CN111759252A - Double-fan circulating air drying and sterilizing device for drying equipment and dish washing machine - Google Patents

Abstract

The invention discloses a double-fan circulating air drying and sterilizing device for drying equipment, which comprises an air draft component, a condensation component, an air inlet component, a fresh air component and a water ion generating device, wherein the air draft component, the condensation component, the air inlet component and the fresh air component form a circulating air duct, and humid and hot air formed by high-temperature drying in the drying equipment is condensed to form dry air and condensed water. The drying air is discharged into the drying equipment again through the fresh air assembly, and the drying of the air in the drying equipment is completed; the condensed water flows into the water ion generating device, and the water ion generating device converts the condensed water into nano charged water ions, then the nano charged water ions are discharged into the fresh air assembly and enter the inner cavity of the drying equipment along with the dry air, so that the disinfection and sterilization of the tableware are completed. The invention has smart structure and realizes the functions of drying air and/or sterilizing.

Description

Double-fan circulating air drying and sterilizing device for drying equipment and dish washing machine

[ technical field ] A method for producing a semiconductor device

The application relates to the field of drying equipment, in particular to a double-fan circulating air drying and sterilizing device for drying equipment and a dish washing machine.

[ background of the invention ]

With the increase of living standard, household dish washing machines have become indispensable kitchen appliances. The existing dish washer usually adopts the traditional negative ion generator or ozone generator or ultraviolet lamp to realize the sterilization and peculiar smell removal of the tableware, and the above traditional sterilization modes respectively have the following problems: the negative ion generator and the ozone generator easily cause the ozone concentration in the cavity of the dish washing machine to exceed the standard; ultraviolet ray lamps are easy to cause that ultraviolet rays in the cavity of the dish washing machine exceed the standard.

[ summary of the invention ]

The invention provides a double-fan circulating air drying and disinfecting device for drying equipment, which is improved aiming at the problem that the concentration of ozone exceeds the standard or ultraviolet exceeds the standard in the existing dish-washing machine, and comprises an air draft component for extracting damp and hot air in an inner cavity of the drying equipment, wherein a condensing component for condensing the damp and hot air to form dry air and condensed water is communicated with the air draft component, one end of the condensing component, which is far away from the air draft component, is communicated with a fresh air component for exhausting the dry air into the inner cavity of the drying equipment, an air inlet component for exhausting air outside the drying equipment into the condensing component to accelerate the condensation of the damp and hot air is communicated with the condensing component, and a water ion generating device for collecting the condensed water flowing into the fresh air component, converting the condensed water into nano charged water ions and then exhausting the nano charged water ions into the fresh air component is communicated.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the condensing assembly comprises a condensing pipe and a condensing cavity arranged in the condensing pipe, the fresh air component comprises a fresh air shell communicated with one end of the condensation pipe and a fresh air cavity arranged in the fresh air shell and communicated with the condensation cavity, a plurality of clapboards which partition the fresh air cavity into a fresh air supply cavity, a condensed water diversion cavity and a water ion mixing cavity which are communicated with each other are arranged in the fresh air shell, the fresh air shell is provided with a fresh air outlet hole communicated with the fresh air supply cavity, the condensed water diversion cavity is communicated with the condensation cavity and is used for diverting condensed water to the water ion generating device, the fresh air supply cavity is used for discharging dry air or dry air mixed with nano charged water ions into the inner cavity of the drying equipment through the fresh air outlet hole.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the water ion generating device comprises a generator shell arranged on the fresh air shell and a water ion generator arranged in the generator shell and used for forming nano charged water ions.

