TR202016017A2 - A DISHWASHER WITH A HEATER - Google Patents

Abstract

This invention consists of a body (2), a washing tub (3) located on the body (2), in which the washing process takes place, a door (4) that ensures that the washing tub (3) does not come into contact with the external environment, and a washing tub (3) on the base of the washing tub (3). a chamber (5) in which water accumulates, at least one basket (6) on the washing tub (3) in which kitchen utensils are placed, and at least one spray element (7) that allows water to be sprayed on the basket (6). relates to the dishwasher (1).

Description

DESCRIPTION This invention relates to a dishwasher containing a heater. The washing process in dishwashers consists of certain steps. With the pre-wash step, the dirt on the dishes is removed. After the pre-washing step, the water temperature is increased and the main washing step is used, in which the cleaning process is carried out with the help of hot water and detergent. In the main washing step, the oils and dirt on the dishes are removed. In the rinsing steps after the main washing step, detergent residue and dirt residues are removed from the surface of the dishes. After the rinsing step, the drying step is used. Thanks to the drying step, water droplets on the dishes are dried. In this way, stains on the dishes are prevented and the dishes are ensured to come out of the machine dry. A washing cycle is completed by sequentially performing cold washing, main washing, rinsing and drying steps. During the washing process, the water jet coming out of the fans hits the dishes with a certain force and flows from the surface. The washing process is carried out more efficiently by using cleaning agents such as detergent. The water is raised to a certain temperature and the dirt is easily dissolved. Thermal effect is used in the washing process through temperature. Thermal effect affects the washing process by 25%. In order to provide the thermal effect, the heater in the circulation line of the machine is operated and the loads are heated by water. Both the maximum temperature at which the water comes and the average washing temperature are effective in the thermal effect. Additionally, the water must reach a certain temperature for some chemicals to activate. In order to heat the loads, water must be circulated through the washing tank for long periods of time. This situation creates both a waste of time and the fact that all loads can be heated equally, resulting in high energy consumption. In the European patent numbered EP1738677, which is in the state of the art, a dishwasher containing a method that enables steam production via a kettle is described. The purpose of this invention is to realize a dishwasher with reduced energy consumption. The dishwasher, which was realized to achieve the purpose of this invention and described in the first claim and the claims attached to this claim, has a body, a washing tub located on the body, a door on the washing tub, a reservoir where the water separated from the washing tub accumulates, and kitchen utensils placed on the washing tub. It includes at least one basket that allows water to be placed on the basket, at least one spray element that allows water to be delivered to the basket, and a temperature sensor that allows the temperature on the reservoir to be measured. The water transmitted to the basket via the spray element leaves the washing tub and accumulates in the chamber. In the reservoir, the water is purified from dirt. The dishwasher of the invention contains a heater located on the chamber and a control unit that ensures that the heated water on the chamber is transmitted to the dishes for a predetermined period of time before the washing step. Before the washing step, the washing water is heated by the heater located in the reservoir. Water reaching high temperatures is transmitted onto the dishes. In this way, the dishes are heated quickly. In one embodiment of the invention, the dishwasher contains a heater that allows the water accumulated in the chamber to be heated between 45 °C and 100 °C. The heater's ability to provide heating between certain values is controlled by the control unit. By spraying water on the dishes at temperatures between 45 °C and 100 °C for a certain period of time, the surface temperature of the dishes is increased. In one embodiment of the invention, the dishwasher includes a conductivity sensor that allows detecting the amount of detergent dissolved in the chamber. By controlling the dissolution of the amount of detergent over time, the type and amount of detergent can be determined. In one embodiment of the invention, the dishwasher includes a control unit that allows heating the dishes for a certain period of time and controlling the temperature of the dishes. Thanks to the high temperature water sprayed on the dishes, the surface of the dishes is heated quickly. The heating amount of the dishes is controlled by the control unit. In one embodiment of the invention, the control unit enables the determination of the load amount within a period between 1 minute and 5 minutes, depending on the temperature of the dishes. In the preferred application, the load amount can be determined within ldk depending on the temperature. With the invention, a dishwasher that saves both time and energy is realized by using the water heated on the chamber during the washing step. 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. 