TR201719563T4 - A washing machine with a filtering unit. - Google Patents

Abstract

The present invention includes a washing tub (2), at least one water inlet valve (3) that enables water to be taken from the water network (S) to the washing tub (2), a surface flow type filtration method that provides the removal of hardness by passing the mains water over a filter (F) a soft water line (5), a reservoir (6) connected to the water inlet valve (3), a reservoir (6) and a filtering unit (4), which ensures the transfer of the softened water in the filtering unit (4) to the washing tank (2). ), a feed line (7) that provides water circulation between the reservoir (6) and the filtering unit (4) flows together with the substances held on the surface of the filter (F) in the filtering unit (4) and the hard water flowing over the filter (F) It relates to a washing machine (1) comprising a return line (8) that provides transfer (6).

Description

DESCRIPTION OF A WASHING MACHINE WITH A FILTRATION UNIT This invention relates to a washing machine with a sterilization unit. In washing machines, the water taken from the external water supply and used in the washing process contains CaH and Mg*+ ions, which increase the hardness of the water. These ions, which increase the hardness of the water, combine with surfactants in detergents, reducing their cleaning properties and preventing the desired cleanliness in laundry. Furthermore, these ions form precipitates in hot water, leading to limescale buildup on components such as heaters. The current state of the art involves the use of cross-flow filtration systems to reduce water hardness. In surface flow filtration applications, water is passed tangentially over a membrane, separating it into soft and hard water. To prevent the membrane from drying out and cracking in this type of filtration unit, it is necessary to maintain sufficient water within the unit to keep it moist. However, allowing water to remain in the filtration unit creates a favorable environment for microbial growth. The text describes a washing machine where the hard water separated from the filtration unit is not discarded but used in laundry rinsing processes, thus saving water. German patent document DE19964292 B4 describes a washing machine where wash water is circulated through a filtration device to remove dirt using centrifugal force. A UV lamp is located at the filter outlet for sterilization of the circulating wash water. The invention describes a washing machine that incorporates a surface flow filtration unit to remove water hardness by passing it through a filter. The goal of this invention is to create a washing machine in which clothes are washed hygienically. The washing machine designed to achieve the purpose of this invention, as defined in the first and subsequent requirements, includes a washing drum in which the washing process takes place, a water inlet valve that supplies water from the mains to the washing drum for use in the washing program, a reservoir connected to the water inlet valve, a supply line that circulates water between the reservoir and the filtration unit, a soft water line that transfers water from the reservoir to the filtration unit after it has been filtered and its hardness removed, and a return line that carries the hard water, along with the substances retained on the filter surface, back to the reservoir. Thanks to the return line, the hard water is collected in the reservoir for use in the rinsing steps, thus saving water. The washing machine in question includes a sterilization unit located above the supply line of the sterilization unit and at the inlet of the filtration unit, and/or above the soft water line and at the outlet of the filtration unit. The sterilization unit sterilizes the water held in the filtration unit. To prevent damage to the membrane structure of the filtration unit, the membrane surface must be kept moist. Accumulation of water in the filtration unit leads to the formation of microorganisms. Thanks to the sterilization unit located above the soft water line, the water, whose microbial load increases while it is held in the filtration unit, is sterilized. Thus, the water is freed from microorganisms before it is transferred to the washing drum. If the sterilization unit is located above the soft water line, the washing machine includes a control unit that activates the sterilization unit for a predetermined sterilization time if the water has been held in the filtration unit for a predetermined water holding time. If the water has been waiting in the filtration unit for a period exceeding the water retention time predetermined by the manufacturer or user, the control unit activates the sterilization unit. This allows the sterilization unit to operate in a controlled manner, thus saving energy. In one application of the invention, the sterilization unit is an ultraviolet lamp. The ultraviolet lamp preferably emits ultraviolet light between 240 nm and 280 nm wavelengths. Since the 240 nm to 280 nm ultraviolet wavelength range is the most effective range for microorganisms, the microbiological load of the water is effectively reduced before it is sent to the washing tank. In another application of the invention, the sterilization unit is an ultrasonic transducer. In yet another application, the washing machine includes a circulation pump located in the supply line that circulates the water between the tank and the filtration unit. The sterilization unit is placed between the circulation pump and the filtration unit. In one application of the invention, the washing machine includes a rinse water line that transfers hard water from the tank to the washing drum. Thus, there is no need to take in water separately for rinsing, and water is saved. In the washing machine in question, microorganisms grow in the water that accumulates and sits in the filtration unit and the tank. Thanks to the sterilization unit, the microorganisms in the water coming out of the filtration unit and the tank are killed, ensuring that the washing process is carried out hygienically. The washing machine designed to achieve the purpose of this invention is shown in the attached figures; Figure 1 - Schematic view of a washing machine. The parts in the figures are numbered individually, and the corresponding numbers are given below. Washing machine Washing drum (tub) Water inlet valve Filtering unit Soft water line Reservoir Supply line Return line .