TR202021905A2 - A DISHWASHER THAT PROVIDES OPTIMIZATION - Google Patents

Abstract

This invention consists of a body (2), a washing tub (3) on the body (2) in which the washing activity is performed, a door (4) that ensures that the contact of the washing tub (3) and the external environment is cut off in the washing tub (3). At least one basket (5) on which the utensils are placed, at least one spray element (6) that allows water to be sprayed on the utensils on the basket (5), a dirt measuring element (7) on the washing tub (3), and the work programs It relates to a dishwasher (1) comprising a control unit (8) that enables it to be controlled.

Description

DESCRIPTION AN OPTIMIZING DISHWASHER This invention relates to an optimizing dishwasher. In dishwashers, the cleaning process is carried out by passing hot water and detergent onto the kitchen items. The water heated by the heater is transmitted to the dishes placed on the basket. The dishes are cleaned of dirt with detergent and hot water. Depending on the degree of dirt on the dishes, different washing programs are preferred by the user. As the degree of dirt increases, the amount of hot water used, the temperature of the water and the washing time increase. In this way, the aim is to ensure that the kitchen items come out of the dishwasher completely clean. The cleaning process varies depending on the degree of dirt on the dishes. For dishes with low dirt levels, shorter programs using lower temperature water are preferred. In this way, both water and energy savings are achieved. However, the degree of dirt cannot always be known accurately by the user. When washing is done inappropriately for the degree of dirt, the cleaning process does not occur or water and energy consumption increases. There are dishwashers in technology that can determine the washing program according to the degree of dirt. However, a program suitable for every degree of dirt cannot be selected and the cleaning process cannot be carried out due to incorrect identification of the dirt. If the user is not satisfied with the cleaning process, an additional wash is required. It is a dishwasher that enables the improvement of the step specified by the user in the United States patent numbered U810194781, which is in the state of the art. The aim of the invention is to realize a dishwasher that increases washing efficiency. In the dishwasher realized to achieve the purpose of this invention and described in the first claim and the claims dependent on this claim, there is a body, a washing tub located on the body, a door located on the body, at least one basket located within the washing tub, and water spraying on the basket. It contains at least one spraying element that provides water, a dirt measuring element located on the washing tub, and a control unit that allows control of the working programs. The cleaning process is carried out thanks to the water transmitted to the kitchen utensils through the spray elements. Thanks to the dirt measuring element, the degree of dirt of the dishes is measured and the washing programs are controlled through the control unit. The dishwasher of the invention includes a control unit that allows the washing program to be optimized with user feedback, depending on the information received from the soil measurement element. The parameters of the washing program depending on the degree of dirt are previously defined on the control unit. Depending on the user's request, standard programs are used or the user can control the changes in the program parameters. In one embodiment of the invention, the dishwasher includes a control unit that allows the program values to be optimized in line with the feedback received from the user at the end of the washing program. Once the degree of dirt is determined, the selected washing program is optimized with user feedback. In this way, the next wash in the same dirt stream is carried out with optimized values. In one embodiment of the invention, the dishwasher includes at least one control button that allows the user to control the optimization of program values. When the control button is triggered by the user, the washing parameters are optimized. In one embodiment of the invention, the dishwasher contains a control unit that enables selection of the washing program appropriate to the amount of dirt determined by the soil measuring element when the washing program starts. In this way, the closest program defined on the dishwasher, corresponding to the degree of dirt, is used. In one embodiment of the invention, the dishwasher includes a control unit that allows the previously recorded energy and water consumption to be controlled while determining the washing program appropriate to the dirt value. While washing programs are optimized through the control unit, energy and water consumption are also evaluated. In one embodiment of the invention, the dishwasher includes a soil measuring element that is a soil sensor. Measurement of dirt is carried out by means of the dirt sensor. In one embodiment of the invention, the dishwasher includes a soil measuring