible to adapt the operation of a water recirculation device during the rotational driving of a drum so as to minimize the noise related to the amount of water in the lower part of a washing tub for the water supply of a water recirculation pump. For this purpose, the present invention is directed to a laundry machine comprising: a body having an access opening; a wash tub housed within said body, said wash tub having an opening for loading and unloading laundry; a drum rotatably mounted in said wash tub, said drum having an opening for loading and unloading laundry, said opening being closed by a door; a water recirculation device, said water recirculation device comprising a water recirculation pump circulating the water inside said washing tank. According to the invention, said water recirculation pump is stopped during the rotational drive of said drum in a first direction of rotation, and said water recirculation pump is put into operation during training. in rotation of said drum in a second direction of rotation, wherein the first direction of rotation of said drum produces a decrease in the amount of water in the lower part of said upper washing tank in the second direction of rotation of said drum . Thus, the control of the water recirculation pump is controlled according to the direction of rotation of the drum.

In this way, the water recirculation pump is stopped during the driving in rotation of the drum in the first direction of rotation and put into operation during the driving in rotation of the drum in the second direction of rotation so as to ensure sufficient water supply to the recirculating water pump.

Practically, the first direction of rotation of the drum corresponds to the direction of rotation of the drum where a water retaining zone formed at least partly on the peripheral contour of the drum drives the water present in the lower part of the drum. washing. Said second direction of rotation of the drum corresponds to the direction of rotation of the drum avoiding disturbing the water supply of the water recirculation pump by a quantity of water present in the lower part of the lower washing tub to a predetermined threshold value. Therefore, the servo-control of the water recirculation pump according to the direction of rotation of the drum makes it possible to reduce the acoustic noise of the recirculation pump and the maintenance of the washing performance for an operation of the recirculation pump. water associated with a single direction of rotation of the drum. In the first direction of rotation of the drum, the water recirculation pump is kept at a standstill since a water retaining zone formed at least partly on the peripheral contour of the drum causes the water located in the lower part of the washing tank so as to avoid the water supply of the water recirculation pump by a too small amount of water present in the lower part of the washing tank. In the second direction of rotation of the drum, the water retaining zone formed at least in part on the peripheral contour of the drum does not or hardly cause the water located in the lower part of the washing tank and n prevents water from flowing along the walls of the wash tub to accumulate at the suction zone of the water recirculation pump located in the lower portion of the wash tank; washing. In this case, the amount of water present in the lower part of the washing tank is sufficient to supply water to the water recirculation pump. Consequently, the noises related to the movement of water generated by the water retaining zone formed at least partly on the peripheral contour of the drum and by the insufficiency of water at the suction zone of the pump recirculating water are avoided. Controlling the control of the water recirculation pump according to the direction of rotation of the drum thus makes it possible to avoid the phenomenon of driving water and air into the water recirculation pump when the water is being pumped. rotation of the drum. In this way, the water recirculation pump is supplied with water with a sufficient quantity of water and present in the lower part of the washing tank so as to limit the entry of air into it causing acoustic noises. .

The operating time of the water recirculation pump is thus limited only to the periods of time when the quantity of water present in the lower part of the wash tank is sufficient to avoid a water entrainment phenomenon and air in it. Stopping the water recirculation pump during the rotation of the drum in the first direction of rotation of the drum avoids the phenomenon of driving water and air in the recirculation pump. water since the amount of water in the lower part of the wash tank is below a predetermined threshold value during this phase of rotation of the drum in the first direction of rotation of the drum.

