ES2336845T3 - DISHWASHER WITH AN IMPROVED DRYING PROVISION. - Google Patents

Abstract

The present invention relates to a dishwasher (1) wherein a thermoelectric unit (3) is utilized having an endothermic part (4) that absorbs heat and an exothermic part (5) that emits heat, the endothermic part (4) of the thermoelectric unit (3) being disposed in a condensation channel (6) and the exothermic part (5) disposed in a cooling channel (10) outside of the condensation channel (6) and providing the humid air in the tub (2) to be condensed swiftly in the condensation channel (6).

Description

Dishwasher with a drying arrangement improved

The present invention relates to a dishwasher, in which drying efficiency is improved.

In dishwashers, part of the water used in the washing process evaporates and at the end of the washing cycle it reach high relative humidity values due to high temperature reached in the wash tank. They have put in practice different procedures to prevent moisture condensed in the tank leave residual stains on the dishes that are They begin to cool at the end of the wash cycle. For example, in the drying phase, the humid air in the tank is passed through a channel made of plastic located on the side of the tank. The air is circulates through this channel through a fan; part of the Air humidity can condense when it comes into contact with surfaces of this that are comparatively cooler than the inside the tank However, all the humidity in the tank does not can be absorbed and stains are observed on items washed at end of the drying phase due to residual moisture.

In addition, in the drying process of dishwasher, thermoelectric units are used that allow  the dispersion of the cold or hot effect in the environment according to the current direction applied to these; however, it they need devices such as condensers and heaters in addition to the thermoelectric unit to accelerate the process of dried

In German Patent Application No. DE19813924, an explanation of a moisture condensation process after washing is provided in which a Peltier element is used to extract heat energy from inside a container. The endothermic part of the Peltier element, provided with capacity to absorb thermal energy, is disposed inside the washing tank and the exothermic part, provided with capacity to emanate thermal energy, is mounted in the air channel between the tank and The outer body of the machine. When the Peltier element is put into operation after the wash cycle, a cold surface is created on the inner surface of the tank. When the temperature of this surface falls below the temperature of the dew point of the humid air in the tank, condensation begins on the cold surfaces. The exothermic part of the Peltier element is mounted inside an air channel and the air that is received from the environment with a relatively low temperature is passed through the heat exchanger with bars arranged in the exothermic part of the thermoelectric unit. In another embodiment of the invention, the endothermic part of the Peltier element is again disposed inside the dishwasher bowl and the exothermic part is mounted on the other side of the air channel between the tank and the outer body of the machine. In said application, since the endothermic part of the Peltier element is inside the tank, it will mainly try to cool the walls of the tank with high inertia.
thermal

In German patent application no. DE10334792, a dishwasher with a rinse container is explained  in which a Peltier element is used for cooling and drying of the air on one side and heating of the air on the other, which comes from the rinse container, in the drying phase after washed. In the drying cycle, the air in the tank is sent to a Channel through a fan. The air sent to the channel condenses passing first through the endothermic part of the Peltier element arranged in this channel and the partially dehumidified air is heats up through the exothermic part of the Peltier element. Since the air circulated in contact with the endothermic part of the Peltier element is subsequently heated upon entering contact with the exothermic part of this - the performance of the Peltier element decreases although circulating air capacity to absorb moisture from washed items increases- when find again the endothermic part will condense and result more difficult to release moisture.

In patent application No. W02006029953, it explains a drying procedure for an appliance, in particular a dishwasher, in which an element is used Peltier Condensation is maintained on the inner wall of the when the endothermic part of the Peltier element is in contact with a plate and the plate in contact with the tank. The part Exothermic element Peltier is located inside a air channel and air sucked from inside the tank using a vacuum cleaner heats up as it passes through the exothermic part and is sent to the tank. In the air channel, it they use a condenser and a heater to support the condensation and drying air heating.

The objective of the present invention is the realization of a dishwasher in which the efficiency of the drying by removing the moisture that remains in the tank after the process washing

The dishwasher made in order to reach the objective of the present invention is defined in the claims.

In the dishwasher of the present invention, uses a thermoelectric unit provided with an endothermic part which absorbs the ambient heat, in order to condense the air in the vat to remove moisture and to dry washed items, and an exothermic part that emits heat to the environment. Unit thermoelectric is mounted inside a channel of condensation located outside the tank that circulates the received air inside the tank, returning it back to the tank. The part endothermic thermoelectric unit is arranged in the inside the condensation channel and the exothermic part is in the outside the condensation channel; the endothermic part in the inside the condensation channel is not in contact with the Cuba.