@909999- Sterilization unit . Control unit 11. Circulation pump 12. Rinse water line The following symbols are used to describe the washing machine (l) that is the subject of the invention. tbsct 2 Predetermined water holding time tb: Time the water holds in the filtration unit (4) tS: Predetermined sterilization time F: Filter S: Water mains Washing machine (1), a washing drum (2) in which the washing process is carried out, at least one water inlet valve (3) that allows water to be taken from the water mains (S) to the washing drum (2) for use in the washing program, a cross-flow type filtration unit (4) that acts as a "water softening device" by passing the water through a filter (F) and separating ions such as Ca", Mg++ and thus removing the hardness of the water, a soft water line (5) that allows the water that has been filtered and hardened in the filtration unit (4) to be transferred to the washing drum (2), water inlet The washing machine (1) includes a reservoir (6) connected to valve (3), a supply line (7) which circulates water between the reservoir (6) and the filtration unit (4), and a return line (8) which carries water from the reservoir (6) to the filtration unit (4), along with the substances retained on the filter (F) surface in the filtration unit (4), and transfers the hard water flowing over the filter (F) to the reservoir (6). The hard water accumulated in the reservoir (6) is not discharged but is sent to the washing drum (2) during the rinsing steps to rinse the laundry. The washing machine (1) in question includes at least one sterilization unit (9) located above the supply line (7) and/or the soft water line (5), which sterilizes the water held in the filtration unit (4). To prevent damage to the membrane structure of the filtration unit (4), the membrane surface must be kept moist. Soft water Thanks to the sterilization unit (9) located on the supply line (5), the water, in which bacteria grow while it is kept in the filtering unit (4), is sterilized. Thus, the water is purified from microorganisms before it is transferred to the washing drum (2). Thanks to the sterilization unit (9) located on the supply line (7) and/or soft water line (5), microorganisms growing in the water waiting in the filtering unit (4) are eliminated. In one application of the invention, the sterilization unit (9) is located at the outlet of the filtering unit (4). Thus, the sterilization process is carried out while the water is transferred from the filtering unit (4) to the washing drum (2). In another application of the invention, the sterilization unit (9) is located at the inlet of the filtering unit (4). In another application of the invention, the washing machine (1) sterilizes the water if the time (tb) that the water is kept in the filtering unit (4) is longer than a predetermined water waiting time (tbsct). The invention includes a control unit (10) that activates the sterilization unit (9) for a predetermined sterilization time (ts). If the water has been waiting in the filtration unit (4) for a period exceeding the water retention time (tbgct) determined by the manufacturer or user, the control unit (10) activates the sterilization unit (9). Thus, the sterilization unit (9) is operated in a controlled manner, saving energy. In one application of the invention, the sterilization unit (9) is an ultraviolet lamp. The ultraviolet lamp preferably emits ultraviolet light between 240 nm and 280 nm wavelengths. Since the 240 nm to 280 nm ultraviolet wavelength range is the range with the highest effectiveness on microorganisms, the microbiological load of the water is effectively reduced before it is sent to the washing tank (2). In one application of the invention, the sterilization unit (9) is an ultrasonic transducer. The washing machine (1) includes a circulation pump (11) located in the supply line (7) which circulates water between the tank (6) and the filtration unit (4), and the sterilization unit (9) is placed between the circulation pump (11) and the filtration unit (4). In one application of the invention, the washing machine (1) includes a rinse water line (12) that transfers hard water from the tank (6) to the washing drum (2). Thus, there is no need to take water from outside for rinsing operations, and water is saved. In the washing machine (1) that is the subject of the invention, it is necessary to retain water inside the filtration unit (4) to prevent the formation of capillary cracks on the surface of the membrane structure filtration unit (4) due to insufficient moisture. In addition, during power outages or between washing steps, water is retained in the filtration unit (4). It can wait. Thanks to the sterilization unit (9), the water waiting in the filtering unit (4) is sterilized before being transferred to the washing drum (2), ensuring that the laundry is cleaned effectively and preventing the formation of bad odors caused by microorganisms. TR

Claims (1)

1.