As an improvement of the dual-fan circulating air drying and sterilizing device for the drying device, a third partition plate is arranged in the generator shell and partitions the generator shell to form a condensed water storage cavity and a water ion generation cavity, the condensed water storage cavity is communicated with the condensed water diversion cavity and is used for collecting condensed water flowing into the condensed water diversion cavity, the water ion generator comprises a water ion generator probe, one end of the water ion generator probe is arranged in the water ion generation cavity, the other end of the water ion generator probe can extend into the water ion mixing cavity and is used for exciting the condensed water to form nano-charged water ions, and a capillary suction pipe, one end of the capillary suction pipe is inserted into the condensed water storage cavity and is used for sucking the condensed water.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the plurality of the partition plates comprise a first partition plate a and a first partition plate B, the first partition plate a is arranged between the fresh air supply cavity and the condensed water diversion cavity, the first partition plate B is arranged between the condensed water diversion cavity and the water ion mixing cavity, and the first partition plate a and the first partition plate B form a condensed water diversion hole which is communicated with the water ion mixing cavity and the condensed water diversion cavity; the fresh air shell and one side of the generator shell which is adjacent to each other are provided with an adjacent third partition plate which is used for communicating the condensed water storage cavity with an overflow hole of the water ion mixing cavity, and the free end of the first partition plate A is higher than the overflow hole in the vertical direction.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the air draft assembly comprises an air draft shell communicated with one end of the fresh air shell, an air draft cavity communicated with the condensation cavity is formed in the air draft shell, a fourth partition plate is arranged in the air draft shell, the air draft cavity is formed into an air draft air inlet cavity and an air draft air outlet cavity which are adjacent and communicated at intervals, an air draft is arranged in the air draft air outlet cavity, an air draft hole communicated with the air draft air inlet cavity is formed in the air draft shell, and hot and humid air in the inner cavity of the drying equipment passes through the air draft hole to flow through in sequence the air draft air inlet cavity and the condensation cavity after the air draft air outlet cavity.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the condensation pipe stretches across the outer wall of the inner container of the drying equipment, the air draft assembly and the fresh air assembly are arranged on the two opposite sides of the inner container of the drying equipment, and the fresh air outlet hole and the air draft hole are formed in a height difference manner in the vertical direction from bottom to top.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the air exhaust hole and the fresh air outlet hole are provided with fan fasteners for enabling the air exhaust assembly and the fresh air assembly to be fixed on the inner container of the drying equipment.

As an improvement of the double-fan circulating air drying and sterilizing device for the drying equipment, the air inlet assembly comprises an air inlet base communicated with the condensation pipe, and an air inlet machine is separably connected to the air inlet base.

The invention provides a dish washing machine, which is improved aiming at the problems of over standard ozone concentration and over standard ultraviolet ray in the existing dish washing machine and comprises an inner container and a double-fan circulating air drying and sterilizing device which is arranged on the inner container and used for the drying equipment.

Compared with the prior art, the invention has the following advantages:

the double-fan circulating air drying and sterilizing device for the drying equipment is applied to electrical equipment with a drying function, in particular to a dish washing machine with the drying function. According to the invention, the air draft assembly, the condensation assembly, the air inlet assembly and the fresh air assembly are utilized to form the circulating air duct, and moist hot air formed by high-temperature drying in the dish washer is converted into dry air and condensed water. Wherein, the dry air is discharged into the inner cavity of the dish washer again through the fresh air component, so as to realize the drying of the air in the inner cavity of the dish washer; the comdenstion water is by water conservancy diversion to water ion generating device, arouses the comdenstion water through water ion generating device and discharges into new trend subassembly after forming the nanometer charged water ion that has the disinfection function, discharges into the dish washer inner chamber along with dry air together, realizes the disinfection function. The invention has smart structure, realizes the conversion of damp and hot air into dry air by condensing the damp and hot air, simultaneously forms condensed water, generates nano charged water ions with disinfection and sterilization functions by using the condensed water as a disinfection raw material through the water ion generating device to realize the disinfection function, has the characteristics of no toxicity, environmental protection and energy saving, and overcomes the problem that the ozone concentration exceeds the standard or the ultraviolet ray exceeds the standard in the existing dish-washing machine.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a perspective view of a dual fan circulating air drying and sterilizing apparatus for a drying apparatus of the present application;

FIG. 2 is a schematic view of the air flow direction of a dual-fan circulating air drying and sterilizing device for a drying apparatus of the present application when the device is applied to the drying apparatus in a working state;

