CN212378130U - Cleaning system - Google Patents

Abstract

The utility model provides a clean system, including air-out structure, return air structure, first fan subassembly, second fan subassembly, heat exchanger and a plurality of air current shower nozzle, the air-out structure with the return air structure sets up relatively, the structural air outlet that is formed with of air-out, the structural return air inlet that is formed with of return air, the air current shower nozzle is located air outlet department, first fan subassembly with the heat exchanger is located in the air-out structure, second fan subassembly is located in the return air structure, the air outlet with be suitable for between the return air inlet and form totally closed or semi-enclosed air current passageway. The utility model has the advantages that: can provide comfortable and convenient disinfection and sterilization experience.

Description

Cleaning system

Technical Field

The utility model relates to a dust removal degerming technical field particularly, relates to a clean system.

Background

At present, people have new knowledge on the necessity of household cleaning and sanitation, for example, due to the influence of coronavirus, the house may be contaminated with pollutants such as virus when going out, so that the infection probability is increased, or due to the fact that the house is contaminated with impurities such as dust, the indoor cleaning degree is easily affected, and the residents need to make effective protection and cleaning when going out and going home, but for the household, the cleaning and disinfection measures are limited, and generally, only operations such as alcohol spraying, hand washing and the like can be adopted, and the clothes are difficult to replace immediately, so that the household usually lacks a comprehensive cleaning and disinfection measure.

In the related art, for example, electronic factory, pharmaceutical factory, etc. adopt equipment such as air shower, jet gas through high-speed air flow to human body surface, take away the ash layer or the virus on human body surface with this, in order to guarantee human clean degree, but these equipment are usually more complicated, and in family life, can't control blowing, so that when blowing disinfection and dust removal, can't bring better use experience for the user, for example to the winter that causes tubular virus easily, ambient temperature is usually lower, under this kind of condition, because of being difficult to control the air-out temperature, lead to user's use experience not good.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be in the family environment, how to provide comfortable convenient disinfection degerming for the user and experience.

In order to solve the problem, the utility model provides a clean system, including air-out structure, return air structure, first fan subassembly, second fan subassembly, heat exchanger and a plurality of air flow nozzle, the air-out structure with the return air structure sets up relatively, the air-out is structural to be formed with the air outlet, the structural return air inlet that is formed with of return air, the air flow nozzle is located air outlet department, first fan subassembly with the heat exchanger is located in the air-out structure, second fan subassembly is located in the return air structure, the air outlet with be suitable for between the return air inlet and form totally closed or semi-enclosed airflow channel.

In the technical scheme, when a user uses the cleaning system, the cleaning system can be positioned in a fully-sealed or semi-sealed airflow channel, so that an airflow nozzle at an air outlet can spray high-speed clean airflow, the high-speed airflow can act on the user in the airflow channel to blow off dust, harmful bacteria or viruses on the surface of the user, and after the user is cleaned, disinfected and dedusted, the air is recovered through a return air inlet by a second fan component, a heat exchanger is arranged in an air outlet structure and can exchange heat with the air in the air outlet structure based on a refrigerant to generate hot air or cold air, the air is exhausted based on the first fan component and the air outlet, so that the temperature of the air between the air outlet and the return air inlet can be adjusted, the heat exchanger can regulate and control the air, for example, provide hot air, thereby increasing the temperature to avoid the air outlet, disinfected and dedusted, the comfort level is reduced due to the direct blowing of the cold air.

Further, the power of the second fan assembly is greater than the power of the first fan assembly.

In this technical scheme, the power of second fan subassembly is greater than the power of first fan subassembly, can form the negative pressure with the return air based on the flow of air, air-out, avoids dust, pollutant to fly away to the air.

Furthermore, the area of the air return opening is larger than that of the air outlet.

In the technical scheme, the air outlet and the return air form larger negative pressure by setting larger area of the return air inlet, thereby further avoiding dust and pollutants from floating into the air

Further, still include electric heater, electric heater is located air-out structure is interior.