Stopping the recirculating water pump during the rotation of the drum in the first direction of rotation of the drum also allows the water present in the washing tub to flow to the lower part of the where is the suction zone of the water recirculation pump. The operation of the water recirculation pump during the rotation of the drum in the second direction of rotation of the drum avoids the phenomenon of driving water and air in the recirculation pump of water, more particularly to delay it, since the amount of water in the lower part of the washing tank remains above a predetermined threshold value during this phase of driving in rotation of the drum in the second direction rotation of the drum. Other features and advantages will become apparent in the description below. In the accompanying drawings, given by way of nonlimiting example: FIG. 1 is a diagrammatic cross-sectional view of a laundry washing machine with laundry loading from above according to one embodiment of the invention; where the drum door is in the open position; Fig. 2 is a schematic sectional view of a top-loading laundry washing machine according to an embodiment of the invention, wherein the drum door is in the closed position; FIG. 3 is a diagrammatic sectional view of a top-loading laundry washing machine equipped with a water recirculation device according to one embodiment of the invention, where the body door has been removed; and FIG. 4 is a diagrammatic detail view in section of a drum housed in a washing tub of a top-loading laundry washing machine according to one embodiment of the invention.

We will first describe a washing machine. This washing machine may be a household washing machine, or a domestic washing and drying machine. Of course, the present invention applies to all types of washing machine, including front loading and loading from above the laundry.

With reference to FIGS. 1 to 4, a top-loading laundry washing machine according to one embodiment of the invention will be described. The top-loading laundry washing machine may be a household laundry machine, or a domestic laundry and drying machine.

The top-loading laundry washing machine 1 comprises a body 2 having an access opening 3. The access opening 3 can be closed by a door 4. The access opening 3 is closed during operation of the washing machine 1 by a door 4 pivotally mounted on the body 2 of the washing machine 1. The washing machine 1 comprises a washing tub 5 housed inside the body 2. The washing tub 5 comprises an opening for loading and unloading laundry 6. The washing machine 1 comprises a drum 7 rotatably mounted in the washing tub 5. The drum 7 is intended to contain the laundry . The drum 7 comprises a perforated ferrule and two flanges. The drum 7 has an opening for loading and unloading the laundry. The opening 8 is closed by a door 9, in particular a door of the drum. The access opening 3 formed in the upper part of the body 2 allows to introduce and remove the laundry in the drum 7. The opening 6 of the washing tub 5 allows the loading and unloading of laundry in the drum 7. This opening 6 of the washing tub 5 is arranged opposite the access opening 3 of the body 2. The opening 8 of the drum 7 is formed on the shell of the drum 7 and closed by the door 9 of the drum 7 while permitting the introduction and withdrawal of the laundry inside the drum 7.

The drum door 7 is movable between a closed position in which it closes the opening 8 of the drum 7, and an open position for loading and unloading the laundry contained inside the drum 7. The water at least one washing and / or rinsing bath contained in the washing tub 5 may be heated by a heating means (not shown), such as for example an electric heating resistor. The drum 7 is rotated by a motor (not shown). The washing machine 1 comprises control means (not shown), and in particular at least one microcontroller, for unfolding predetermined operating cycles.

Of course, this washing machine 1 comprises all the necessary organs (not shown) for the operation and execution of washing steps, rinsing and spinning laundry. Before carrying out a washing step, water is introduced into the washing tub 5 from a water supply (not shown). The washing step is performed by rotating the drum 7 in the washing tub 5, introducing a detergent into the washing tub 5 and possibly by heating the washing water by the heating means. To improve the efficiency of washing, it is known to implement a water recirculation device 10 during the washing step. The water recirculation device 10 comprises a water recirculation pump 11 circulating the water inside the washing tub 5. The water recirculation pump 11 pumps water into the tub 5, at a low point thereof, to reintroduce it to a high point therein. Recirculation of the washing water is thus implemented to improve the use of the detergent and to promote the wetting of the laundry contained in the drum 7. Practically, the water recirculation pump 11 sucks water in a sump 12 formed in the lower part of the washing tank 5. A first water circulation pipe 13 connects the sump 12 to the water recirculation pump 11. A second water circulation pipe 14 evacuates the water pumped by the water recirculation pump 11 back into the washing tub 5 through at least one water inlet opening (not shown) formed around a drive bearing 15 rotation of the drum 7. The water recirculation circuit described above is distinct from a water discharge circuit out of the washing tub 5. The water discharge circuit comprises an evacuation pipe of water 16 connected to the sump 12. A drain pump 17 discharges the water outside the washing tank 5 through the discharge pipe 16. The sump 12 thus comprises a first outlet intended for the recirculation of water in the washing tank 5 and a second outlet intended for the emptying of the water outside the tank. washing tank 5. According to the invention, the water recirculation pump 11 is stopped during the rotational driving of the drum 7 in a first direction of rotation, and the water recirculation pump 11 is put into operation during the rotation of the drum 7 in a second direction of rotation, in which the first direction of rotation of the drum 7 produces a decrease in the amount of water in the lower part of the washing tub 5 greater than the second direction of rotation of the drum 7.

