CN208755936U - Cleaning device - Google Patents

Abstract

The utility model discloses a kind of cleaning device, which includes: cabinet body；First groove body, first groove body are embedded at the cabinet body, and the side wall of first groove body offers air inlet；Air intake assembly, the air intake assembly has the first air duct, first air duct is connected to the air inlet, the air intake assembly is included in the blower set gradually in the first air duct, heating member and degerming part, blower drives outside air to enter in the first air duct, is successively entered in first groove body after heated part and degerming part by air inlet.Cleaning device in technical solutions of the utility model can carry out drying and sterilizing and disinfection to tableware, and the clean level of tableware is made to be further enhanced.

Description

Cleaning device

Technical field

The utility model relates to kitchen appliance technical field, in particular to a kind of cleaning device.

Background technique

Cleaning device usually not heated-air drying function in existing kitchen appliance for washing the dishes, only by using hot water wash Tableware is dried in residual temperature after washing, not only low efficiency, and drying is not thorough, and is easy that the tableware after washing is made bacterium occur It breeds.

Utility model content

The main purpose of the utility model is to provide a kind of cleaning device, it is intended to so that the cleaning device is in the first groove body Tableware is dry and bacteria-eliminating efficacy is more preferable.

To achieve the above object, the utility model proposes cleaning device,

Cabinet body；

First groove body, first groove body are embedded at the cabinet body, and the side wall of first groove body offers air inlet；With And

Air intake assembly, the air intake assembly have the first air duct, and first air duct is connected to the air inlet, the air inlet Component is included in the blower set gradually in the first air duct, heating member and degerming part, and blower drives outside air to enter the first wind In road, successively entered in first groove body after heated part and degerming part by air inlet.

Optionally, the degerming part includes the pedestal being placed in the first air duct, and the pedestal is coated with photocatalyst, described Pedestal blocks first air duct, and passes through for air；The degerming part further includes the touching being placed in first air duct Light emitting source, the triggering light source are irradiated in the pedestal between the pedestal and heating member, trigger the photocatalyst pair Air carries out sterilization processing.

Optionally, the pedestal is in the tilted setting in the first air duct.

Optionally, the pedestal has the multiple through-holes be connected along airflow direction.

Optionally, the pedestal has the grid be connected along airflow direction.

Optionally, the triggering light source is UVA-LED lamp.

Optionally, the irradiating angle of the triggering light source is 135 °~145 °, and the pedestal is in light source irradiation model In enclosing.

Optionally, first air duct includes the first wind inlet section and the second wind inlet section being connected, first wind inlet section It is arranged with the extending direction of the second wind inlet section in angle, the blower and heating member are respectively positioned on first wind inlet section, the base Seat is located at second wind inlet section, and closes on the crossover position of the first wind inlet section and the second wind inlet section.

Optionally, the side wall of the rinse bath offers air outlet, and the cleaning device further includes air-out component, it is described go out Wind component has the second air duct, and second air duct is connected to the air outlet.

Optionally, the cleaning device further includes the second groove body, and the side wall of second groove body offers flow-guiding mouth, described Second air duct is connected to the air outlet and flow-guiding mouth, and the intracorporal air of the first slot is entered in the second air duct by air outlet, warp It is flowed out after air-out component is cooling by flow-guiding mouth and/or air outlet.

Optionally, the air-out component is also provided with the first overflow port, and first overflow port is located at the flow-guiding mouth The lower section of lengthwise position.

Optionally, the air intake assembly is also provided with the second overflow port, and second overflow port is located at the degerming part Downstream, and second overflow port is higher than the intracorporal peak level of the first slot in longitudinal height.

