CN210144618U - Dish washing machine - Google Patents

Abstract

The utility model relates to a cooking utensil discloses a dish washer, but install the lower door body assembly that turns over at the front side of the cabinet body including the cabinet body with the pivot ground that opens and shuts, the lower door body assembly that turns over is equipped with the door body air outlet with the washing chamber intercommunication in the cabinet body, the lower door body assembly that turns over still includes the condensation dehumidifier of installing on the front panel of the lower door assembly, will cool off from door body air outlet exhaust high temperature steam through the condensation dehumidifier, and realize the separation with the condensate water and the air current that produce after cooling, thereby avoided the condensate water to discharge to the outside from the lower door body assembly that turns over, cause inconveniently for user's use, user experience has been promoted.

Description

Dish washing machine

Technical Field

The utility model relates to a dish washer technical field relates to a dish washer.

Background

When the dish-washing machine of the present dish-washing machine is used, water vapor generated in the dish-washing machine is dried by cold air and then is discharged through a door body, condensed water is easily formed at an exhaust port, and when the door is opened, the condensed water drops on the ground or a table top, so that inconvenience is brought to the use of a user, and even complaints of the user are caused.

The above is only for the purpose of assisting understanding of the technical solutions of the present invention, and does not represent an admission that the above is the prior art.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough or defect among the prior art, the utility model provides a dish washer to the problem that the comdenstion water that the current dish washer produced when opening the door drips from the gas vent in order to influence the user to use is solved.

In order to achieve the above object, the utility model provides a dish washing machine, but install the lower door body subassembly that turns over at the front side of the cabinet body including the cabinet body and pivot open and shut, turn over the door body subassembly down and be equipped with the door body air outlet of the washing chamber intercommunication in the cabinet body, turn over the door body subassembly down still including installing the condensation dehumidifier on the front panel of the lower door body subassembly that turns over, the condensation dehumidifier is used for the air current of condensation door body air outlet and realizes export gas-liquid separation.

Preferably, the downward-turning door body assembly comprises a downward-turning door body, and the downward-turning door body is provided with a door body air outlet.

Preferably, the condensation dehumidifier comprises a dehumidifier air inlet, a dehumidifier air outlet and a dehumidifier water outlet;

wherein, dehumidifier air intake and door body air outlet intercommunication are formed with the condensation dehumidification wind channel between dehumidifier air intake and the dehumidifier air outlet to the air current of condensation door body air outlet is equipped with the gas-liquid separator who is used for the separation condensate liquid flow to the dehumidifier air outlet between dehumidifier air outlet and the dehumidifier outlet.

Preferably, the condensation dehumidification air duct is a vortex air duct capable of forming vortex air flow.

Preferably, the condensation dehumidifier comprises a vertical condensation dehumidification cavity extending along the vertical direction and a transverse condensation dehumidification cavity communicated with the vertical condensation dehumidification cavity and extending along the transverse direction;

the air outlet of the dehumidifier is arranged at the lower part of the front wall of the transverse condensation dehumidification cavity;

the water outlet of the dehumidifier is arranged at the lower part of the rear wall of the transverse condensation dehumidification cavity; and

the dehumidifier air inlet is arranged on the rear wall of the vertical condensation dehumidification cavity and is positioned above the dehumidifier air outlet and the dehumidifier water outlet.

Preferably, the condensation dehumidifier comprises a first partition plate, the first partition plate is arranged around the air inlet of the dehumidifier and forms an upward opening;

preferably, the opening is inclined towards the upper side, wherein the side of the opening inclined towards the upper side is the same as the side of the dehumidifier air outlet opposite to the dehumidifier air inlet.

Preferably, the swirl air duct also includes a second partition plate and a third partition plate which are arranged in the transverse condensation dehumidifying cavity and are close to the dehumidifier air outlet, a first bending surface which is bent towards one side of the dehumidifier air outlet is formed at one end of the second partition plate, the first bending surface and the third partition plate are arranged oppositely to form a first air inlet and a first air outlet, and a first swirl air duct is formed between the first air inlet and the first air outlet.

Preferably, the swirl air duct further comprises a fourth partition plate arranged in the transverse condensation dehumidification cavity and close to the dehumidifier air outlet, the other end of the second partition plate forms a second bending surface bending towards one side of the dehumidifier air outlet, the second bending surface and the fourth partition plate are oppositely arranged to form a second air inlet and a second air outlet, and a second swirl air duct is formed between the second air inlet and the second air outlet.