In the technical scheme, the air is heated in a plurality of ways by the auxiliary heating of the electric heater, so that the air heating device is suitable for different application scenes, and the load of the heat exchanger can be reduced to a certain extent.

Further, still include air filter, air filter set up in the air-out structure.

Among this technical scheme, can derive the gas after the heat transfer at first fan subassembly through air filter equipment, gaseous can be carried out filtration treatment by air filter equipment in advance to prevent from the air-out polluted space of air outlet, lead to clean effect not good.

Further, still include dust collection device, dust collection device sets up in the return air structure.

Among this technical scheme, set up dust collection device in the return air structure, retrieve the air based on return air structure and the return air inlet above that, disinfecting the dust removal back to the user, in the air inflow return air structure, set up dust collection device this moment and can collect the dust and adsorb to this prevents that the dust from flowing backward and causes secondary pollution.

Further, still include the grid net is located return air inlet department, just the grid net with return air structure can dismantle the connection.

In the technical scheme, the grid net is arranged, so that the return air is subjected to certain rough treatment when the return air inlet returns air, and the phenomenon that large sundries enter the return air inlet to cause article loss, damage and the like is avoided.

Further, still include the shutter, the shutter is located return air inlet department, just the shutter with return air structure can dismantle the connection.

Among this technical scheme, be provided with the shutter, be in return air inlet department, based on the structure of shutter, can open the shutter when clean system carries out cleaning and disinfection in needs, but shutter is closed to all the other times to prevent that the air from pouring into the room or debris fall into in the return air structure.

Further comprises an air conditioner external unit, the heat exchanger is communicated with the air conditioner external unit,

among this technical scheme, under the normal conditions, when setting up the heat exchanger, need provide the structure that can regulate and control the refrigerant, and to family or operational environment, set up extra compressor structure and can improve extra cost, consequently, based on this, heat exchanger and the outer machine of air conditioner pass through the pipeline and link to each other among this technical scheme to this utilizes the outer machine of air conditioner to carry out the regulation of heat exchanger refrigerant temperature, and, conveniently adjust the refrigerant temperature, with this, save the cost, and can improve the comfort level.

Furthermore, the air flow sprayer further comprises an angle adjusting mechanism, the angle adjusting mechanism is connected with the air flow sprayer, and the angle adjusting mechanism is suitable for driving the air flow sprayer so as to adjust the air outlet angle of the air flow sprayer.

Among this technical scheme, adjust through the angle of giving vent to anger to air flow shower nozzle, can carry out the air current to the user by the multi-angle and blow, avoid leaving the clean disinfection dead angle.

The air flow passage is enclosed among the first sealing assembly, the second sealing assembly and the third sealing assembly when the second sealing assembly is in fit sealing with the first sealing assembly and the third sealing assembly, the air outlet is located at one end of the air flow passage, and the air return opening is located at the other end of the air flow passage.

In this technical scheme, can laminate each other sealedly based on between first seal assembly, second seal assembly, the third seal assembly to this can prevent to a certain extent that the air is excessive, thereby prevents that pollutant or dust from revealing.

The air conditioner further comprises a plurality of driving mechanisms, the driving mechanisms are respectively positioned at the air outlet structure and the air return structure, the first sealing assembly comprises a first air outlet partition plate and a first air return partition plate which are matched with each other, the second sealing assembly comprises a second air outlet partition plate and a second air return partition plate which are matched with each other, and the third sealing assembly comprises a third air outlet partition plate and a third air return partition plate which are matched with each other;

the first air outlet partition, the second air outlet partition and the third air outlet partition are respectively connected with the driving mechanism at the air outlet structure, the first air return partition, the second air return partition and the third air return partition are respectively connected with the driving mechanism at the air return structure, the first air outlet partition, the second air outlet partition and the third air outlet partition are suitable for being driven to the inside of the air outlet structure or the outside of the air outlet structure by the driving mechanism, and the first air return partition, the second air return partition and the third air return partition are suitable for being driven to the inside of the air return structure or the outside of the air return structure by the driving mechanism;