The cleaning device of technical solutions of the utility model includes air intake assembly, and outside air is pumped by the blower of air intake assembly In first air duct, it is thermally formed the higher hot-air of temperature by heating member, the hot-air is further across degerming part, by removing Bacterium part carries out sterilizing processing, so that being entered by air inlet, the intracorporal air of the first slot is nontoxic and free from extraneous odour, carries out to tableware Drying and processing makes the clean level of tableware be further enhanced.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the partial structure diagram of one embodiment of the utility model cleaning device；

Fig. 2 is the structural schematic diagram at another visual angle of cleaning device in Fig. 1；

Fig. 3 is the explosive view of air-out component in Fig. 2；

Fig. 4 is the structural schematic diagram of air intake assembly in Fig. 1；

Fig. 5 is the schematic diagram in Fig. 4 in air intake assembly under one state of anti-return part；

Fig. 6 is the schematic diagram in Fig. 5 in air intake assembly under another state of anti-return part.

Drawing reference numeral explanation:

Label	Title	Label	Title
				100	Cleaning device	514	Second wind inlet section
10	First groove body	52	Blower
				11	The first side wall	53	Heating member
111	Air inlet	54	Anti-return part
				13	Second sidewall	55	Degerming part
131	Air outlet	551	Pedestal
				30	Second groove body	553	Trigger light source
31	Third side wall	56	Second overflow port
				33	4th side wall	70	Air-out component
331	Flow-guiding mouth	71	Main part
				40	Bottom cover	711	Shell
50	Air intake assembly	713	Inner casing
				51	Shell	717	First through hole
511	Backstop frame	718	Second through-hole
				5111	Cross port	73	First connector
512	Pedestal slot	75	Second connector
				513	Light source slot	77	First overflow port
514	First wind inlet section

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and cannot understand For its relative importance of indication or suggestion or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not in the requires of the utility model Protection scope within.

Referring to figs. 1 to Fig. 6, the utility model proposes a kind of cleaning devices 100.

In the utility model embodiment, which includes:

Cabinet body；

First groove body 10, the first groove body 10 are embedded at cabinet body, and the side wall of the first groove body 10 offers air inlet 111 and outlet air Mouth 131,131`；

Air intake assembly 50, air intake assembly 50 have the first air duct, and the first air duct is connected to air inlet 111, and air intake assembly 50 is wrapped It includes in the blower 52, heating member 53 and degerming part 55 that are set gradually in the first air duct, blower 52 drives outside air to enter first In air duct, successively entered in the first groove body 10 after heated part 53 and degerming part 55 by air inlet 111.

In technical solutions of the utility model, which is water tank type dish-washing machine, and the first groove body 10 is dish-washing machine Scullery basin, and the upper surface of cabinet body offers first notch corresponding with the opening of the first groove body 10.On first groove body 10 also Equipped with cover plate assembly, cover plate assembly can activity open or block the opening of the first groove body 10, during preventing dishwasher into operation Water flow splashes out；Or cover plate assembly is connected to cabinet body, and the first notch is opened or blocked in activity, the structure can reach with it is above-mentioned close As using effect.

Outside air is pumped into the first air duct by the blower 52 of air intake assembly 50, is thermally formed temperature by heating member 53 Higher hot-air, the hot-air carry out sterilizing processing, the degerming part 55 further across degerming part 55, by degerming part 55 It is clean, nontoxic and free from extraneous odour high temperature air by the air cleaning for entering the first groove body 10, and enters first by air inlet 111 In groove body 10, drying and sterilizing and disinfection can be carried out to tableware, the clean level of tableware is made to be further enhanced.

Heating member 53 is instant heating type heating member 53 in technical solutions of the utility model, so that being driven into first by blower 52 Air in air duct can rapidly rise to assigned temperature by the heating temperature of heating member 53, to the meal in the first groove body 10 Tool achievees the effect that good sterilizing and drying.Preferably, which is PTC (Positive Temperature Coefficient, positive temperature coefficient) thermistor, heating efficiency is high, temperature rise effect is good.It is to be appreciated that The heating member 53 can also be other instant heating type heating members 53, such as heating wire etc..