Preferably, the air outlet of the door body is in sealing butt joint with the air inlet of the dehumidifier through a sealing washer and a nut.

Preferably, the gas-liquid separation piece is a stopping rib position which is integrally formed on the peripheral wall of the inner cavity of the condensation dehumidifier.

Preferably, backstop muscle position includes the first backstop muscle position of vertical setting, forms third swirl air current wind channel between the inner chamber perisporium that first backstop muscle position and dehumidifier outlet connection.

Preferably, the condensation dehumidifier includes a plurality of dehumidifier outlet, and a plurality of dehumidifier outlet along transversely arranging in proper order at interval on the rear wall of horizontal condensation dehumidification chamber.

Preferably, the dishwasher comprises a washing chamber base arranged below the washing chamber, and a base water return port communicated with the water outlet of the dehumidifier is arranged on the washing chamber base.

Through the technical scheme, the utility model discloses a dish washer, but install the lower door body subassembly that turns over in the front side of the cabinet body including the cabinet body with but pivot open and shut, the lower door body subassembly that turns over is equipped with the door body air outlet with the washing chamber intercommunication in the cabinet body, the lower door body subassembly that turns over still includes the condensation dehumidifier of installing on the front panel of the lower door body subassembly that turns over, cool off from door body air outlet exhaust high temperature steam through the condensation dehumidifier, and realize the separation with the condensate water and the air current that produce after cooling, thereby avoided the condensate water to discharge to the outside from the lower door body subassembly that turns over, the use of giving the user causes inconveniently, user experience has been promoted.

Other features and advantages of the present invention will be described in detail in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a partial cross-sectional view of a cabinet and a condensate dehumidifier of a dishwasher according to the present invention;

FIG. 2 is a cross-sectional view of the dishwasher of the present invention;

FIG. 3 is a schematic diagram of the construction of the dehumidifier of FIG. 1;

FIG. 4 is a cross-sectional view A-A of FIG. 3;

fig. 5 is an enlarged view of a portion a in fig. 4.

Description of the reference numerals

A cabinet body 1; an air inlet 2 of the cabinet body; a downward-turning door body 3; the door body air outlet 4; a condensation dehumidifier 5; a washing chamber base 6; an air outlet 7 of the dehumidifier; a first partition plate 8; an air inlet 9 of the dehumidifier; a dehumidifier drain 10; a second partition plate 11; a first curved surface 12; a second curved surface 13; a fifth partition plate 14; a vertical condensation dehumidification chamber 15; a transverse condensing and dehumidifying cavity 16; a first air inlet 17; a first air outlet 18; a third partition plate 19; a fourth partition plate 20; a second air outlet 21; a second air intake port 22; a first stop rib 23; second stop rib 24.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

In the present invention, the embodiments and the features of the embodiments may be combined with each other without conflict.

In the present invention, unless otherwise specified, the use of directional terms such as "upper, lower, top, bottom" and "upper" are generally used with respect to the orientation shown in the drawings or the positional relationship of the components with respect to each other in the vertical, vertical or gravitational direction.

The present invention will be described in detail with reference to the accompanying drawings in conjunction with embodiments.

The utility model provides a dishwasher, as shown in fig. 1 to 5, this dishwasher includes that the cabinet body 1 and the lower turnover door body 3 subassembly of installing in the front side of the cabinet body 1 with the pivot ground that opens and shuts, and the lower turnover door body subassembly is equipped with the door body air outlet 4 with the washing chamber intercommunication in the cabinet body 1, and the lower turnover door body subassembly still includes the condensation dehumidifier 5 of installing on the front panel of the lower turnover door body, and condensation dehumidifier 5 is used for the air current of condensation door body air outlet 4 and realizes export gas-liquid separation.

High-temperature water vapor discharged from the door body air outlet 4 is cooled through the condensation dehumidifier 5, and the condensed water and the air flow generated after cooling are separated, so that the condensed water is prevented from being discharged to the outside from the downward-turning door body assembly, and inconvenience is caused to the use of a user.