when the first air outlet clapboard, the second air outlet clapboard and the third air outlet clapboard are all positioned outside the air outlet structure, and when the first return air partition, the second return air partition and the third return air partition are positioned outside the return air structure, the first air outlet clapboard is jointed and sealed with the first air return clapboard, the second air outlet clapboard is jointed and sealed with the second air return clapboard, the third air outlet clapboard is jointed and sealed with the third air return clapboard, and the second air outlet clapboard is respectively attached and sealed with the first air outlet clapboard and the third air outlet clapboard, the second return air partition plate is respectively attached and sealed with the first return air partition plate and the third return air partition plate, the first air outlet partition plate, the second air outlet partition plate, the third air outlet partition plate, the first air return partition plate, the second air return partition plate and the third air return partition plate enclose the air flow channel.

Among this technical scheme, based on the seal assembly of the form of opening and shutting to the structure motor drives, with this can conveniently accomodate in air-out structure and return air structure, avoids leading to the fact the influence to the pavement current, and avoids pollutant or dust to reveal.

Drawings

Fig. 1 is a schematic structural diagram of a cleaning system according to an embodiment of the present invention;

FIG. 2 is a top view of a cleaning system according to an embodiment of the present invention;

fig. 3 is a side view of a cleaning system according to an embodiment of the present invention.

In the figure: 1-air outlet structure; 101-an air outlet; 2-an air return structure; 201-air return inlet; 3-a first fan assembly; 4-a second fan assembly; 5-a heat exchanger; 6-airflow nozzles; 7-an electric heater; 8-an air filtration device; 901-a first seal assembly; 911-a first air outlet clapboard; 921 — a first return air baffle; 902-a second seal assembly; 912-a second air outlet clapboard; 922-a second return air baffle; 903 — a third seal assembly; 913-a third air outlet baffle; 923-a third return air clapboard; 10 a-a dust collecting means; 10a 1-electrostatic; 10a 2-adsorption felt; 11 a-a grid net; 12 a-blinds.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Also, it is noted that the terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or otherwise described herein.

Referring to fig. 1, the utility model provides a clean system, including air-out structure 1, return air structure 2, first fan subassembly 3, second fan subassembly 4, heat exchanger 5 and a plurality of air current shower nozzle 6, air-out structure 1 with return air structure 2 sets up relatively, be formed with air outlet 101 on the air-out structure 1, be formed with return air inlet 201 on the return air structure 2, air current shower nozzle 6 is located air outlet 101 department, first fan subassembly 3 with heat exchanger 5 is located in the air-out structure 1, second fan subassembly 4 is located in return air structure 2, air outlet 101 with be suitable for forming totally closed or semi-enclosed airflow channel between the return air inlet 201.

In the family life, when disinfecting and removing dust to the human body through blowing, can't control blowing to make when the disinfection and dust removal of blowing, can't bring better use for the user and experience, for example to the winter that causes the tubulose virus easily, ambient temperature is lower usually, under this kind of condition, because of being difficult to control the air-out temperature, leads to experiencing not good to user's use.