In conjunction with Fig. 5 and Fig. 6, in an embodiment of the present invention, degerming part 55 includes the pedestal being placed in the first air duct 551, pedestal 551 is coated with photocatalyst, and pedestal 551 blocks the first air duct, and passes through for air；Degerming part 55 further includes accommodating In the triggering light source 553 in the first air duct, light source 553 is triggered between pedestal 551 and heating member 53, and is irradiated in pedestal 551, triggering photocatalyst carries out sterilization and purified treatment to air.

In the embodiment, degerming part 55 is the pedestal 551 for being coated with photocatalyst, and the photocatalyst on pedestal 551 is in triggering light Can effectively degrade poisonous and hazardous gas in air under the action of the light that source 553 issues, and can kill various bacteria, can general Toxin at bacterium or fungi release decomposes and harmless treatment, while being also equipped with except formaldehyde, anti-pollution and the function of purifying air. Air after the heating of heating member 53 all passes through pedestal 551, and nontoxic, harmless and nothing is formed under the catharsis of photocatalyst The hot-air of peculiar smell is simultaneously passed through in the first groove body 10.

It triggers light source 553 and is irradiated in pedestal 551 towards the side of heating member 53 in pedestal 551, so that by heating member 53 Air gradually sterilized and purified during close to pedestal 551, bacteria-eliminating efficacy is more thorough.

Pedestal 551 is in the tilted setting in the first air duct in an embodiment of the present invention.

Air increases by the surface area being in contact during the pedestal 551 with pedestal 551, thus more fully to air In poisonous and harmful substance degrade, adequately to air carry out purified treatment.

It is to be appreciated that the pedestal 551 can also be in not being obliquely installed in the first air duct, i.e. pedestal 551 vertical first The inner sidewall in air duct is installed, and air passes perpendicularly through the surface of the pedestal 551, the program after the heating of heating member 53 It is within the protection scope of the present utility model, it is preferably pedestal 551 in the present embodiment in the tilted setting in the first air duct.

In an embodiment of the present invention, pedestal 551 has the multiple through-holes be connected along airflow direction.The setting of the through-hole Can be passed through for air, and the through-hole on pedestal 551 interval, close-packed arrays so that the process that air is passed through through pedestal 551 is put It is slow, so as to adequately carry out degerming and purification to air.

It is to be appreciated that pedestal 551 can also be arranged in addition to that the through-hole passed through for air can be arranged in pedestal 551 It is other engraved structures to achieve the purpose that through air-flow, in an embodiment, pedestal 551 has the grid be connected along airflow direction Structure, setting which is lateral grid and longitudinal grid intersects, to achieve the purpose that penetrate air-flow.

In an embodiment of the present invention, triggering light source 553 is UVA-LED lamp.UVA wave band is that ultraviolet wavelength divides A part, wavelength are 320~420nm, also known as Bosnia-Herzegovena spot effect ultraviolet light.

Photocatalyst is a kind of using Nano titanium dioxide as the total of the photosemiconductor material with photo-catalysis function of representative Claim, under the action of ultraviolet light, generates strong catalytic degradation function, toxic and harmful gas in the air that can effectively degrade.

Also there is light source slot 513, the corresponding light source that is plugged in of light source circuit board for being equipped with UVA-LED lamp is inserted in shell 51 In slot 513, the installation to the triggering light source 553 is completed.The plate face of light source circuit board is parallel with the upper surface of pedestal 551, so that Triggering light source 553 can be irradiated perpendicular to pedestal 551.

Further, the irradiating angle of the triggering light source 553 is 135 °~145 °, preferably triggers the irradiation of light source 553 Angle is 140 °, and pedestal 551 is in light source range of exposures.The triggering light source 553 is UVA-LED lamp, in the irradiating angle model Bacteria-eliminating efficacy can effectively be played by enclosing interior photocatalyst, can reach 99% to by the air disinfection rate of pedestal 551, and can be to prevent Corruption eliminates the unusual smell, and anti-corrosion grade reaches level-one.

In the utility model embodiment, first triggering light source 553 can be installed in shell 51, and adjust triggering light source 553 irradiating angle is 140 °, and the pedestal 551 for being then coated with photocatalyst is installed in the range of exposures, so that base Seat 551 is integrally located in the range of exposures of triggering light source 553, and is installed as close as possible to triggering light source 553, so that intensity of illumination reaches To maximum.