Specifically, the downward-turning door assembly comprises a downward-turning door body 3, and a door air outlet 4 is arranged on the outer side of the downward-turning door body. The condensation dehumidifier 5 comprises a dehumidifier air inlet 9, a dehumidifier air outlet 7 and a dehumidifier water outlet 10; wherein, dehumidifier air intake 9 and door body air outlet 4 intercommunication are formed with the condensation dehumidification wind channel between dehumidifier air intake 9 and the dehumidifier air outlet 7, are equipped with the gas-liquid separator who is used for the separation condensate liquid flow to dehumidifier air outlet 7 between dehumidifier air outlet 7 and the dehumidifier outlet 10.

Through setting up the gas-liquid separation spare, make dish washer in the course of the work, the exhaust steam is discharged through door body air outlet 4 in the cavity from the dish washer cabinet body 1, and after the condensation of condensation dehumidifier 5 removed the wind channel and cools off into the comdenstion water, this comdenstion water is blockked by the gas-liquid separation spare, can directly not discharge from dehumidifier air outlet 7, also still blockked by the gas-liquid separation spare after the door body is opened, equally can not discharge from dehumidifier air outlet 7, use for the user outside having avoided the condensation water droplet to fall the dish washer with this causes inconvenience, user experience has been promoted.

It is specific, dehumidifier air intake 9 and 4 accessible sealing washers of door body air outlet and nut sealing connection, with this steam of avoiding a body air outlet 4 reveals a body outside, for the convenience of the inside steam of the cabinet body 1 discharges from a body air outlet 4, can set up fan (not shown in the figure) in one side of the cabinet body 1, as shown in fig. 1, cabinet body air intake 2 department on 1 another lateral wall of the cabinet body can be installed to this fan, can open the fan when the washing of dish washer is accomplished, the fan is bloied from cabinet body air intake 2 to cabinet body 1 inside, in order to form the air current with steam from a body air outlet 4 discharge rapidly, the cold air that the fan insufflates also can play with higher speed high temperature steam cooling effect.

Specifically, foretell gas-liquid separation spare is backstop muscle position on the internal perisporium of condensation dehumidifier 5 of integrated into one piece, as shown in fig. 5, this backstop muscle position includes vertical first backstop muscle position 23 that sets up in condensation dehumidifier 5 cavity, with being close to door body air outlet 4 and dehumidifier outlet 10 department separation into two sub-cavities in the dehumidifier cavity, these two sub-cavities communicate door body air outlet 4 and dehumidifier outlet 10 respectively, make the interior accumulational comdenstion water of sub-cavity of intercommunication dehumidifier outlet 10 can not enter into the sub-cavity of the door body air outlet 4 of intercommunication, with this realization with the isolation of comdenstion water and vapor, the comdenstion water has been avoided discharging from door body air outlet 4.

Furthermore, the stopping rib position further comprises a second stopping rib position 24 which is transversely arranged in the side wall of the cavity of the condensation dehumidifier 5 and is positioned at the same side of the door body air outlet 4. The extension length of the side wall of the second stop rib position 24 corresponding to the door body air outlet 4 is greater than or equal to the distance of the first stop rib position 23 corresponding to the side wall, so that condensed water on the side wall drips in the sub-cavity of the water outlet 10 of the communication dehumidifier, and cannot drip in the sub-cavity of the water outlet 4 of the communication door body to cause the condensed water to be discharged from the door body air outlet 4, and further the condensed water is prevented from being discharged from the door body air outlet 4.

Furthermore, the condensation dehumidification wind channel is the vortex air flow wind channel that can form the vortex air current to this makes the steam of 5 cavitys of condensation dehumidifier increase the cooling route when the vortex air flow wind channel, plays the effect of cooling with higher speed.

Specifically, as shown in fig. 3 to 5, the condensation dehumidifier 5 includes a vertical condensation dehumidification chamber 15 extending vertically and a horizontal condensation dehumidification chamber 16 communicating with the vertical condensation dehumidification chamber 15 and extending horizontally; the air outlet 7 of the dehumidifier is arranged at the lower part of the front wall of the transverse condensation dehumidification cavity 16; the dehumidifier water outlet 10 is arranged at the lower part of the rear wall of the transverse condensation dehumidification cavity 16; the dehumidifier air inlet 9 is arranged on the rear wall of the vertical condensation dehumidification cavity 15 and is positioned above the dehumidifier air outlet 7 and the dehumidifier water outlet 10. The above-mentioned swirl air duct can be separately arranged in the vertical condensation and dehumidification chamber 15 or the transverse condensation and dehumidification chamber 16, or arranged in both chambers. High-temperature water vapor inspected from the air inlet 9 of the dehumidifier firstly enters the vertical condensation and dehumidification cavity 15 for cooling and then enters the transverse condensation and dehumidification cavity 16 for cooling so as to generate low-temperature water vapor and generate condensed water.