The cleaning system in the embodiment of the present invention is provided with the air outlet structure 1 and the air return structure 2 which are opposite to each other, wherein the air outlet structure 1 and the air return structure 2 are formed with the containing cavities and are respectively formed with the air outlet 101 and the air return opening 201 for air outlet and air return of air, the air outlet is provided with the plurality of air flow nozzles 6, so that the air flow nozzles 6 spray high-speed air flow, specifically, the air flow nozzles 6 can be connected with the air supply device to spray high-speed air flow, the air supply device is arranged in the air outlet structure 1, the plurality of air flow nozzles 6 can be connected and supported with the air outlet structure 1 through the connecting structure or the supporting structure to be located at the air outlet 101, and a totally closed or semi-closed air flow channel is suitable to be formed between the air outlet 101 and the air return opening 201, based on this, when the second fan assembly 4 is used, the air outlet 101 and the air return, optionally, the air outlet structure 1 and the air return structure 2 are arranged oppositely, the air outlet 101 can be spatially opposite to the air return opening 201, the airflow nozzle 6 at the air outlet 101 can spray high-speed clean airflow, when a user uses a clean system, the user can be positioned in the airflow channel, so that the high-speed airflow can act on the user to blow off dust, harmful bacteria or viruses on the surface of the user so as to clean the user, and after the user is cleaned, disinfected and dedusted, the second fan assembly 4 can recover through the air return opening 201, based on the formed totally-closed or semi-closed airflow channel, the space for disinfecting the user can be reduced to a certain degree, and the space is sealed to a certain degree during cleaning, so that pollutants are prevented from leaking and the cleaning treatment is facilitated, wherein, still be provided with heat exchanger 5 in the air-out structure 1, heat exchanger 5 can carry out the heat transfer to the air in the air-out structure 1 based on the refrigerant, thereby produce hot air or cold air, give vent to anger based on first fan subassembly 3 and air outlet 101, thereby can carry out temperature regulation to the air current channel air between air outlet 101 and return air inlet 201, and retrieve through return air inlet 201 by second fan subassembly 4 simultaneously, as in figure 1, the direction that the arrow point indicates is the air current flow direction between air-out structure 1 and return air structure 2, for example heat exchanger 5 heats the air, in order to provide the hot air, thereby raise the temperature, in order to avoid giving vent to anger when disinfecting and removing dust to the user, because the straight blow of the cold air leads to the problem such as the comfort level descends, optionally, also can provide the cold air, in order to reduce the temperature, provide certain cold wind, bring comfortable experience, because form totally closed or semi-enclosed space between air, thereby can provide better temperature regulation and control effect, bring more comfortable experience for the user.

Wherein, a structure capable of forming a totally-enclosed or semi-enclosed space can be selectively set through an actual scene, as shown in fig. 2, in the embodiment, the air outlet 101 is opposite to the air return opening 201, and a sealing door type structure capable of sealing is arranged at the upper side and the front and back sides of the space between the air outlet 101 and the air return opening 201, so as to surround and seal the area between the air outlet 101 and the air return opening 201, such as only surrounding three sides, but reducing the area range of the whole air circulation, so that a semi-enclosed airflow channel is used for cleaning treatment for users, which is beneficial to the concentration of high-speed airflow and the regulation and control of temperature during cleaning treatment, and preventing pollutants from leaking to a certain extent, or more sealing door type structures are arranged to surround the upper, lower, front and back four sides of the area between the air outlet 101 and the air return opening 201, so as to form a totally-enclosed airflow, and the leakage of pollutants is isolated, in an actual use scene, the sealing door can be matched with the wall body or the ground of a corridor or a passageway, and only three groups of sealing door type structures in the embodiment are arranged to form a fully-sealed airflow channel, so that related materials are saved, the cost is saved, and a better sealing effect is achieved.

In an optional embodiment of the present invention, the heat exchanger further includes an air conditioner external unit, and the heat exchanger 5 is communicated with the air conditioner external unit.