With further reference to Fig. 5, in an embodiment of the present invention, the first air duct includes the first wind inlet section 514 being connected With the second wind inlet section 515, the extending direction of the first wind inlet section 514 and the second wind inlet section 515 is arranged in angle, blower 52 and heating Part 53 is respectively positioned on the first wind inlet section 514, and pedestal 551 is located at the second wind inlet section 515, and close on the first wind inlet section 514 and second into The crossover position of wind section 515.

Blower 52 is located at the end far from the second wind inlet section 515 of the first wind inlet section 514, and air is pumped into first by blower 52 Wind inlet section 514, and heated part 53 is heated under the guiding of the first wind inlet section 514, the air after heating is through the first air inlet The crossover position of section 514 and the second wind inlet section 515 enters the second wind inlet section 515, and passes through pedestal 551, obtains degerming and purification. Since the extending direction of the first wind inlet section 514 and the second wind inlet section 515 is arranged in angle, air is passing through first wind inlet section 514 with the junction of the second wind inlet section 515 when need to turn to, energy loss certainly will be had, so that flow velocity slows down, flow velocity is relatively slow Air can fully obtain purification during passing through pedestal 551, flow into the air cleaning degree in the first groove body 10 It is higher.

Air intake assembly 50 includes shell 51, and shell 51 has horizontally extending the first extended segment (not indicating) and edge One end of the second extended segment (not indicating) that vertical direction extends, first extended segment and the second extended segment is connected smoothly, The first wind inlet section 514 is formed in first extended segment, forms the second wind inlet section 515 in the second extended segment.Blower 52 is located at first and prolongs The one end of section far from the second extended segment is stretched, air is pumped into the first wind inlet section 514, heated part 53 by blower 52.After degerming part 55 The air inlet 111 of the first groove body 10 is connected to far from the end of the first wind inlet section 514 by the second wind inlet section 515.Pedestal 551 is specific The two sidewalls of the two sidewalls and the second extended segment that are oppositely arranged in rectangular parallelepiped structure, the pedestal 551 are perpendicular, and base is oppositely arranged Another two sidewalls and the second extended segment another two sidewalls be in angle so that pedestal 551 is set in inclined in the second wind inlet section 515 It sets, to increase the contact area with air.

There are two pedestal slots 512 being oppositely arranged in shell 51, the correspondence of pedestal 551 is plugged in two pedestal slots 512 In, the installation to pedestal 551 is completed, it is easy to operate, quick.

In an embodiment of the present invention, air intake assembly 50 further includes the anti-return part 54 in the first air duct, is prevented back Stream part 54 is located at heating member 53 between degerming part 55, and along heating member 53 to 55 direction one-way conduction of degerming part.

During air intake assembly 50 is entered the wind, extraneous normal temperature air is pumped into the first air duct by blower 52, and by heating member 53 Heating, is then sterilized and is purified by degerming part 55, be conducted in the first groove body 10 through air inlet 111, to the first groove body 10 Interior tableware is dried.And the air in the first air duct is unable to reverse flow under the backstop of anti-return part 54, thus It prevents hot air reflow to heating member 53, heating member 53 is protected.

In an embodiment of the present invention, anti-return part 54 is rotationally connected with the inner sidewall of shell 51, and in gravity The first air duct of lower closure, or along heating member 53 to 111 the first air duct of direction one-way conduction of air inlet under the action of air-flow.

For the anti-return part 54 by the rotation connection with shell 51, the driving force that can efficiently use air-flow opens the first wind Road, and the first air duct is blocked by the gravity of itself, structure is simple, and anti-return effect is good.

Referring to Fig. 5, in an embodiment of the present invention, shell 51 is in being formed with backstop frame 511, backstop frame in the first air duct 511 are circumferentially sealed in shell 51, and are formed with port 5111, anti-return part 54 be rotationally connected with backstop frame 511 away from plus The side of warmware 53, and port 5111 was blocked under the effect of gravity, or the side of heating member 53 is faced away under airflow function Port 5111 is crossed to rotation to open this.

