CN219895653U - Condensation structure of door fan in dish washer - Google Patents

Abstract

The utility model discloses a condensation structure of an inner door fan of a dish washer, and aims to provide a condensation structure of the inner door fan of the dish washer, which is not easy to damage a cabinet. The beneficial effects of the utility model are as follows: and part of final exhaust gas flows back to the inner cavity through the second air outlet after condensation, and the other part of the final exhaust gas is discharged from the gap between the front skirting board and the door outer door through the first air outlet after condensation so as to replace the side of the dish washer to be discharged, thereby achieving the aim of difficult damage to the cabinet and having practical and reliable structure.

Description

Condensation structure of door fan in dish washer

Technical Field

The utility model relates to the technical field related to dish washers, in particular to a condensing structure of an inner door fan of a dish washer.

Background

The demands of dish washers are increasing, the traditional machine type of the dish washers is continuously improved and innovated, a technical difficulty is broken through, various intelligent novel modules which lead to the eyes of the manufacturers are created, and the dish washers become competitive advantages of propaganda of the manufacturers.

Condensation and exhaust are always structural modules of the dish washing machine which are controlled by emphasis. The structure of the kitchen ventilator is that the respirator module is used as an exhaust structure, but the respirator has certain defects in exhaust, the design of the respirator is generally on the side face of the kitchen ventilator, due to the limitation of the structure, part of the final gas can flow back to the inner cavity, and the other part of the final gas can be discharged outside, the embedded kitchen ventilator is arranged in a kitchen cabinet, and the kitchen cabinet is corroded by the exhaust from the side edge for a long time, so that the kitchen cabinet is easy to mildew and bacteria are bred.

Disclosure of Invention

The utility model provides a condensation structure of a door fan in a dish washer, which is not easy to damage a cabinet, in order to overcome the defect that condensation and exhaust of the dish washer are easy to damage the cabinet in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a condensation structure of door fan in dish washer, it includes outer door, inner door and baseboard, outer door is upper and lower distribution with the baseboard, form the clearance between outer door and the baseboard, the inner door is located the side of outer door, be equipped with condensation subassembly between inner door and the outer door, the top of inner panel is equipped with the air inlet, condensation subassembly's top is linked together with the air inlet, condensation subassembly's bottom is equipped with gas outlet one and gas outlet two, gas outlet one is located the clearance, gas outlet two is located on the inner door.

The outer door and the skirting board are distributed up and down, a gap is formed between the outer door and the skirting board, the inner door is located on the side face of the outer door, a condensation assembly is arranged between the inner door and the outer door, an air inlet is formed in the top of the inner plate, the top of the condensation assembly is communicated with the air inlet, a first air outlet and a second air outlet are formed in the bottom of the condensation assembly, the first air outlet is located in the gap, and the second air outlet is located on the inner door. The air inlet is arranged at the top of the condensation assembly, the first air outlet and the second air outlet are arranged at the bottom of the condensation assembly, so that the flow stroke of the air flow in the condensation assembly can be prolonged, and the condensation effect can be improved; the condensing exhaust structure is designed between the inner door and the outer door of the dish washer, a part of final exhaust flows back to the inner cavity through the second air outlet after condensation, and a part of final exhaust is discharged from the gap between the front skirting board and the outer door through the first air outlet after condensation so as to replace the side discharge of the dish washer, thereby achieving the aim of difficult damage to the cabinet and having practical and reliable structure.

Preferably, the condensing assembly comprises a condensing bottom plate and a condensing top cover, one side of the condensing bottom plate is detachably connected with the inner door, the other side corresponding to the condensing bottom plate is detachably connected with the condensing top cover and respectively forms a first air channel and a second air channel, the top of the condensing bottom plate is provided with a through hole matched with the air inlet, the through hole is in sealed connection with the air inlet, the first air outlet and the second air outlet are both positioned at the bottom of the condensing bottom plate, the air inlet is communicated with the first air outlet through the first air channel, a fan is arranged on the first air channel, the fan is detachably connected with the condensing bottom plate, and the air inlet is communicated with the second air outlet through the second air channel. After the fan is started, negative pressure is generated, so that partial airflow is sucked into the first air channel to be condensed and then discharged from a gap between the front skirting board and the outer door through the first air outlet.