The air in contact with the endothermic part of the thermoelectric unit in the condensation channel, which the temperature decreases, it is supplied to the tank without overheating, so that the condensation of air circulating in the cycle It increases as the temperature drops. Since the exothermic part of the thermoelectric unit is arranged on the outside of the tank, so that it is not in contact with the tank, prevents  the effect of cold created decreases by dispersing through the walls of the Cuba

On the outer side of the condensation channel provides a cooling channel, its part being formed inside by the outer walls of the condensation channel and the external part formed by the external walls of the body of the dishwasher, with the exothermic part of the thermoelectric unit located inside. The ambient air that passes through the channel cooling cools the thermoelectric unit upon contact with the exothermic part of it, so that the performance of the thermoelectric unit increases by providing heat flow wanted.

Both the condensation channel and the cooling are both provided with an air inlet and a air vent; the humid air of the tank passes through the channel of condensation by a fan and the outside air passes through the cooling channel by another fan.

In addition, in the dishwasher of the present invention, the condensation of the air flowing through the condensation channel and the efficiency of the thermoelectric unit increases when using an endothermic heat exchanger located in the endothermic part of the thermoelectric unit and a exothermic part heat exchanger located in the part Exothermic thermoelectric unit.

The dishwasher made in order to reach the objective of the present invention is illustrated in the figures attached, in which:

Figure 1 is the schematic view of a dishwasher.

The elements shown in the figures They are numbered as follows:

one.

Dishwasher

2.

Cuba

3.

Thermoelectric unit

Four.

Endothermic part

5.

Exothermic part

6.

Condensation channel

7.

Condensation channel input

8.

Condensation channel output

9.

Condensing channel fan

10.

Cooling channel

eleven.

Cooling channel input

12.

Cooling channel outlet

13.

Cooling channel fan

14.

Part heat exchanger endothermic

fifteen.

Part heat exchanger exothermic

The dishwasher (1) comprises a tank (2) in the that the washing process and a thermoelectric unit is carried out  (3) which is used for condensation of drying air.

The thermoelectric unit (3) comprises a part endothermic (4), which creates a cold effect by absorbing heat environmental, and an exothermic part (5), which emits heat to the environment.

The dishwasher (1) of the present invention It comprises a condensation channel (6), which allows circulation of the moist air in the tank (2) when removed from the tank (2), and a thermoelectric unit (3) with the endothermic part (4) of this arranged in the condensation channel (6), so that it is not in contact with the tank (2), and the exothermic part (5) mounted on the wall of the condensation channel (6), so that it will be in the outside of the condensation channel (6).

In the dishwasher (1) of the present invention, the moist air received from the tank (2) with the condensation channel (6) condenses upon contact only with the endothermic part (4) and without coming into contact with the exothermic part (5) of the thermoelectric unit (3) and the air that releases the moisture contained in the endothermic part (4) and whose temperature decreases is sent to the tank (2) through the condensation channel (6) after leaving the endothermic part (4).

In addition, the dishwasher (1) comprises a condensation channel inlet (7) that allows the supply of moist air from the tank (2) in the condensation channel (6), a condensation channel outlet (8) that allows the supply of dehumidified and cooled air to the tank (2) and a fan of condensation channel (9) that allows air flow in the channel condensation (6).

In another embodiment of the present invention, the dishwasher (1) comprises a cooling channel (10) located between the condensation channel (6) and the external part of the body, inside which the exothermic part is arranged (5) of the thermoelectric unit (3), which allows contact between the air received from the outside environment and the exothermic part (5) and the sending of heated air to the outside environment.

In this embodiment, the dishwasher (1) further comprises a cooling channel inlet (11) to receive air from the external environment in the channel cooling (10), a cooling channel outlet (12) for return the heated air in the cooling channel (10) to outdoor environment and a cooling channel fan (13) which allows the flow of air to the cooling channel (10).

In another embodiment of the present invention, the dishwasher (1) comprises a heat exchanger endothermic part (14) arranged in the endothermic part (4) of the thermoelectric unit (3), which extends into the interior of the condensation channel (6), being in contact with the flowing air through the condensation channel (6) to accelerate the condensation and a exothermic heat exchanger (15) located in the exothermic part (5) of the thermoelectric unit (3) that extends into the cooling channel (10) and that increases the heat flow of the thermoelectric unit (3) increasing from this mode the effectiveness of this one.