The backstop frame 511 limits the port excessively that the air-flow in the first air duct is only capable of being enclosed by the backstop frame 511 Pass through in 5111, and anti-return part 54 can correspond to unlatching or block this and cross port 5111, and anti-return part 54 is preferably prevented Only the air return in the first air duct is to heating member 53.

In an embodiment of the present invention, anti-return part 54 includes the two sidewalls being oppositely arranged and is connected between two sidewalls Baffle, baffle, which encloses two sidewalls and formed, holds air drain, and one end of baffle or two sidewalls is rotationally connected with backstop frame 511, baffle and Two sidewalls abut backstop frame 511 in edge activity.

The baffle and two sidewalls are enclosed appearance air drain, empty when air is flowed by heating member 53 to 111 direction of air inlet Gas can be assembled and hold in air drain so that airflow function is more concentrated in the strength of the anti-return part 54, be easy to along heating member 53 to Open the anti-return part 54 in 111 direction of air inlet.

Further, which is gradually increased by one end to another extreme direction volume being rotatablely connected, and holds air drain volume The air-flow of bigger place aggregation is more, and airflow function is bigger in the active force for holding air drain inner wall, according to lever principle, air gas The active force that stream acts on end of the anti-return part 54 far from rotation connection is big, more easily adds anti-return part 54 along separate 53 direction of warmware rotation, to open port 5111, consequently facilitating air intake assembly introduces heated air into the first groove body 10.

Further, backstop frame is located in the first wind inlet section 514, and is inclined to set with air-flow direction, so that Crossing port area can increase as far as possible, and air can sufficiently act on baffle when flowing through the backstop frame, enable air inlet air-flow smooth Baffle is opened, air is conducted to degerming part 55 by heating member 53.

Combined with Figure 1 and Figure 2, in an embodiment of the present invention, the side wall of rinse bath offers air outlet 131, cleaning dress Setting 100 further includes air-out component 70, and air-out component 70 has the second air duct, and the second air duct is connected to the air outlet 131.

Air in first groove body 10 is entered in the second air duct by air outlet 131, is flowed out after air-out component 70 is cooling, from And the air in the first groove body 10 can be made to be circulated, guarantee it is continual be passed through cleaning to the first groove body 10, and will set The air to swap out is discharged by air-out component 70, to guarantee that the air in the first groove body 10 is always clean air.

Further, in a preferred embodiment, air outlet 131 is higher than air inlet 111 on longitudinal direction in longitudinal height Height the hot-air in rinse bath is entered by air inlet 111 since hot-air has the characteristic that flows up, can be abundant Original air in rinse bath is displaced, then is discharged through air outlet 131, to be come into full contact with to the tableware in rinse bath, is reached The effect that tableware is sufficiently dried.

In an embodiment of the present invention, cleaning device 100 further includes the second groove body 30, and the side wall of the second groove body 30 opens up Have a flow-guiding mouth 331, the second air duct is connected to air outlet 131 and flow-guiding mouth 331, the air in the first groove body 10 by air outlet 131 into Enter in the second air duct, is flowed out after air-out component 70 is cooling by flow-guiding mouth 331 and/or air outlet 131.

Hot-air in first groove body 10 is directed to the movement of air-flow by air intake assembly 50, enters the by air outlet 131 In two air ducts, and carrying out being cooled into condensed water in the second air duct, condensed water is exported by flow-guiding mouth 331 to the second groove body 30, Or be back in the first groove body 10, it is lauched so as to be expelled to using the drainage system of the second groove body 30 or the first groove body 10 itself In road, the structure of the first groove body 10 and the second groove body 30 itself is made full use of, no setting is required other discharge structures.Further, When condensed water is exported by flow-guiding mouth 331 into the second groove body 30, user can be by selectivity by the draining in the second groove body 30 Structure is blocked, which is recycled, the wasting of resources is avoided.