FIG. 3 is a schematic structural diagram of a fresh air assembly and a water ion generating device in a double-fan circulating air drying and sterilizing device for a drying apparatus according to the present application;

FIG. 4 is a schematic structural diagram of a fresh air assembly and a water ion generating device in a double-fan circulating air drying and sterilizing device for a drying apparatus according to the present application;

FIG. 5 is a schematic structural diagram of a fresh air assembly and a water ion generating device in a double-fan circulating air drying and sterilizing device for a drying apparatus according to the present application;

FIG. 6 is an enlarged view of a portion of FIG. 4 at A;

FIG. 7 is an enlarged view of a portion of FIG. 4 at B;

FIG. 8 is a schematic structural view of an air draft assembly in a dual-fan circulating air drying and sterilizing device for a drying apparatus according to the present application;

FIG. 9 is a partial enlarged view of an air draft assembly in the dual fan circulating air drying and sterilizing device for the drying apparatus of the present application;

FIG. 10 is a schematic structural view of an air intake assembly in a dual-fan circulating air drying and sterilizing device for a drying apparatus of the present application;

fig. 11 is a partial enlarged view at C in fig. 10.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1-11, the dish washer with drying function comprises an inner container 300, wherein an air draft assembly 1 and a fresh air assembly 3 communicated with an inner cavity of the inner container 300 are arranged on the inner container 300, a condensation assembly 2 is communicated between the air draft assembly 1 and the fresh air assembly 3, and a water ion generating device 5 is communicated on the fresh air assembly 3. When bowls and chopsticks are dried at high temperature by the dish washer, a large amount of damp and hot air is formed in the inner container 300, the damp and hot air enters the condensation component 2 through the air draft component 1, the condensation component 2 condenses the damp and hot air to form dry air and condensed water, the dry air enters the inner cavity of the inner container 300 again through the fresh air component 3, the condensed water flows into the water ion generating device 5 through the fresh air component 3, the water ion generating device 5 excites the condensed water to form nano charged water ions, then the nano charged water ions are discharged into the fresh air component 3, the nano charged water ions enter the inner cavity of the inner container 300 along with the dry air to be disinfected and sterilized, preferably, the condensation component 2 is communicated with an air inlet component 4 for pumping the air outside the drying device into the condensation component 2 to accelerate air condensation, and the cold air pumped by the air inlet component 4 accelerates the condensation of the damp and hot air, the condensation effect is better. The running conditions of the air draft component 1, the air inlet component 4 and the water ion generating device 5 are mutually independent and do not influence each other. When the air draft assembly 1 and/or the air inlet assembly 4 are/is started, the air draft assembly 1 extracts damp and hot air formed by high-temperature drying in the inner container 300, the air inlet assembly 4 accelerates condensation of the damp and hot air, the damp and hot air is finally condensed to form dry air and condensed water, the dry air is discharged into the inner container 300 through the fresh air assembly 3, and the effect of drying the air in the inner container 300 is achieved; when the air draft assembly 1 and/or the air inlet assembly 4 and the water ion generating device 5 are/is opened, condensed water flowing into the water ion generating device 5 is excited by the water ion generating device 5 to form nano charged water ions and is discharged into the inner container 300 along with dry air, so that the air in the inner container 300 is dried, and the effects of disinfection and sterilization are realized. In conclusion, the structure of the invention is ingenious, the circulating air duct formed by the air draft component 1, the condensation component 2, the air inlet component 4 and the fresh air component 3 can prevent a large amount of damp and hot air formed in the drying process of the drying equipment from being directly discharged to the outside of the drying equipment, so that condensed water is formed outside the drying equipment to influence the use feeling, meanwhile, the circulating air duct condenses the damp and hot air to form dry air, the formed dry air is discharged into the inner container 300 again, the effect of drying the air in the inner container 300 is realized, meanwhile, the condensed water formed by condensing the damp and hot air is guided into the ion generating device 5, the ion generating device 5 generates the nano charged water ions with the disinfection and sterilization functions by taking the condensed water as the raw material to realize the disinfection and sterilization effects, and the nano charged water ions have the characteristics of no toxicity, environmental protection and energy saving, the problems of the existing dish-washing machine that the concentration of ozone exceeds the standard and the ultraviolet ray exceeds the standard are solved.