The utility model discloses an in being suitable for the scene, it is applied to family or operational environment, in these environments, can install the air conditioner usually, powerful central air conditioner etc. for example, and to the clean system in the embodiment of the utility model provides a, under its normal condition, when setting up heat exchanger 5, need provide the structure that can regulate and control the refrigerant, and to family or operational environment, set up extra compressor structure and can improve extra cost, consequently, to the clean system, heat exchanger 5 passes through the pipeline with the outer machine of air conditioner and links to each other, specifically, connects the compressor of the outer machine of air conditioner to this utilizes the outer machine of air conditioner to carry out the regulation of 5 refrigerant temperatures of heat exchanger, and, conveniently adjusts the refrigerant temperature, with this, saves the cost to can improve the comfort level. Wherein, when the clean system based on outer machine of air conditioner was installed and is arranged in family environment or operational environment, can be similar to central air conditioning's installation and arrange, its air-out structure 1 and return air structure 2 can set up in passageway or the relative wall body in the corridor, perhaps air-out structure 1 and return air structure 2 can be relative wall body structure in passageway or the corridor, it corresponds with air outlet 101 and return air inlet 201 to set up the wind gap on the wall body, the compressor of outer machine of air conditioner is connected through the pipeline to heat exchanger 5 in its air-out structure 1, return air structure accessible pipeline intercommunication is outdoor to carry out the air-out etc..

The utility model discloses an optional embodiment, the power of second fan subassembly 4 is greater than the power of first fan subassembly 3, the plane area that the return air inlet 201 encloses is greater than the plane area that air outlet 101 encloses.

In this embodiment, the power of the second fan assembly 4 is greater than the power of the first fan assembly 3, which means that under the condition that the specifications of the motor and the fan blades in the fan assembly are the same, the rotating speed of the fan in the air outlet structure 1 is greater than the rotating speed of the fan in the air return structure 2, or the number of the motor and the fan blades in the air outlet structure 1 is greater than the number of the motor and the fan blades in the air return structure 2, so that negative pressure can be formed based on the flow of air, and dust and pollutants are prevented from floating into the air. Optionally, the area of the air return opening 201 is larger than the area of the air outlet 101, for example, the length and width of the air return opening 201 are both larger than the length and width of the air outlet 101, so as to further prevent dust and pollutants from being scattered into the air.

The utility model discloses an optional embodiment, still include electric heater 7, electric heater 7 is located in the air-out structure 1 to this, accessible electric heater 7 auxiliary heating to this heaies up the air through multiple mode, adapts to different application scenes, and can reduce the load of heat exchanger to a certain extent.

In an optional embodiment of the present invention, the air conditioner further comprises an air filtering device 8, wherein the air filtering device 8 is disposed in the air outlet structure 1.

Referring to fig. 1, in this embodiment, can be when the gas after the heat transfer is derived to first fan subassembly 3 through air filter 8, gas can be filtered by air filter 8 in advance, in order to prevent from the air-out polluted space of air outlet 101, it is not good to lead to clean effect, wherein air filter 8 can be high-efficient filter screen, degerming instrument, one or more in optical degerming instrument etc., in this embodiment, air filter 8 is high-efficient filter screen, it can dismantle with air-out structure 1 and be connected, the air that first fan subassembly 3 derived is when high-efficient filter screen, can carry out filter treatment.

In an optional embodiment of the present invention, the present invention further comprises a dust collecting device 10a, and the dust collecting device 10a is disposed in the air return structure 2.

In this embodiment, set up dust collection device 10a in return air structure 2, retrieve the air based on return air structure 2 and the return air inlet 201 above that, after disinfecting and removing dust to the user, the air flows into in return air structure 2, it can collect the absorption to set up dust collection device 10a this moment, prevent that the dust from flowing backward and arousing secondary pollution, wherein, dust collection device 10a includes static ware 10a1 and adsorption felt 10a2, so that the absorption of dust, static ware 10a1 and adsorption felt 10a2 can dismantle with return air structure 2 and be connected, in order to make things convenient for to dismantle the washing from return air inlet 201.

The utility model discloses an optional embodiment, still include grid net 11a and shutter 12a, grid net 11a with shutter 12a is located return air inlet 201 department, just grid net 11a with shutter 12a with the connection can be dismantled to return air structure 2.