Specifically, as shown in fig. 3, the above-mentioned whirlwind airflow duct includes a first partition plate 8 disposed in the vertical condensation dehumidification cavity 15 and located at the dehumidifier air inlet 9, and the first partition plate 8 may be connected to the front wall surface and the rear wall surface by a welding method of an individual sheet metal part, or formed by directly extruding the front wall surface or the rear wall surface. The first partition plate 8 may be disposed around the dehumidifier inlet 9 and form an upward opening, and preferably, disposed around the periphery of the dehumidifier inlet 9, and the high-temperature water vapor entering from the dehumidifier inlet 9 flows along the inner wall surface of the first partition plate 8 and flows out of the opening. Because dish washer is in the washing course of work, when the high temperature and high humidity steam of 1 class of the dish washer cabinet body discharged from door body air outlet 4 and got into dehumidifier air intake 9, easily formed the comdenstion water at dehumidifier air intake 9, through setting up first space bar 8 to the opening that makes progress that the dehumidifier air intake 9 semi-enclosed, avoided the comdenstion water to enter into 5 cavitys of condensation dehumidifier downwards for the comdenstion water directly flows back to cabinet body 1 inside again.

And the water vapor flows out from the opening and enters the cavity of the condensation dehumidifier 5, and the opening of the first partition plate 8 is upward, so that the water vapor forms a bent flow channel between the inner wall surface of the condensation dehumidifier 5 and the first partition plate 8 after flowing out from the opening, thereby increasing the flow path in the vertical condensation dehumidification cavity 15 and playing a role in increasing the heat exchange time to accelerate the cooling of the water vapor.

Preferably, the opening is arranged obliquely upwards, and the side of the opening inclined upwards is the same as the side of the dehumidifier air outlet 7 opposite to the dehumidifier air inlet 9. As shown in fig. 3, the opening is inclined upward to the right, which is the same as the dehumidifier outlet 7 on the right side relative to the dehumidifier inlet 9, so as to further increase the circulation path of the water vapor in the vertical condensation and dehumidification chamber 15.

And the side surface of the first partition plate 8 inclined upwards towards the formed opening can be connected with or close to the inner wall surface of the condensation dehumidifier 5 to prevent the water vapor from entering the cavity of the condensation dehumidifier 5 from the side of the opening, because the path of the side entering the cavity of the condensation dehumidifier is shorter than the path of the side entering the other side, the water vapor is prevented from passing through a shorter path, for example, the side surface on the right side of the opening is connected with the inner wall surface of the condensation dehumidifier 5 in fig. 3, so that the water vapor can only flow out from the left side of the opening, and the circulation path of the water vapor in the vertical condensation dehumidification cavity 15 is further increased.

Further, the swirl air flow duct is still including setting up in horizontal condensation dehumidification chamber 16, and be close to second partition plate 11 and the third partition plate 19 that dehumidifier air outlet 7 department set up, the crooked first curved surface 12 that forms of one end of second partition plate 11, first curved surface 12 is crooked towards dehumidifier air outlet 7 one side, first curved surface 12 sets up with partition plate 19 between the third relatively, in order to form first air inlet 17 and first gas outlet 18, the steam gets into the back from first air inlet 17, rotatory flow along the internal wall of first curved surface 12 and the internal wall of partition plate 19 between the third, in order to form first swirl air flow channel, and flow out from first gas outlet 18. Therefore, the circulation path of the water vapor is further increased, and the effect of increasing the heat exchange time to accelerate the cooling of the water vapor is achieved.

Further, the swirl air duct also includes a fourth partition plate 20 disposed in the transverse condensation dehumidification cavity 16 and close to the dehumidifier air outlet 7, the other end of the second partition plate 11 is bent to form a second bending surface 13, the second bending surface 13 is bent towards one side of the dehumidifier air outlet 7, the second bending surface 13 is disposed opposite to the fourth partition plate 20 to form a second air inlet 22 and a second air outlet 21, after the water vapor enters from the second air inlet 22, the water vapor flows along the inner wall surface of the second bending surface 13 and the inner wall surface of the fourth partition plate 20 in a rotating manner, so that a second swirl air duct is formed, and the water vapor flows out from the first air outlet 18. Therefore, the circulation path of the water vapor is further increased, and the effect of increasing the heat exchange time to accelerate the cooling of the water vapor is achieved.