Preferably, the condensing bottom plate is provided with a cover plate and a mounting groove matched with the fan, the cover plate completely covers the mounting groove and is detachably connected with the condensing bottom plate, the condensing top cover is provided with a mounting opening matched with the cover plate, the cover plate is in sealing connection with the condensing top cover through the mounting opening, and the mounting groove is positioned on the first air duct. The design is favorable for improving the air tightness of the first air channel, thereby being favorable for improving the negative pressure effect of the fan.

Preferably, a sealing ring is arranged at the through hole, and the through hole is in sealing connection with the air inlet through the sealing ring. The design is favorable for the air flow to enter the first air channel and the second air channel completely, and is favorable for improving the condensation effect of the air flow.

Preferably, the first air channel is located on the side face of the second air channel, one end of the second air channel is located on the side face of the air inlet and is communicated with the air inlet through a through hole, the humidity sensor is installed at one end of the second air channel, the other end of the second air channel is communicated with the air outlet in a two-phase mode, a shunt opening is formed in the side face of the second air channel, the humidity sensor is located between the air inlet and the shunt opening, one end of the first air channel is communicated with the shunt opening, and the other end of the first air channel is communicated with the first air outlet. The humidity sensor senses the internal humidity, the fan is started, the gas circulation emission is accelerated, and drying is facilitated.

Preferably, a plurality of baffles are arranged on the left side and the right side in the air channel II, one end of each baffle is far away from the air outlet II and is fixedly connected with the side wall of the air channel II, the other end of each baffle is close to the air outlet II and is in a suspended state, a plurality of baffles on the left side of the air channel II and a plurality of baffles on the right side of the air channel II are sequentially and alternately distributed, and the split-flow port is positioned between two adjacent baffles. The design of the baffle is favorable for further increasing the flow stroke of the air flow, improving the condensation effect, the condensed water flows back to the inner cavity through the second air outlet, and the air is discharged through the negative pressure generated by the fan.

The beneficial effects of the utility model are as follows: the flow stroke of the air flow in the condensation assembly is prolonged, so that the condensation effect is improved; the condensation exhaust structure is designed between the inner door and the outer door of the dish washer, a part of the final exhaust flows back to the inner cavity through the second air outlet after condensation, and the other part of the final exhaust is discharged from the gap between the front skirting board and the outer door through the first air outlet after condensation so as to replace the discharge from the side edge of the dish washer, thereby achieving the aim of difficult damage to the cabinet and having practical and reliable structure; the air tightness of the first air channel is improved, so that the negative pressure effect of the fan is improved; the humidity sensor senses the internal humidity, the fan is started, the gas circulation emission is accelerated, and drying is facilitated.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a rear view of FIG. 1;

FIG. 3 is a schematic view of the mounting structure of the condensing assembly;

FIG. 4 is an exploded view of the condensing assembly;

fig. 5 is a schematic view of the structure of the airflow direction.

In the figure: 1. the outer door, the inner door, the skirting board, the gap, the condensation component, the air inlet, the air outlet I, the air outlet II, the condensation bottom plate, the condensation top cover, the air channel I, the air conditioner comprises an air duct II, an air duct 13, a through hole 14, a fan 15, a cover plate 16, a mounting groove 17, a mounting opening 18, a sealing ring 19, a humidity sensor 20, a shunt opening 21 and a baffle plate.

Description of the embodiments

The utility model is further described below with reference to the drawings and detailed description.