Specifically, the condensation assembly 2 comprises a condensation pipe 21 and a condensation cavity arranged in the condensation pipe 21, and the condensation pipe 21 is integrally formed by blow molding, so that the cost is low and the air tightness is good. Fresh air component 3 is in including the intercommunication the fresh air shell 31 of condenser pipe 21 one end with locate in the fresh air shell 31 with the fresh air chamber of condensation chamber intercommunication, specifically, fresh air shell 31 pegs graft on the condenser pipe 21, this connected mode is easy to assemble and maintain.

Furthermore, a plurality of partition plates 6 which are used for partitioning the fresh air cavity into a fresh air supply cavity 32, a condensate water diversion cavity 33 and a water ion mixing cavity 34 which are communicated with each other are arranged in the fresh air shell 31, and a fresh air outlet hole 7 communicated with the fresh air supply cavity 32 is formed in the fresh air shell 31. The water ion mixing cavity 34, the condensed water diversion cavity 33 and the fresh air supply cavity 32 are sequentially arranged along the flowing direction of air. The plurality of partition boards 6 include a first partition board a61 and a first partition board B62, the first partition board a61 is disposed between the fresh air blowing cavity 32 and the condensed water diversion cavity 33, the first partition board B62 is disposed between the condensed water diversion cavity 33 and the water ion mixing cavity 34, and the first partition board a61 and the first partition board B62 form a condensed water diversion hole 10 for communicating the water ion mixing cavity 34 and the condensed water diversion cavity 33. Specifically, the dry air flowing into the fresh air cavity or the dry air mixed with the nano charged water ions flows into the fresh air supply cavity 32 and is discharged into the inner container 300 through the fresh air outlet hole 7, so that the discharge of the dry air is realized; the condensed water flowing into the fresh air cavity flows into the condensed water diversion cavity 33 through the condensed water diversion hole 10 and then flows to the water ion generating device 5, so that the diversion of the condensed water is realized. As can be seen, the first partition a61 and the first partition B62 define the condensed water diversion chamber 33, and when the condensed water collected in the water ion generating device 5 overflows into the condensed water diversion chamber 33, the first partition B62 prevents the dry air discharged into the water ion mixing chamber 34 from contacting the condensed water, and prevents the humidity of the dry air from being raised again; meanwhile, the structure can also prevent high-humidity air formed by evaporation of condensed water from being discharged into the inner cavity of the inner container 300 again along with the dry air, so that the drying effect is not influenced.

Specifically, the water ion generating device 5 includes a generator housing 51 disposed on the fresh air housing 31, a third partition 8 is disposed in the generator housing 51 and partitions the generator housing 51 into a condensed water storage cavity 54 and a water ion generating cavity 55, the condensed water storage cavity 54 is communicated with the condensed water guiding cavity 33 and is used for collecting condensed water flowing into the condensed water guiding cavity 33 and storing the condensed water, an overflow hole 100 is disposed on one side of the fresh air housing 31 adjacent to the generator housing 51 and is adjacent to the third partition 8 and is used for communicating the condensed water storage cavity 54 with the water ion mixing cavity 34, a free end of the first partition a61 is vertically higher than the overflow hole 100, and the overflow hole 100 is vertically higher than the condensed water guiding hole 10. With this structure, the amount of condensed water collected by the condensed water storage chamber 54 can be maximized, and the condensed water is prevented from overflowing the first partition a61 and being discharged into the inner container 300 before the condensed water storage chamber 54 is not filled; meanwhile, when the amount of water in the condensed water storage chamber 54 is maximized, the excessive water may overflow the first partition a61 through the overflow hole 100 and be discharged into the inner cavity of the inner container 300, thereby preventing leakage.