In this embodiment, set up grid net 11a, grid net 11a can dismantle with return air structure 2 and be connected to be in return air inlet 201 department, with this when the return air inlet 201 returns, carry out certain crude treatment to the return air, prevent that great debris from getting into return air inlet 201, cause article to lose, damage etc., optionally, be provided with shutter 12a, shutter 12a can dismantle with return air structure 2 and be connected to be in return air inlet 201 department, based on shutter 12 a's structure, can open shutter 12a when needing clean system to carry out cleaning and disinfection, shutter 12a can be closed to the remaining time, in order to prevent that the air from pouring into the room or debris from falling into return air structure 2.

The utility model discloses an optional embodiment, still include angle adjustment mechanism, angle adjustment mechanism connects airflow shower nozzle 6, angle adjustment mechanism is suitable for the drive airflow shower nozzle 6 is in order to adjust airflow shower nozzle 6's the angle of giving vent to anger to can carry out the air current to the user and blow, avoid leaving the cleaning and disinfection dead angle by the multi-angle.

In an optional embodiment of the present invention, the air conditioner further includes a first sealing component 901, a second sealing component 902, and a third sealing component 903, the first sealing component 901 is adapted to be disposed opposite to the third sealing component 903, the second sealing component 902 is adapted to be located between the first sealing component 901 and the third sealing component 903, and the second sealing component 902 is adapted to be in close sealing with the first sealing component 901 and the third sealing component 903, when the second sealing component 902 is in close sealing with the first sealing component 901 and the third sealing component 903, the air flow channel is defined between the first sealing component 901, the second sealing component 902, and the third sealing component 903, the air outlet 101 is located at one end of the air flow channel, and the air return 201 is located at the other end of the air flow channel.

Referring to fig. 2, in the embodiment, the cleaning system includes a plurality of sealing assemblies, specifically, includes at least three sealing assemblies, namely, a first sealing assembly 901, a second sealing assembly 902 and a third sealing assembly 903 which can mutually enclose the above-mentioned fully-sealed or semi-sealed airflow channel, so that a user can perform cleaning, disinfection and dust removal in the airflow channel, based on which the cleaning effect can be improved to some extent, and due to the sealing and shielding of each sealing assembly, the contamination can be prevented from overflowing to some extent, and in some arrangement forms, the cleaning system can be matched with a ground wall surface, for example, when the cleaning system is applied to a corridor or an aisle, the first sealing assembly 901 and the third sealing assembly 903 can be placed at the front side and the rear side of the corridor or the aisle, and correspondingly, the second sealing assembly 902 can be placed between the first sealing assembly 901 and the third sealing assembly 903 and positioned at the upper side of the corridor or the aisle, the three components are matched with the ground, so that a relatively sealed area is defined while an airflow channel is formed, the relatively sealed area is used for conducting airflow between the air outlet 101 and the air return opening 201, when a user is located in the defined area and is subjected to cleaning treatment such as disinfection and dust removal, and the like, based on the fact that the first sealing component 901, the second sealing component 902 and the third sealing component 903 can be mutually attached and sealed, the air can be better prevented from overflowing and pollutants or dust can be prevented from leaking based on the sealing and shielding of the ground and the sealing components, wherein in order to realize the pedestrian function of a corridor or a passageway, the first sealing component 901, the second sealing component 902 and the third sealing component 903 can be movable sealing door structures, such as the first sealing component 901, the second sealing component 902 and the third sealing component 903 are movably connected with the air outlet structure 1 and/or the air return structure 2, for example, the sealing components can be telescopic, and, Sliding, rotating, etc., so as to move to the corresponding position to form an air flow channel when sealing is needed, and unfolding for passing through at other times.