Further, a fifth partition plate 14 is further disposed between the first curved surface 12 and the second curved surface 13, the fifth partition plate 14 further isolates the water vapor coming out from the first vortex air flow channel and the second vortex air flow channel, and the fifth partition plate 14 provides air flow towards the dehumidifier outlet 10 and the dehumidifier outlet 7, so as to smoothly enter the cavity of the condensation dehumidifier 5 near the dehumidifier outlet 10 and the dehumidifier outlet 7.

The water vapor is cooled by the flowing of the vertical condensation dehumidification cavity 15 and the horizontal condensation dehumidification cavity 16, the temperature of the water vapor is reduced, condensate water is formed in the condensation dehumidifier 5 cavity close to the dehumidifier water outlet 10 and the dehumidifier air outlet 7, as shown in fig. 5, at the moment, a third vortex air flow channel is formed between the first stopping rib position 23 and the inner cavity peripheral wall of the condensation dehumidifier 5, the water vapor flows downwards along the inner cavity side wall and upwards again at the bottom wall, and after rising from the first stopping rib position 23, a third vortex air flow is formed, finally the water vapor enters the dehumidifier air outlet 7 and is discharged, and finally the water vapor is further cooled in an accelerating manner.

The dehumidifier water outlet 10 preferably protrudes toward one side of the door body, and is provided in a plurality of numbers, and is arranged on the rear wall of the transverse condensation dehumidification chamber 16 at intervals in the transverse direction. Thereby, the condensed water can be uniformly discharged into the dishwasher.

Further, the dish washing machine comprises a washing cavity base 6 arranged below the washing cavity, and a base water return port communicated with the water outlet 10 of the dehumidifier is arranged on the washing cavity base 6. The condensed water drained from the dehumidifier flows into the washing cavity base and is directly drained or manually drained through the drain pipe on the base.

In summary, the dishwasher enters the dehumidifier air inlet 9 after the high-temperature water vapor door air outlet 4 generated during washing is discharged, a part of condensed water in the high-temperature water vapor door air outlet flows and separates in the first partition plate 8 to flow back into the dishwasher washing cavity, so as to form water vapor a, the water vapor a flows out through the opening of the first partition plate 8 to form water vapor b, the water vapor b flows downwards through the vertical condensation dehumidification cavity 15 to reach the transverse condensation dehumidification cavity 16, and is divided into two paths of water vapor at one end of the two partition plates, wherein one path of water vapor enters the first vortex airflow channel to form a vortex airflow d, the other path of water vapor enters the second vortex airflow channel to form a second vortex airflow c, and finally enters the condensation dehumidifier 5 cavity close to the dehumidifier water outlet 10 and the dehumidifier air outlet 7 to form water vapor e, a third vortex airflow is formed in the third vortex airflow channel, and finally the cooled water vapor f is discharged from the dehumidifier air outlet, the condensed water is discharged from the dehumidifier drain 10. With this finally realized cooling and carrying out gas-liquid separation with the high temperature steam that produces when the washing that will wash dishes, discharge the comdenstion water in washing chamber base 6, outside the steam discharge dish washer after the cooling, avoided the comdenstion water directly to discharge the use of giving the user outside the dish washer and cause inconvenience to this has promoted user experience.

The above is merely a preferred embodiment of the present invention, and not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and in order to avoid unnecessary repetition, the present invention does not need to describe any combination of the features.

In addition, various embodiments of the present invention can be combined arbitrarily, and the disclosed content should be regarded as the present invention as long as it does not violate the idea of the present invention.

Claims (14)

1. The utility model provides a dishwasher, includes the cabinet body (1) and can install with pivoting opening and shutting the lower flip body (3) subassembly of the front side of the cabinet body (1), down flip body (3) subassembly be equipped with door body air outlet (4) of washing chamber intercommunication in the cabinet body (1), its characterized in that, down flip body (3) subassembly still including installing condensation dehumidifier (5) on the front panel of flip body subassembly down, condensation dehumidifier (5) are used for the condensation the air current of door body air outlet (4) realizes export gas-liquid separation.