Further, a water ion generator 52 for forming nano charged water ions and a liquid level sensing switch 53 for monitoring the water level of the generator housing 51 are provided in the generator housing 51. The water ion generator 52 comprises a water ion generator probe 521, wherein the water ion generator probe 521 is arranged in the water ion generation cavity 55, one end of the water ion generator probe 521 can extend into the water ion mixing cavity 34 and is used for exciting condensed water to form nano charged water ions, a capillary suction pipe 522, one end of the capillary suction pipe is inserted into the condensed water storage cavity 54 and is used for sucking the condensed water, the liquid level sensing switch 53 is arranged in the condensed water storage cavity 54, when the water amount in the condensed water storage cavity 54 is too low to excite the water ion generator 52, the liquid level sensing switch 53 gives out a prompt alarm, and the water ion generator 52 is turned off to avoid damage to the water ion generator 52.

Specifically, generator shell 51 includes generator backshell 511 and sets up before the generator shell 512 on the generator backshell 511, new trend shell 31 include with the new trend backshell 311 of generator backshell 511 integrative setting and with the preceding shell 312 of new trend of generator backshell 512 integrative setting, generator backshell 511 with shell 512 hot melt welding before the generator, new trend backshell 311 with shell 312 hot melt welding before the new trend. The structure is stable and the sealing performance is good.

Specifically, convulsions subassembly 1 include with condenser pipe 21 keeps away from convulsions shell 11 of new trend shell 31 one end intercommunication, be equipped with in convulsions shell 11 with the convulsions chamber of condensation chamber intercommunication, be formed with on the convulsions shell 11 with the convulsions hole 15 of convulsions chamber intercommunication, the convulsions intracavity is equipped with air exhauster 14. Wherein, the draft casing 11 is inserted on the condensation pipe 21. The structure is simple and the implementation is convenient.

Further, be equipped with in the convulsions shell 11 with convulsions chamber interval forms the adjacent and fourth baffle 30 that just feeds through convulsions air inlet chamber 12 and convulsions air outlet chamber 13 of intercommunication, be equipped with in the convulsions air outlet chamber 13 the air exhauster 14, be equipped with on the convulsions shell 11 with convulsions air inlet chamber 12 intercommunication ventilation hole 15, the damp and hot air in inner bag 300 passes through hole 15 flows through in proper order convulsions air inlet chamber 12 behind the convulsions air outlet chamber 13 flow in the condensation chamber. The structure is compact and reasonable.

Specifically, the air draft outer shell 11 comprises an air draft rear shell 111 and an air draft front shell 112 which is arranged on the air draft rear shell 111 and forms the air draft cavity with the air draft rear shell 111, the air draft front shell 112 comprises an air draft front shell a113 which forms the air draft air inlet cavity 12 with the air draft rear shell 111 and an air draft front shell B114 which forms the air draft air outlet cavity 13 with the air draft rear shell 111, the air draft front shell a113 and the air draft rear shell 111 are welded in a hot melting mode, and the connecting structure is simple and stable; casing B114 before the convulsions with the buckle is connected between the convulsions backshell 111, specifically, be equipped with on the convulsions backshell 111 a plurality of protruding in the bellying 600 of convulsions backshell 111 outer wall, be equipped with before the convulsions on casing B114 with bellying 600 buckle complex clamping part 700, this dismouting structure is favorable to the change and the maintenance of air exhauster 14.

Furthermore, a plurality of air exhaust positioning columns 400 are arranged in the air exhaust outlet cavity 13 and extend towards the direction close to the air exhaust front shell B114 on the air exhaust rear shell 111, and air exhaust positioning holes 500 for inserting the air exhaust positioning columns 400 are formed in the air exhaust fan 14. A plurality of convulsions reference column 400 is followed the week side direction interval distribution of convulsions air outlet cavity 13. This configuration facilitates the securement of the suction fan 14.