In the utility model embodiment, the first groove body 10 and the second groove body 30 are square groove, and the first groove body 10 includes phase To the first side wall 11 and second sidewall 13 of setting, air inlet 111 is opened in the first side wall 11, air outlet be opened in this second Side wall 13, the preferred the first side wall 11 and second sidewall 13 are respectively the front side wall and side wall of the first groove body, that is, first side Wall 11 and second sidewall 13 are the side wall of non-adjacent second groove body.Second groove body 30 includes 31 He of third side wall being oppositely arranged 4th side wall 33, flow-guiding mouth 331 are opened in the 4th side wall 33, it is preferable that the third side wall 31 and the 4th side wall 33 are respectively the The direction of the second sidewall 13 of the front side wall and side wall of two groove bodies, the 4th side wall 33 and the first groove body 10 is consistent.The above structure It can not only be convenient for the installation of air intake assembly 50 and air-out component 70, and installation space can be made full use of, so that 100 knot of cleaning device Structure is compact.It is to be appreciated that the shape of the first groove body and the second groove body can also be according to other in the utility model other embodiments Need to be designed as the structures such as arc or polygon, in scope of protection of the utility model.

Further combined with Fig. 1 and Fig. 2, in an embodiment of the present invention, flow-guiding mouth 331 is higher than in longitudinal height Air port 131 is in longitudinal height.

Since the characteristic of hot-air upper lower position can be moved to higher position along longitudinal direction, can in the second air duct by Air outlet 131 is moved towards 331 direction of flow-guiding mouth, and hot-air can be contacted sufficiently with the inner sidewall in the second air duct, and moved In the process since the effect of energy scattered and disappeared with heat exchange forms condensed water, and the characteristic of condensed water can go up high and low position along longitudinal direction It is moved to lower position, therefore, condensed water can be flowed out by the lower air outlet 131 in position.The structure enable hot-air in It is effectively condensed in second air duct, and condenses water energy and be back in the first groove body 10, directly using in the first groove body 10 Drainage system discharge, without adding other discharge structures.

In the utility model embodiment, air-out component 70 is also provided with the first overflow port 77, and the first overflow port 77, which is located at, leads The lower section of the lengthwise position of head piece 331.

When water level is excessively high in the second groove body 30, the water in the second groove body 30 can flow into air-out component 70 by flow-guiding mouth 331, And exported by the first overflow port 77, so that the water in the second groove body 30 will not flow out to kitchen, so that kitchen be made to keep clean.

Since the second groove body 30 in the cleaning device 100 is common sink structure, and common sink structure, side Overflow port would generally be arranged in wall, to prevent water tank liquid excessive in the case where can by sink opening overflow, environment is made At pollution or indoor environment is impacted, the flow-guiding mouth 331 in this programme is the overflow port of sink, and the utility model utilizes The overflow port of sink is connected to air-out component 70, so that condensed water can be expelled to the second groove body 30 by the flow-guiding mouth 331, abundant benefit With the structure of common water channel itself, the production and installation of cleaning device 100 are simplified, saves cost.

When liquid is more in the second groove body 30, liquid can be entered in air-out component 70 by flow-guiding mouth 331, and can be along first Overflow port 77 is discharged.Since the first overflow port 77 is located at the lower section of the lengthwise position of flow-guiding mouth 331, entered by flow-guiding mouth 331 Liquid will not be directly discharged by the first overflow port 77 along the guiding movement in the second air duct, therefore will not be to the first groove body 10 work impacts.

In conjunction with Fig. 2 and Fig. 3, in an embodiment of the present invention, air-out component 70 includes main part 71, and main part 71 opens up Have connection the second air duct first through hole 717 and the second through-hole 718, first through hole 717 be connected to air outlet 131, main part 71 in The outside of first through hole 717 is connected to the lateral wall of the first groove body 10；Second through-hole 718 be connected to flow-guiding mouth 331, main part 71 in The outside of second through-hole 718 is connected to the lateral wall of the second groove body 30；

Air-out component 70 further includes the first connector 73 in the first groove body 10 and the in the second groove body 30 Two connectors 75,73 part of the first connector are connected to the inner sidewall of the first groove body 10, partially pass through the side wall of the first groove body 10 Connect main part 71；Second connector, 75 part is connected to the inner sidewall of the second groove body 30, partially passes through the side of the second groove body 30 Wall connects main part 71.