Thus, the control of the water recirculation pump 11 is slaved according to the rotational driving direction of the drum 7. In this way, the water recirculation pump 11 is stopped during the rotational driving of the drum 7 in the first direction of rotation and put into operation when driving the drum 7 in rotation in the second direction of rotation so as to ensure a sufficient water supply of the water recirculation pump 11. driving in rotation of the drum 7 in the first direction of rotation, the decrease in the amount of water in the lower part of the washing tank 5 is produced in particular during the passage of the door 9 of the drum 7 in the lower part of the tank washing 5, and in particular by driving the water through the door 9 of the drum 7. And this reduction in the amount of water in the lower part of the washing tub 5 disrupts the water supply the pump of recirculation 11 since the qua The amount of water present in the lower part of the washing tub 5 is insufficient. The first direction of rotation of the drum 7 corresponds to the direction of rotation of the drum where a water retaining zone 18 formed at least partly on the peripheral contour of the drum 7, and in particular by the door 9 of the drum 7 , causes water present in the lower part of the washing tank 5. The second direction of rotation of the drum 7 corresponds to the direction of rotation of the drum 7 avoiding disturbing the water supply of the pump. recirculation of water 11 by a quantity of water present in the lower part of the washing tank 5 below a predetermined threshold value.

Consequently, the servo-control of the water recirculation pump 11 as a function of the direction of rotation of the drum 7 makes it possible to reduce the acoustic noise of the recirculation pump 11 and the maintenance of the washing performance for an operation of the pump. recirculation of water 11 associated with a single direction of rotation of the drum 7.

In the first direction of rotation of the drum 7, the water recirculation pump 11 is kept at a standstill since a water retention zone 18 formed at least partly on the peripheral contour of the drum 7, and in particular by the door 9 of the drum 7, causes the water located in the lower part of the washing tub 5 so as to avoid the water supply of the water recirculation pump 11 by a quantity of water too much. In the embodiment illustrated in FIG. 4, the door 9 of the drum 7 comprises two gates 19a, 19b. A first gate 19a and a second gate 19b are rotated respectively about an axis, as commonly used for the gates of a drum washing machine. The first gate 19a is designated later by upper gate. The second gate 19b is designated below by lower gate. This upper door 19a is placed above the lower door 19b when the door 9 of the drum 7 is in the closed position. This is a conventional assembly of two gates rotated about an axis, as commonly used for the gates of a washing machine drum. In order to facilitate the opening of the gates 19a and 19b, and the rotation of these gates 19a, 19b about their axis, it is conventional to mount a torsion spring to exert a rotational force about the axis.

The gates 19a and 19b are articulated independently respectively at two opposite edges of the opening 8 of the drum 7. Conventionally, each gate 19a, 19b is mounted by one of its sides in rotation respectively about an axis integral with the edge of the opening 8 of the drum 7. The water retaining zone 18 formed at least in part by the door 9 of the drum 7 is formed at the overlap portion between the upper gate 19a and the lower gate 19b. In particular, the water retaining zone 18 is formed by the spacing between the upper door 19a and the lower door 19b of the door 9 of the drum 7. In another embodiment (not shown), the Drum door includes a single door. This single door may consist of one or more removable parts.

When opening the drum door about an axis of rotation, the door is preferably located towards the rear of the washing machine so that the user is not disturbed by the door drum to access the inside of the drum. The water retaining zone formed at least in part by the drum door is provided at the overlap portion between the door and the drum shell.