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 - Chamber 6- Basket 7- Spray element 8- Heater 9- Control unit - Conductivity sensor 1 1- Temperature sensor 12- Additional temperature sensor The dishwasher (1) is a body (2), a washing tub (3) in which the washing process takes place, located on the body (2), a door (4) that ensures that the washing tub (3) does not come into contact with the external environment, a door (4) located at the base of the washing tub (3), inside a chamber (5) in which water accumulates, at least one basket (6) in which kitchen utensils are placed, located on the washing tub (3), at least one spray element (7) that allows water to be sprayed on the basket (6), and the inside of the chamber (5). It contains a temperature sensor (II) that allows the temperature to be determined. The dishes are placed on the baskets (6) located in the washing tub (3). Water is sprayed on the basket (6) via the spray element (7). In this way, the washing process is carried out. Water accumulates in the reservoir (5) located at the bottom of the washing tub (3). The water accumulated in the chamber (5) is used again in the washing step. The dishwasher (1), which is the subject of the invention, has a heater (8) located on the chamber (5), and in the washing step, the water accumulated in the chamber (5) is first heated by the heater (8) to a value previously determined by the manufacturer, and the dishes are further heated. It contains a control unit (9) that ensures transmission for a period of time predetermined by the manufacturer. The water heated in the chamber (5) is transmitted to the dishes via the spray element (7). The delivery of hot water heated in the chamber (5) to the dishes is controlled by the control unit (9). By pre-heating the water and delivering it to the dishes at high temperature, the cleaning process is faster and energy is saved. In an embodiment of the invention, the dishwasher (1) contains a control unit (9) that controls the heater (8), which provides heating of the water accumulated in the chamber (5) between 45°C and 100°C, in line with the data received from the temperature sensor (12). The static water accumulated in the chamber (5) is allowed to rise to higher temperatures in a short time, and the energy consumption required for heating the water is reduced. In the preferred application, water is delivered to the dishes at a temperature of 70°C and cleaning is achieved through short-term contact of the water with the dishes. Short-term contact with hot water ensures that the dishes are not deformed. In an embodiment of the invention, the dishwasher (1) consists of a conductivity sensor (10) located on the washing tub (3) and a control device that enables the determination of the amount of detergent dissolved within a period of time previously determined by the manufacturer when the heated water in the tank (5) is transmitted to the washing tub (3). It contains the unit (9). The conductivity sensor (10) can also be a turbidity sensor used to determine the amount of detergent. When the washing water is heated in the chamber (5) and conveyed to the washing tub (3), the detergent is transmitted into the washing tub. Since the water temperature is high, the detergent dissolves quickly and participates in the washing step. In this way, both time and power are saved. The amount of detergent dissolved in the washing tub (3) is determined by the conductivity sensor (10). In this way, the user can be warned if the amount of detergent is not sufficient. In an embodiment of the invention, the dishwasher (1) is a control unit that enables the dishes to be heated for a predetermined period of time by means of the heated water in the chamber (5) and the determination of the load amount and/or load type depending on the heat change in the washing tub (3) during the period. It contains (9). When the water heated in the chamber (5) is transmitted to the washing tub (3), the dishes are heated by water. The temperature changes of the loads are determined depending on the temperature of the water passing over the reservoir (5). The time-dependent changes of the loads during heating and cooling depending on the temperature are determined by the manufacturer on the control unit. Depending on the heating speed and specific gravity of the dishes, the load amount in the washing tub (3) is determined by the control unit (9). In an embodiment of the invention, the control unit (9) enables the determination of the washing program depending on the amount and/or type of load determined within a period between ldk and Sdk depending on the temperature in the washing tub (3). In the preferred application, the required program is determined depending on the amount of load in the LDK. Thanks to the very high water temperature, the dishes are heated quickly. In this way, the time required to determine the required program is shortened. In an embodiment of the invention, the dishwasher (1) includes an additional temperature sensor (12) located on the washing tub (3) and a control unit (9) that allows controlling the time-dependent change of temperature in the washing tub (3). Thanks to the additional temperature sensor, temperature changes of the loads in the washing tub (3) can be monitored more quickly, thus increasing efficiency. With the invention, a dishwasher (1) that provides energy and time savings is realized by heating the static water in the chamber (5) and using it in the washing step. When the washing water reaches the desired temperature in the reservoir (5), it is conveyed to the washing tub (3). TR TR TR