2. The dishwasher of claim 1, characterized in that the lower flap body (3) assembly comprises a lower flap body (3), the lower flap body (3) being provided with the door body air outlet (4).

3. The dishwasher of claim 2, characterized in that the condensate dehumidifier (5) comprises the condensate dehumidifier (5) comprising a dehumidifier air inlet (9), a dehumidifier air outlet (7) and a dehumidifier water outlet (10);

the dehumidifier is characterized in that the dehumidifier air inlet (9) is communicated with the door body air outlet (4), a condensation dehumidification air channel is formed between the dehumidifier air inlet (9) and the dehumidifier air outlet (7) to condense air flow of the door body air outlet (4), and a gas-liquid separation piece used for separating condensed liquid from flowing to the dehumidifier air outlet (7) is arranged between the dehumidifier air outlet (7) and the dehumidifier water outlet (10).

4. The dishwasher of claim 3, wherein the condensing and dehumidifying air duct is a whirlpool air duct capable of forming whirlpool air.

5. The dishwasher of claim 4, characterized in that the condensate dehumidifier (5) comprises a vertical condensate dehumidification chamber (15) extending vertically and a lateral condensate dehumidification chamber (16) communicating with the vertical condensate dehumidification chamber (15) and extending laterally;

the air outlet (7) of the dehumidifier is arranged at the lower part of the front wall of the transverse condensation dehumidification cavity (16);

the dehumidifier water outlet (10) is arranged at the lower part of the rear wall of the transverse condensation dehumidification cavity (16); and

the dehumidifier air inlet (9) is formed in the rear wall of the vertical condensation and dehumidification cavity (15) and is positioned above the dehumidifier air outlet (7) and the dehumidifier water outlet (10).

6. The dishwasher of claim 5, characterized in that the condensate dehumidifier (5) comprises a first partition plate (8), the first partition plate (8) being arranged around the dehumidifier air inlet (9) and forming an upward opening.

7. A dishwasher according to claim 6, wherein the opening is inclined towards the upper side, wherein the side of the opening inclined towards the upper side is the same as the side of the dehumidifier outlet (7) opposite the dehumidifier inlet (9).

8. The dishwasher of claim 6, characterized in that the swirl air duct further comprises a second partition plate (11) and a third partition plate (19) disposed in the transverse condensation dehumidification chamber (16) and adjacent to the dehumidifier air outlet (7), wherein one end of the second partition plate (11) forms a first curved surface (12) curved toward one side of the dehumidifier air outlet (7), the first curved surface (12) is disposed opposite to the third partition plate (19) to form a first air inlet (17) and a first air outlet (18), and a first swirl air duct is formed between the first air inlet (17) and the first air outlet (18).

9. The dishwasher of claim 8, further comprising a fourth partition plate (20) disposed adjacent to the dehumidifier outlet (7), the other end of the second partition plate (11) forming a second curved surface (13) curved toward the dehumidifier outlet (7), the second curved surface (13) being disposed opposite to the fourth partition plate (20) to form a second air inlet (22) and a second air outlet (21), and a second whirling air duct being formed between the second air inlet (22) and the second air outlet (21).

10. The dishwasher of claim 3, characterized in that the door outlet (4) is in sealed abutment with the dehumidifier inlet (9) by means of a sealing gasket and a nut.

11. A dishwasher according to claim 3, characterized in that the gas-liquid separator is a stop rib integrally formed on the circumferential wall of the inner cavity of the condensate dehumidifier (5).

12. The dishwasher of claim 11, wherein the stop rib comprises a first stop rib (23) vertically arranged, and a third vortex air duct is formed between the first stop rib (23) and the inner cavity peripheral wall connected with the dehumidifier drain (10).

13. The dishwasher of claim 5, characterized in that the condensation dehumidifier (5) comprises a plurality of dehumidifier water outlets (10), the plurality of dehumidifier water outlets (10) being arranged in a transverse sequence at intervals on a rear wall of the transverse condensation dehumidification chamber (16).

14. The dishwasher of any one of claims 3 to 13, comprising a washing chamber base (6) arranged below the washing chamber, the washing chamber base (6) being provided with a base return port communicating with the dehumidifier drain (10).

Images