In the embodiment shown in fig. 1, 2 and 3, a condensation structure of an inner door fan of a dish washer comprises an outer door 1, an inner door 2 and a skirting board 3, wherein the outer door 1 and the skirting board 3 are vertically distributed, a gap 4 is formed between the outer door 1 and the skirting board 3, the inner door 2 is located on the side face of the outer door 1, a condensation component 5 is arranged between the inner door 2 and the outer door 1, an air inlet 6 is arranged at the top of the inner plate, the top of the condensation component 5 is communicated with the air inlet 6, an air outlet 7 and an air outlet 8 are arranged at the bottom of the condensation component 5, the air outlet 7 is located in the gap 4, and the air outlet 8 is located on the inner door 2.

As shown in fig. 4 and 5, the condensation assembly 5 includes a condensation bottom plate 9 and a condensation top cover 10, one side of the condensation bottom plate 9 is detachably connected with the inner door 2, the other side corresponding to the condensation bottom plate 9 is detachably connected with the condensation top cover 10 and respectively forms an air channel one 11 and an air channel two 12, a through hole 13 matched with the air inlet 6 is arranged at the top of the condensation bottom plate 9, the through hole 13 is in sealing connection with the air inlet 6, the air outlet one 7 and the air outlet two 8 are both positioned at the bottom of the condensation bottom plate 9, the air inlet 6 is communicated with the air outlet one 7 through the air channel one 11, a fan 14 is arranged on the air channel one 11, the fan 14 is detachably connected with the condensation bottom plate 9, and the air inlet 6 is communicated with the air outlet two 8 through the air channel two 12.

As shown in fig. 4, a cover plate 15 and a mounting groove 16 matched with the fan 14 are arranged on the condensation bottom plate 9, the cover plate 15 completely covers the mounting groove 16 and is detachably connected with the condensation bottom plate 9, a mounting opening 17 matched with the cover plate 15 is arranged on the condensation top cover 10, the cover plate 15 is in sealing connection with the condensation top cover 10 through the mounting opening 17, and the mounting groove 16 is positioned on the first air duct 11. The through hole 13 is provided with a sealing ring 18, and the through hole 13 is in sealing connection with the air inlet 6 through the sealing ring 18.

As shown in fig. 4 and 5, the first air channel 11 is located on the side of the second air channel 12, one end of the second air channel 12 is located on the side of the air inlet 6 and is communicated with the air inlet 6 through the through hole 13, the humidity sensor 19 is installed at one end of the second air channel 12, the other end of the second air channel 12 is communicated with the second air outlet 8, the side of the second air channel 12 is provided with the split-flow port 20, the humidity sensor 19 is located between the air inlet 6 and the split-flow port 20, one end of the first air channel 11 is communicated with the split-flow port 20, and the other end of the first air channel 11 is communicated with the first air outlet 7.

As shown in fig. 4 and 5, a plurality of baffles 21 are respectively arranged on the left side and the right side in the air duct two 12, one end of each baffle 21 is far away from the air outlet two 8 and is fixedly connected with the side wall of the air duct two 12, the other end of each baffle 21 is close to the air outlet two 8 and is in a suspended state, a plurality of baffles 21 on the left side of the air duct two 12 and a plurality of baffles 21 on the right side of the air duct two 12 are sequentially and alternately distributed, and a shunt opening 20 is positioned between two adjacent baffles 21.

The air inlet 6 is arranged at the top of the condensation assembly 5, the air outlet I7 and the air outlet II 8 are arranged at the bottom of the condensation assembly 5, and meanwhile, due to the design of the baffle 21, the flow stroke of air flow in the condensation assembly 5 is prolonged, so that the condensation effect is improved; the condensation exhaust structure is designed between the inner door 2 and the outer door 1 of the dish washer, the humidity sensor 19 senses the internal humidity, the condensate water flows back to the inner cavity through the second air outlet 8 after the final exhaust is condensed, the air is discharged from the gap 4 between the front skirting board 3 and the outer door 1 through the first air outlet 7 after the condensation under the negative pressure effect generated by the fan 14, so that the purpose of difficult damage to a cabinet is achieved instead of being discharged from the side edge of the dish washer, and the structure is practical and reliable.