By on main part 71 first through hole 717 and the second through-hole 718 it is opposite with air outlet 131 and flow-guiding mouth 331 respectively It answers, the first connector 73 and the second connector 75 is then connected to main part 71 from the inside to the outside, easy to operate, installation is fastly It is prompt.

Preferably, the first connector 73 and the second connector 75 are threadedly connected to main part 71 respectively.As shown in figure 3, the A connection piece 73 and the second connector 75 are disk-like structure.It is illustrated with the first connector 73, first connector 73 Edge is connected to the inner sidewall of the first groove body 10, and partially passes through air outlet 131, is threadedly connected to main part 71, the first connection Part 73 is also provided with the through-hole of 10 inside and air outlet 131 of the first groove body of connection, can be smoothly by the air in the first groove body 10 It is conducted in the second air duct.Further, the first connector 73 has 10 inside of the first groove body of multiple connections and air outlet 131 Through-hole, so that the clear size of opening is smaller, to prevent the biggish object of fortuitous event lower volume from entering the second air duct with air-flow with right Air exhausting structure damages.Second connector 75 is similar with the structure of the first connector 73, and can reach approximate using effect, This is no longer going to repeat them.

Referring to Fig. 3, in an embodiment of the present invention, main part 71 includes inner casing 713 and shell 711, and inner casing 713 is removable Ground connected with outer casing 711 is unloaded to form the second air duct, first through hole 717 and the second through-hole 718 are opened in the inner casing 713, interior Shell 713 is connected to the lateral wall of the first groove body 10 in the edge of first through hole 717, and supports in the edge of the second through-hole 718 It is connected to the lateral wall of the second groove body 30；

First connector, 73 part connects main part 71 through air outlet 131；Second connector, 75 part connects through flow-guiding mouth 331 Connect main part 71.

The shell 711 and inner casing 713 can be to snap connection, or further locked by screw, and user can be square Just dismounting inner casing 713 and shell 711, to clear up air-out component 70, guarantee 70 use process of air-out component safety, Reliably.

First connector 73 and the second connector 75 are utilized respectively air outlet 131 and flow-guiding mouth 331 connects main part 71, nothing Additional connecting hole need to be opened up on the first groove body 10 and the second groove body 30, save procedure of processing, and easy to operate.

Further, blower 52 can also be set in the second air duct of the air-out component 70, which can be by rinse bath Interior air is drawn to the second air duct, to accelerate the flow rate of air in rinse bath.It is excellent in technical solutions of the utility model Be selected as being not provided with blower 52 in the second air duct of air-out component 70, enable hot-air in rinse bath sufficiently with meal to be dried Tool is in contact, and plays the role of abundant drying and sterilizing and disinfection.

In an embodiment of the present invention, air intake assembly 50 is also provided with the second overflow port 56, and the second overflow port 56 is located at The downstream of degerming part 55, and the second overflow port 56 is higher than the peak level in the first groove body 10 in longitudinal height.

Once the liquid in the first groove body 10 enters inside the first air duct through air inlet 111, under the guiding in the first air duct, Liquid can first pass through the outflow of the second overflow port 56, without further flowing to heating member 53, to damage to heating member 53. Since the height of the second overflow port 56 is higher than the peak level in the first groove body 10, according to the principle of linker, as long as the first slot Liquid in body 10 is not higher than the peak level, would not cross second overflow port 56 into the liquid in the first air duct, from And the heating member 53 in the first air duct can be protected.