In particular, the water holding area is formed by the spacing between the door of the drum door and the drum shell. Preferably, the water recirculation pump 11 is also stopped during a period of stopping the rotational drive of the drum 7 following a phase of driving the drum 7 in rotation in the first direction of rotation.

Thus, following the rotation of the drum 7 in the first direction of rotation, the amount of water entrained by the water retaining zone 18 formed at least partly on the peripheral contour of the drum 7, and in particular by the door 9 of the drum 7, flows along the walls of the washing tub 5 so as to fill the lower part of the washing tub 5.

In this way, the lower part of the washing tub 5 fills with water for a predetermined period so as to allow the operation of the water recirculation pump 11 only after the amount of water present in the lower part. of the washing tub 5 is sufficient to avoid noise related to lack of water.

In the second direction of rotation of the drum 7, the water retaining zone 18 formed at least partly on the peripheral contour of the drum 7, in particular by the door 9 of the drum 7, does not cause little or no the water located in the lower part of the washing tub 5 and does not prevent the water from flowing along the walls of the washing tub 5 to accumulate at the suction zone of the pump recirculation water 11 located in the lower part of the washing tub 5. In this case, the amount of water present in the lower part of the washing tub 5 is sufficient to supply water to the water recirculation pump 11 Consequently, the noises related to the movement of water generated by the water retaining zone 18 formed at least partly on the peripheral contour of the drum 7, in particular by the door 9 of the drum 7, and by the insufficiency water at the suction zone of the water recirculation pump 11 are avoided. Advantageously, the water recirculation pump 11 is also put into operation during a period of stopping the rotational drive of the drum 7 following a driving phase in rotation of the drum 7 in the second direction of rotation. Thus, the water contained in the washing tank 5 is recirculated in the washing tank by means of the water recirculation device 10 for a maximum period of time while avoiding the noises related to the lack of water in part. lower the washing tub 5 for the water supply of the water recirculation pump 11. In this way, the washing performance of the laundry contained in the drum 7 are optimized by the recirculation of water in the tank of washing 5.

Practically, the operation of the water recirculation pump 11 is implemented during a laundry stirring step of an operating cycle of the machine 1 where the drum 7 is rotated in the second direction of rotation. Experiments carried out by the Applicant have shown a decrease in the noise level, in particular of the order of 2 dB (A) during a washing step of a cycle of operation of a washing machine. laundry 1 where the water recirculation pump 11 is stopped during the driving in rotation of the drum 7 in the first direction of rotation and put into operation during the driving in rotation of the drum 7 in the second direction of rotation while maintaining the washing performance with respect to a washing step of an operating cycle of a washing machine where the water recirculation pump is operated regardless of the direction of rotation of the drum . The operation of the water recirculation pump 11 during the rotation drive of the drum in the second direction of rotation can be carried out in a clockwise manner, that is to say with periods of activation. and periods of deactivation, or continuously. An exemplary embodiment will now be described in which the rotation driving motor of the drum 7 is operated alternately in the first direction of rotation and in the second direction of rotation during a washing phase. a cycle of operation of the washing machine 1.

In a first step, the drum 7 is kept at a standstill and the water recirculation pump 11. This first step may be of the order of 5 seconds. In a second step, the drum 7 is rotated in the second direction of rotation and the water recirculation pump 11 is put into operation. This second step may be of the order of 15 seconds. And the drum 7 can be rotated by the motor at a rotation speed of the order of 50 revolutions per minute. In a third step, the drum 7 is stopped in rotation and the water recirculation pump 11 is kept in operation. This third step can be of a duration of the order of 5 seconds. In a fourth step, the drum 7 is rotated in the first direction of rotation and the water recirculation pump 11 is stopped. This fourth step may be of the order of 15 seconds. And the drum 7 can be rotated by the motor at a rotation speed of the order of 50 revolutions per minute. Then, the washing phase of an operating cycle of the washing machine 1 is carried out by repeating the four steps in a loop for a predetermined period. In another embodiment, during the third step, the drum 7 is stopped in rotation and the water recirculation pump 11 is also stopped. This third step can be of a duration of the order of 5 seconds. Advantageously, the water recirculation pump 11 is put into operation for a predetermined time from the start of the rotational drive of the drum 7 in the second direction of rotation. Thus, during the rotational drive of the drum 7 in the second direction of rotation, the water recirculation pump 11 is put into operation for a predetermined period during which the amount of water present in the lower part of the tank of washing 5 is sufficient. In this way, even if the rotation of the drum 7 causes a decrease in the amount of water present in the lower part of the washing tub 5, the water supply of the water recirculation pump 11 is not disturbed during the predetermined period.