Further, threaded connection has on the hole 15 of induced drafting is used for making induced drafting subassembly 1 fixes fan fastener 200 on the inner bag 300, be equipped with the ventilation hole on fan fastener 200, fan fastener 200 with be equipped with sealing washer 60 between the convulsions backshell 111. This structure improves air tightness and prevents the leakage of hot and humid air when the hot and humid air in the inner container 300 is extracted. Specifically, the blower fastener 200 is a blower nut.

Furthermore, the condensation pipe 21 is arranged across the outer wall of the inner container 300, and the air draft assembly 1 and the fresh air assembly 3 are arranged on two opposite sides of the inner container 300, so that the structure can prolong the flow stroke of air in the condensation pipe 21, and the air is more fully condensed; the fresh air outlet hole 7 and the air exhaust hole 15 are arranged from bottom to top in the vertical direction to form a height difference, and the structure is favorable for guiding condensed water formed in the condensation cavity into the condensed water storage cavity 54.

Furthermore, the fresh air outlet 7 is in threaded connection with the fan fastening piece 200 for fixing the fresh air component 3 on the inner container 300. The sealing ring 60 is arranged between the fan fastening piece 200 and the fresh air rear shell 311. This structure has improved the gas tightness, prevents that the dry air that forms after the condensation from revealing outward, influences drying and/or disinfection and sterilization effect.

Specifically, the air intake assembly 4 comprises an air intake base 41 communicated with the condensation pipe 21, and an air intake machine 42 is separably connected to the air intake base 41. The air intake component 4 can be arranged at the top or one side of the inner container 300. Specifically, the air inlet base 41 is inserted into the condensation pipe 21, the air inlet base 41 is matched with the air inlet machine 42 in shape, a through hole is formed in the air inlet base 41, the air inlet machine 42 penetrates through the through hole and is installed in the air inlet base 41, a plurality of buckles 80 enabling the air inlet machine 42 to be fixedly installed in the air inlet base 41 are arranged on the edge of the through hole, a plurality of air inlet fixing columns 90 extending towards the direction close to the through hole are arranged on the air inlet base 41, air inlet positioning holes 50 in inserted connection with the air inlet fixing columns 90 are formed in the air inlet machine 42, and the air inlet fixing columns 90 are distributed at intervals along the peripheral side of the air inlet base 41.

It should be understood that the terms "first", "second", etc. are used herein to describe various information, but the information should not be limited to these terms, and these terms are only used to distinguish one type of information from another. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present application. Furthermore, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (10)

1. The double-fan circulating air drying and sterilizing device for the drying equipment is characterized by comprising an air draft assembly (1) for extracting damp and hot air in an inner cavity of the drying equipment, the air draft component (1) is communicated with a condensing component (2) for condensing damp and hot air to form dry air and condensed water, one end of the condensation component (2) far away from the air draft component (1) is communicated with a fresh air component (3) used for exhausting dry air into an inner cavity of the drying equipment, the condensing component (2) is communicated with an air inlet component (4) which is used for pumping the air outside the drying equipment into the condensing component (2) to accelerate the condensation of the damp and hot air, the fresh air component (3) is communicated with a water ion generating device (5) which is used for collecting condensed water flowing into the fresh air component (3), converting the condensed water into nano charged water ions and then discharging the nano charged water ions into the fresh air component (3).

2. The double-fan circulating air drying and sterilizing device for the drying equipment according to claim 1, wherein the condensing assembly (2) comprises a condensing pipe (21) and a condensing cavity arranged in the condensing pipe (21), the fresh air assembly (3) comprises a fresh air shell (31) communicated with one end of the condensing pipe (21) and a fresh air cavity arranged in the fresh air shell (31) and communicated with the condensing cavity, a plurality of fresh air supply cavities (32) for partitioning the fresh air cavity into a fresh air supply cavity, a condensed water diversion cavity (33) and a water ion mixing cavity (34) which are communicated with each other are arranged in the fresh air shell (31), a fresh air outlet hole (7) communicated with the fresh air supply cavity (32) is formed in the fresh air shell (31), the condensed water diversion cavity (33) is communicated with the condensing cavity and used for diverting the flow to the water ion generating device (5), the fresh air supply cavity (32) is used for discharging dry air or dry air mixed with nano charged water ions into the inner cavity of the drying equipment through the fresh air outlet hole (7).