Further, the lower section of the first groove body 10 is also connected with bottom cover 40, and second overflow port 56 is connected to the bottom The side wall of cover 40, bottom cover 40 offers an at least water hole, if the liquid in the first groove body 10 flows into the through air inlet 111 It in one air duct, then can be directed by the second overflow port 56 in bottom cover 40, and further be flowed out by the water hole opened up on bottom cover 40. In one embodiment, the second overflow port 56 can be directly connected to sewer, if the liquid in the first groove body 10 is through air inlet 111 It is flowed out with the second overflow port 56, is then directly discharged to sewer, avoids the damage of heating member 53.An embodiment of the present invention In, it is preferable that second overflow port 56 is connected to bottom cover 40, liquid when can prevent sewer blockage in the first groove body 10 It can not be flowed out from the second overflow port 56, so that the damage that adverse current causes heating member 53 occur.

Further, the bottom of bottom cover 40 is equipped with relief cock, and the water level in the first groove body 10 is higher than peak level The case where make, liquid enters bottom cover 40 through the second overflow port 56, and liquid triggering relief cock is opened to triggering alarm Device starting, sounds an alarm to prompt user.

The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model, It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes It changes, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (12)

1. a kind of cleaning device characterized by comprising

Cabinet body；

First groove body, first groove body are embedded at the cabinet body, and the side wall of first groove body offers air inlet；And

Air intake assembly, the air intake assembly have the first air duct, and first air duct is connected to the air inlet, the air intake assembly It is included in the blower set gradually in the first air duct, heating member and degerming part, blower drives outside air to enter in the first air duct, Successively entered in first groove body after heated part and degerming part by air inlet.

2. cleaning device as described in claim 1, which is characterized in that the degerming part includes the base being placed in the first air duct Seat, the pedestal are coated with photocatalyst, and the pedestal blocks first air duct, and passes through for air；

The degerming part further includes the triggering light source being placed in first air duct, the triggering light source be located at the pedestal with Between heating member, and it is irradiated in the pedestal, triggers the photocatalyst and sterilization processing is carried out to air.

3. cleaning device as claimed in claim 2, which is characterized in that the pedestal is in the tilted setting in the first air duct.

4. cleaning device as claimed in claim 2, which is characterized in that the pedestal is multiple logical with being connected along airflow direction Hole.

5. cleaning device as claimed in claim 2, which is characterized in that the pedestal has the grid be connected along airflow direction.

6. cleaning device the invention according to any one of claims 2 to 5, which is characterized in that the triggering light source is UVA-LED Lamp.

7. cleaning device the invention according to any one of claims 2 to 5, which is characterized in that the irradiating angle of the triggering light source It is 135 °~145 °, the pedestal is in the light source range of exposures.

8. cleaning device the invention according to any one of claims 2 to 5, which is characterized in that first air duct includes being connected The first wind inlet section and the second wind inlet section, the extending direction of first wind inlet section and the second wind inlet section is arranged in angle, described Blower and heating member are respectively positioned on first wind inlet section, and the pedestal is located at second wind inlet section, and closes on the first wind inlet section With the crossover position of the second wind inlet section.

9. cleaning device as described in claim 1, which is characterized in that the side wall of first groove body offers air outlet, institute Stating cleaning device further includes air-out component, and the air-out component has the second air duct, and second air duct is connected to the air outlet.

10. cleaning device as claimed in claim 9, which is characterized in that the cleaning device further includes the second groove body, and described The side wall of two groove bodies offers flow-guiding mouth, and second air duct is connected to the air outlet and flow-guiding mouth, first slot are intracorporal Air is entered in the second air duct by air outlet, is flowed out after air-out component is cooling by flow-guiding mouth and/or air outlet.

11. cleaning device as claimed in claim 10, which is characterized in that the air-out component is also provided with the first overflow port, First overflow port is located at the lower section of the lengthwise position of the flow-guiding mouth.

12. cleaning device as described in claim 1, which is characterized in that the air intake assembly is also provided with the second overflow port, institute The downstream that the second overflow port is located at the degerming part is stated, and second overflow port is higher than first slot in longitudinal height Intracorporal peak level.