Claims (6)

1. The utility model provides a condensation structure of door fan in dish washer, characterized by, including outer door (1), interior door (2) and baseboard (3), outer door (1) are upper and lower distribution with baseboard (3), form clearance (4) between outer door (1) and baseboard (3), interior door (2) are located the side of outer door (1), be equipped with condensation subassembly (5) between interior door (2) and outer door (1), the top of interior door (2) is equipped with air inlet (6), the top and the air inlet (6) of condensation subassembly (5) are linked together, the bottom of condensation subassembly (5) is equipped with gas outlet one (7) and gas outlet two (8), gas outlet one (7) are located clearance (4), gas outlet two (8) are located interior door (2).

2. The condensation structure of an inner door fan of a dish washer according to claim 1, wherein the condensation assembly (5) comprises a condensation bottom plate (9) and a condensation top cover (10), one side of the condensation bottom plate (9) is detachably connected with the inner door (2), the other side corresponding to the condensation bottom plate (9) is detachably connected with the condensation top cover (10) and respectively forms a first air channel (11) and a second air channel (12), a through hole (13) matched with the air inlet (6) is formed in the top of the condensation bottom plate (9), the through hole (13) is in sealing connection with the air inlet (6), the first air outlet (7) and the second air outlet (8) are both located at the bottom of the condensation bottom plate (9), the air inlet (6) is communicated with the first air outlet (7) through the first air channel (11), a fan (14) is arranged on the first air channel (11), the fan (14) is detachably connected with the condensation bottom plate (9), and the air inlet (6) is communicated with the second air outlet (8) through the second air channel (12).

3. The condensing structure of an inner door fan of a dish washer according to claim 2, characterized in that a cover plate (15) and a mounting groove (16) matched with the fan (14) are arranged on the condensing bottom plate (9), the cover plate (15) completely covers the mounting groove (16) and is detachably connected with the condensing bottom plate (9), a mounting opening (17) matched with the cover plate (15) is arranged on the condensing top cover (10), the cover plate (15) is in sealing connection with the condensing top cover (10) through the mounting opening (17), and the mounting groove (16) is positioned on the first air duct (11).

4. The condensing structure of an inner door fan of a dish washer according to claim 2, characterized in that a sealing ring (18) is arranged at the through hole (13), and the through hole (13) is connected with the air inlet (6) in a sealing way through the sealing ring (18).

5. The condensation structure of an inner door fan of a dish washer according to claim 2, wherein the first air channel (11) is located on the side face of the second air channel (12), one end of the second air channel (12) is located on the side face of the air inlet (6) and is communicated with the air inlet (6) through the through hole (13), the humidity sensor (19) is installed at one end of the second air channel (12), the other end of the second air channel (12) is communicated with the second air outlet (8), the side face of the second air channel (12) is provided with the split-flow port (20), the humidity sensor (19) is located between the air inlet (6) and the split-flow port (20), one end of the first air channel (11) is communicated with the split-flow port (20), and the other end of the first air channel (11) is communicated with the first air outlet (7).

6. The condensation structure of an inner door fan of a dish washer according to claim 5, wherein a plurality of baffles (21) are arranged on the left side and the right side in the air duct II (12), one end of each baffle (21) is far away from the air outlet II (8) and is fixedly connected with the side wall of the air duct II (12), the other end of each baffle (21) is close to the air outlet II (8) and is in a suspended state, a plurality of baffles (21) on the left side of the air duct II (12) and a plurality of baffles (21) on the right side of the air duct II (12) are in sequential cross distribution, and the split-flow ports (20) are positioned between two adjacent baffles (21).