During the operation of the dishwasher (1), at the beginning of the drying phase, the relative humidity reaches high values in the tank (2) due to the evaporation of water in the Cuba (2) as a result of the high temperature. In the dishwasher (1) of the present invention, the thermoelectric unit (3) is energizes when the drying phase begins, while the temperature of the endothermic part (4), the temperature of the part Exothermic (5) increases. The effects of cold and heat are dispersed in the condensation channel (6) and the cooling channel (10) using the endothermic heat exchanger (14) and the exothermic heat exchanger (15). When the unit thermoelectric (3) is activated, the channel fan condensation (9) and cooling channel fan (13) They are also activated. Through the channel fan of condensation (9), the moist air received from the interior environment of the tank (2) is introduced into the condensation channel (6) through the condensation channel inlet (7) and the moisture contained in the air condenses as it passes through the endothermic part (4) of the thermoelectric unit (3). Dehumidified air is sent to the tank (2) from the condensation channel outlet (8). Since the temperature inside the tank (2) drops while the cycle continues during which the air in the tank (2) is in contact with the endothermic part (4) of the thermoelectric unit (3), condensation accelerates and less energy is needed to condense the air by cooling. Along with this process, the air drawn from the outside environment by means of the fan cooling channel (13) that passes through the channel input of cooling (11) is pushed to the exothermic part (5) of the thermoelectric unit (3) and in this way the unit is achieved Thermoelectric (3) function more efficiently. Ambient air heated by cooling the exothermic part (5) of the thermoelectric unit (3) is supplied to the environment from the cooling channel outlet (12).

By means of the present invention, since the air that meets the endothermic part (4) of the unit thermoelectric (3) in the condensation channel (6) thus decreasing its temperature is supplied back to the tank (2) without heating, the energy needed to reach the cold necessary for the condensation during the cycle decreases and since the part endothermic (4) of the thermoelectric unit (3) is not in contact with the body of the tank (2), the created cold effect is prevented decrease by dispersing through the walls of the tank (2). The condensation capacity of the circulating air increases and so prevents the formation of stains on the washed dishes allowing the removal of moisture in the tank (2) more effectively. And even more, since the exothermic part (5) of the thermoelectric unit (3) it is cooled by the circulating ambient air in the channel cooling (10), the performance of this increases as the desired heat flow.

Claims (6)

1. Dishwasher (1) comprising a tank (2) in which a washing process is carried out, a thermoelectric unit (3) that is used for the condensation of the drying air, which has an endothermic part (4) and an exothermic part (5), and a condensation channel (6) that allows the circulation of moist air in the tank (2) by extracting it from the tank (2) and characterized in that it has a thermoelectric unit (3) whose endothermic part ( 4) is mounted on the condensation channel (6) without being in contact with the tank (2) and the exothermic part (5) is mounted on the wall of the condensation channel (6), so that it remains outside the channel of condensation (6), allowing the condensation of the humid air received from the condensation channel (6) and the tank (2) only by contact with the endothermic part (4) and without being in contact with its exothermic part (5) and a condensation channel (6) that allows the air to be sent to the tank (2) donate the endothermic part (4). 2. Dishwasher (1) according to claim 1, characterized in that it has a condensation channel inlet (7) that allows the supply of moist air from the tank (2) to the condensation channel (6), an outlet of the condensation (8) that allows the air to be sent to the tank (2) that loses its moisture in the condensation channel (6) and thus cools, and a condensation channel fan (9) that allows the flow of air in the condensation channel (6). 3. Dishwasher (1) according to claim 1 or 2, characterized in that it has a cooling channel (10) located between the condensation channel (6) and the external wall of the body, inside which the exothermic part (5) is arranged. of the thermoelectric unit (3), which allows the air received from the outside environment to come into contact with the exothermic part (5) and the heated air is sent to the outside environment. 4. Dishwasher (1) according to claim 3, characterized in that it has a cooling channel inlet (11) to receive air from the external environment in the cooling channel (10), a cooling channel outlet (12) to send the air heated in the cooling channel (10) to the outside environment and a cooling channel fan (13) that allows air flow to the cooling channel (10). 5. Dishwasher (1) according to any of the preceding claims, characterized in that it has an endothermic part heat exchanger (14) disposed in the endothermic part (4) of the thermoelectric unit (3), which extends into the channel of condensation (6), and being in contact with the air flowing through the condensation channel (6) to accelerate the condensation. 6. Dishwasher (1) according to any of the preceding claims, characterized in that it has an exothermic part heat exchanger (15) located in the exothermic part (5) of the thermoelectric unit (3), which extends into the channel of cooling (10) and that increases its efficiency by increasing the heat flow of the thermoelectric unit (3).