element that is a turbidity sensor. The dirt measurement process is determined by the turbidity of the washing water. In one embodiment of the invention, the dishwasher includes a soil measuring element that is a conductivity sensor. The dirt level is measured depending on the conductivity level of the washing water. With the invention, a dishwasher containing a control unit that enables the determination of the washing program depending on the level of dirt and the optimization of the washing program with user control is realized. A dishwasher built to achieve the purpose of this invention is shown in the attached figures, and from these figures; Figure 1- is the perspective view of the dishwasher. Figure 2- is the front schematic view of the dishwasher. The parts in the figures are numbered one by one, and the equivalents of these numbers are given below. 1- Dishwasher 2- Body 3- Washing tub 4- Door - Basket 6- Spray element 7- Dirt measurement element 8- Control unit 9- Control button The dishwasher (1) is on a body (2), on the body (2). a washing tub (3) in which the washing activity is carried out, a door (4) that ensures the contact between the washing tub (3) and the external environment is interrupted, at least a basket (5) on which kitchen utensils are placed within the washing tub (3), a basket ( 5) contains at least one spray element (6) that allows water to be sprayed on the kitchen utensils above it, a dirt measurement element (7) located on the washing tub (3) and a control unit (8) that allows the operating programs to be controlled. Water is delivered to the dishes placed in the washing tub (3) via the spray element (6). In this way, the dishes are cleaned. The dirt on the dishes mixes with the water. Thanks to the dirt measuring element (7), the degree of dirt of the dishes can be measured. The dishwasher (1) that is the subject of the invention includes a control unit (8) that allows the washing parameters to be adjusted depending on the user's request, in line with the information received from the dirt measuring element (7). The program suitable for the degree of dirt determined by the dirt measuring element (7) is selected by the control unit (8) previously defined by the manufacturer. The program used is presented to the user for approval and is adjusted depending on the user's approval. In an embodiment of the invention, the dishwasher (1) includes a control unit (8) that allows the used washing parameters to be recorded as preferred parameters in line with the feedback received from the user at the end of the washing. At the end of washing, the settings of the washing program are changed depending on the degree of dirt, in accordance with the approval given by the user. Water temperature and washing time increase or decrease according to the user's preference. In one embodiment of the invention, the dishwasher (1) contains at least one control button (9) that allows the user to control the changing of program values. Thanks to the control button (9), the user can approve the resetting of the washing program or change the parameters. In one embodiment of the invention, the dishwasher (1) includes a control unit (8) that enables automatic program selection in accordance with the measured dirt value when the washing process starts. The control unit (8) can automatically select the dirt level and programs predefined on the control unit (8). In cases where the user does not approve for optimization, the control unit (8) selects the same program for each wash, depending on the degree of dirt, and runs the washing program using the same program parameters. In one embodiment of the invention, the dishwasher (1) contains a control unit (8) that allows the adjustment of program parameters depending on energy consumption and water temperature while determining the washing program appropriate to the dirt value. Energy and water consumption values depending on the parameters previously used by the manufacturer are defined on the control unit (8). When optimizing the washing program, it is aimed to use the lowest energy and water consumption. In one embodiment of the invention, the dishwasher includes a dirt measuring element (7), which is a dirt sensor. A dirt sensor is used as the dirt measuring element (7) and the degree of dirt is determined in this way. In one embodiment of the invention, the dishwasher (1) includes a dirt measuring element (7) which is a turbidity sensor. Turbidity sensor is used as the dirt measuring element (7). The degree of dirt is determined depending on the turbidity of the water. In one embodiment of the invention, the dishwasher (1) contains a dirt measuring element (7) which is a conductivity sensor. Thanks to the conductivity sensor, the conductivity of the water and the degree of dirt are determined. With the invention, a dishwasher (1) containing a control unit (8) that allows selecting the washing program depending on the degree of dirt and optimizing the washing program with user control is realized. In this way, washing performance increases with minimum water and energy consumption. TR TR TR