3. The double-fan circulating air drying and sterilizing device for the drying equipment according to claim 2, characterized in that the water ion generating device (5) comprises a generator housing (51) arranged on the fresh air housing (31) and a water ion generator (52) arranged in the generator housing (51) for forming nano-charged water ions.

4. The drying and sterilizing apparatus of claim 3, it is characterized in that a third clapboard (8) which separates the generator shell (51) into a condensed water storage cavity (54) and a water ion generation cavity (55) is arranged in the generator shell (51), the condensed water storage cavity (54) is communicated with the condensed water diversion cavity (33) and is used for collecting the condensed water flowing into the condensed water diversion cavity (33), the water ion generator (52) comprises a water ion generator probe (521) which is arranged in the water ion generating cavity (55) and one end of which can extend into the water ion mixing cavity (34) and is used for exciting condensed water to form nano charged water ions, a capillary suction pipe (522) with one end inserted into the condensed water storage cavity (54) and used for sucking condensed water is connected to the water ion generator probe (521).

5. The dual-fan circulating air drying and sterilizing device for the drying apparatus of claim 4, wherein the plurality of partition plates (6) includes a first partition plate A (61) and a first partition plate B (62), the first partition plate A (61) is disposed between the fresh air blowing chamber (32) and the condensed water guide chamber (33), the first partition plate B (62) is disposed between the condensed water guide chamber (33) and the water ion mixing chamber (34), and the first partition plate A (61) and the first partition plate B (62) form a condensed water guide hole (10) communicating the water ion mixing chamber (34) and the condensed water guide chamber (33); the fresh air shell (31) and one side of the generator shell (51) which are adjacent to each other are provided with overflow holes (100) which are adjacent to the third partition plate (8) and used for communicating the condensed water storage cavity (54) with the water ion mixing cavity (34), and the free end of the first partition plate A (61) is higher than the overflow holes (100) in the vertical direction.

6. The double-fan circulating air drying and sterilizing device for the drying apparatus according to claim 2, it is characterized in that the air draft component (1) comprises an air draft shell (11) which is communicated with one end of the condensing pipe (21) far away from the fresh air shell (31), an air draft cavity communicated with the condensation cavity is arranged in the air draft shell (11), a fourth clapboard (30) which separates the air draft cavity into an air draft air inlet cavity (12) and an air draft air outlet cavity (13) which are adjacent and communicated is arranged in the air draft shell (11), be equipped with air exhauster (14) in convulsions air outlet chamber (13), be formed with on convulsions shell (11) with convulsions air inlet chamber (12) intercommunication suction hole (15), the damp and hot air of drying equipment inner chamber passes through suction hole (15) flow through in proper order convulsions air inlet chamber (12) the convulsions flow into behind the air outlet chamber (13) the condensation chamber.

7. The double-fan circulating air drying and sterilizing device for the drying equipment as claimed in claim 6, wherein the condensation pipe (21) is arranged across the outer wall of the inner container of the drying equipment, the air draft assembly (1) and the fresh air assembly (3) are arranged on two opposite sides of the inner container of the drying equipment, and the fresh air outlet hole (7) and the air draft hole (15) are arranged from bottom to top in the vertical direction to form a height difference.

8. The double-fan circulating air drying and sterilizing device for the drying equipment as claimed in claim 6, wherein the air exhaust holes (15) and the fresh air outlet holes (7) are provided with fan fasteners (200) for fixing the air exhaust assembly (1) and the fresh air assembly (3) on the inner container of the drying equipment.

9. The drying and sterilizing device of double-fan circulating air for drying equipment according to claim 2, characterized in that the air intake assembly (4) comprises an air intake base (41) communicated with the condensation pipe (21), and an air intake machine (42) is separably connected to the air intake base (41).

10. Dishwasher, characterized in that it comprises a double fan circulating air drying and disinfecting device for a drying appliance according to any of claims 1 to 9.

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