In an optional embodiment of the present invention, the present invention further comprises a plurality of driving mechanisms, the driving mechanisms are respectively located at the air outlet structure 1 and the air return structure 2, the first sealing assembly 901 comprises a first air outlet partition 911 and a first air return partition 921 which are mutually matched, the second sealing assembly 902 comprises a second air outlet partition 912 and a second air return partition 922 which are mutually matched, and the third sealing assembly 903 comprises a third air outlet partition 913 and a third air return partition 923 which are mutually matched; the first air outlet partition 911, the second air outlet partition 912 and the third air outlet partition 913 are respectively connected to the driving mechanism at the air outlet structure 1, the first air return partition 921, the second air return partition 922 and the third air return partition 923 are respectively connected to the driving mechanism at the air return structure 2, the first air outlet partition 911, the second air outlet partition 912 and the third air outlet partition 913 are suitable for being driven by the driving mechanism to the inside of the air outlet structure 1 or the outside of the air outlet structure 1, and the first air return partition 921, the second air return partition 922 and the third air return partition 923 are suitable for being driven by the driving mechanism to the inside of the air return structure 2 or the outside of the air return structure 2; work as first air-out baffle 911 second air-out baffle 912 with third air-out baffle 913 all is located 1 outside air-out structure, just first return air baffle 921 second return air baffle 922 with third return air baffle 923 is located when return air structure 2 is outside, first air-out baffle 911 with first return air baffle 921 laminating is sealed, second air-out baffle 912 with second return air baffle 922 laminating is sealed, third air-out baffle 913 with third return air baffle 923 laminating is sealed, just second air-out baffle 912 respectively with first air-out baffle 911 with third air-out baffle 913 baffle 922 laminating is sealed, second return air baffle 922 with first return air baffle 921 with third return air baffle 923 laminating is sealed, first air-out baffle 911, second air-out baffle 912, third air-out baffle 913, The first return air partition 921, the second return air partition 922 and the third return air partition 923 enclose the air flow channel therebetween.

Referring to fig. 2 and 3, in this embodiment, each of the first sealing assembly 901, the second sealing assembly 902, and the third sealing assembly 903 is a door-shaped structure capable of opening and closing, and each of the first sealing assembly 901, the second sealing assembly 902, and the third sealing assembly 903 includes two partition structures, one of the partition structures can be driven by a driving mechanism to move so as to be located inside or outside the air outlet structure 1 after moving, the other partition structure can be driven by a driving mechanism to move so as to be located inside or outside the air return structure 2 after moving, a direction indicated by arrows in fig. 2 and 3 is an opening and closing moving direction of the partition in the sealing assembly, when the partition of the same sealing assembly moves to be located outside the air outlet structure 1 and the air return structure 2, the two partitions cooperate to form a sealing door structure similar to an opening and closing door, when all the partitions are located outside the air outlet structure 1 and the air return structure 2, the partitions are mutually, with supplying air current circulation between air outlet 101 and the return air inlet 201, and prevent that gas is excessive, prevent that pollutant or dust from revealing, when the baffle activity was to air outlet structure 1 and return air structure 2's inside, accomplish accomodating to seal assembly, seal assembly based on the form of opening and shutting, and combine actuating mechanism to drive, with this can conveniently accomodate in air outlet structure 1 and return air structure 2, avoid leading to the fact the influence to the walk is current, and avoid pollutant or dust to reveal.