This predetermined duration of operation of the water recirculation pump 11 during the rotational drive of the drum 7 in the second direction of rotation can be defined beforehand by the washing machine manufacturer 1. The machine washing the laundry 1 comprises a control unit (not shown) comprising at least one electronic card. Said at least one electronic card comprises at least one microcontroller capable of implementing predetermined operating cycles of the washing machine 1. Thus, the control unit controls in particular the water recirculation pump 11 and the motor driving rotation of the drum 7 so as to control the start and stop of the water recirculation pump 11 according to the direction of rotation of the drum 7, as previously described. With the present invention, the control of the water recirculation pump is enslaved according to the direction of rotation of the drum. In this way, the water recirculation pump is stopped during the driving in rotation of the drum in the first direction of rotation and put into operation during the driving in rotation of the drum in the second direction of rotation so as to ensure sufficient water supply to the recirculating water pump. Of course, many modifications can be made to the embodiments described above without departing from the scope of the invention. Thus, the washing machine can be a washing machine, or a washing machine and dryer. In particular, the washing machine may be of the laundry loading type from above or front.

Claims (8)

CLAIMS 1- Washing machine (1) comprising: a body (2) having an access opening (3); a wash tub (5) housed within said body (2), said wash tub (5) having a laundry loading and unloading opening (6); a drum (7) rotatably mounted in said wash tub (5), said drum (7) having a laundry loading and unloading opening (8), said opening (8) being closed by a door (9); a water recirculation device (10), said water recirculation device (10) comprising a water recirculation pump (11) circulating the water inside said washing tub (5) ; characterized in that said water recirculation pump (11) is stopped during the rotational driving of said drum (7) in a first direction of rotation, and in that said water recirculation pump (11) is operating during the rotational driving of said drum (7) in a second direction of rotation, wherein the first direction of rotation of said drum (7) produces a decrease in the amount of water in the lower part of said washing tub (5) greater than the second rotational driving direction of said drum (7). 2- washing machine (1) according to claim 1, characterized in that said water recirculation pump (11) is also stopped during a period of stopping the rotational drive of said drum (7) continued at a phase of driving in rotation of said drum (7) in the first direction of rotation. 3- washing machine (1) according to claim 1 or 2, characterized in that said water recirculation pump (11) is also operated during a period of stopping the rotational drive of said drum (7) following a rotational driving phase of said drum (7) in the second direction of rotation. 4- Washing machine (1) according to any one of claims 1 to 3, characterized in that the operation of said water recirculation pump (11) is implemented during a step of brewing laundry of an operating cycle of said machine (1) wherein said drum (7) is rotated in the second direction of rotation. 5- washing machine (1) according to any one of claims 1 to 4, characterized in that said first direction of rotation of said drum (7) corresponds to the direction of rotation of said drum (7) where a water-retaining zone (18) formed at least in part on the peripheral contour of the drum (7) entrains the water present in the lower part of said washing tub (5). The laundry washing machine (1) with top loading laundry according to claim 5, characterized in that said water retaining zone (18) is formed at least in part by said drum door (9). (7). 7- A washing machine (1) according to any one of claims 1 to 6, characterized in that said second direction of rotation of said drum (7) corresponds to the direction of rotation of said drum (7) avoiding disrupting the water supply of said water recirculation pump (11) with a quantity of water present in the lower part of said washing tank (5) less than a predetermined threshold value. 8- A washing machine (1) according to any one of claims 1 to 7, characterized in that said water recirculation pump (11) is operated for a predetermined time from the start of the rotating said drum (7) in the second direction of rotation.