In a practical application scenario of the present invention, for example, when the cleaning system is applied to a corridor or a passageway, the first outlet partition 911 and the first return air partition 921 of the first sealing assembly 901 can be disposed at the front side of the corridor or the passageway, and correspondingly, the third outlet partition 913 and the third return air partition 923 of the third sealing assembly 903 can be disposed at the rear side of the corridor or the passageway, and are opposite to the first outlet partition 911 and the first return air partition 921, at this time, the second outlet partition 912 and the second return air partition 922 of the second sealing assembly 902 are disposed between the first sealing assembly 901 and the third sealing assembly 903, and are located at the upper side of the corridor or the passageway, so that the three are engaged with the ground, and based on the fact that the second outlet partition 912 is attached and sealed with the first outlet partition 911 and the third outlet partition 913, the second return air partition 922 is attached and sealed with the first return air partition 921 and the third return air partition 923, and the outlet partition and the return air partition of the same sealing assembly are attached and sealed with each other, thereby enclose into a relatively sealed region when forming airflow channel for switching on of air current between air outlet 101 and the return air inlet 201, when the user is located this region of enclosing and carries out cleaning processes such as disinfection and dust removal, with this based on ground and seal assembly median septum's sealed sheltering from, can be better prevent that the air is excessive, prevent that pollutant or dust from revealing, and through setting up actuating mechanism, with the drive baffle activity, with this with baffle drive activity to relevant position formation airflow channel when needs are sealed, expand convenient to use user's pass through when other. Wherein the driving mechanism that is arranged in air-out structure 1 and return air structure 2 also can be a plurality of with the quantity correspondence of baffle to carry out the one-to-one drive, or be one, in order to carry out the simultaneous drive.

In an optional embodiment of the present invention, the cleaning system further comprises a sensing device, the sensing device is in communication with the controller of the cleaning system, and the controller is adapted to control the operation state of the cleaning system according to the sensing condition of the sensing device to the user.

In this embodiment, the sensing device, such as an infrared sensor or a touch panel, may be disposed in the aisle or the corridor, and communicatively connected to the controller, so as to control the operation state of the cleaning system according to the sensing condition of the sensing device, such as when the infrared sensor senses a blockage, the cleaning system is started.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (12)

1. The utility model provides a clean system, its characterized in that, includes air-out structure (1), return air structure (2), first fan subassembly (3), second fan subassembly (4), heat exchanger (5) and a plurality of air current shower nozzle (6), air-out structure (1) with return air structure (2) sets up relatively, be formed with air outlet (101) on the air-out structure (1), be formed with return air inlet (201) on return air structure (2), air current shower nozzle (6) are located air outlet (101) department, first fan subassembly (3) with heat exchanger (5) are located in air-out structure (1), second fan subassembly (4) are located in return air structure (2), air outlet (101) with be suitable for forming totally closed or semi-enclosed air current passageway between return air inlet (201).

2. The cleaning system according to claim 1, wherein the power of the second fan assembly (4) is greater than the power of the first fan assembly (3).

3. The cleaning system of claim 2, wherein the area of the air return opening (201) is larger than the area of the air outlet opening (101).

4. The cleaning system according to claim 1, further comprising an electric heater (7), wherein the electric heater (7) is located within the air outlet structure (1).

5. The cleaning system according to claim 1, further comprising an air filtering device (8), wherein the air filtering device (8) is disposed in the air outlet structure (1).

6. The cleaning system as recited in claim 1, further comprising a dust collecting device (10a), wherein the dust collecting device (10a) is provided in the return air structure (2).

7. The cleaning system as recited in claim 1, further comprising a grill net (11a), wherein the grill net (11a) is located at the return air opening (201), and wherein the grill net (11a) is detachably connected to the return air structure (2).

8. The cleaning system as recited in claim 1, further comprising a louver (12a), wherein the louver (12a) is located at the return air opening (201), and wherein the louver (12a) is detachably connected to the return air structure (2).

9. The cleaning system according to claim 1, further comprising an angle adjustment mechanism connected to the airflow nozzle (6), wherein the angle adjustment mechanism is adapted to drive the airflow nozzle (6) to adjust an air outlet angle of the airflow nozzle (6).

10. The cleaning system according to any one of claims 1 to 9, further comprising an outdoor air conditioner, wherein the heat exchanger (5) is in communication with the outdoor air conditioner.

11. The cleaning system according to any one of claims 1-9, further comprising a first seal assembly (901), a second seal assembly (902), and a third seal assembly (903), the first seal assembly (901) being adapted to be disposed opposite the third seal assembly (903), the second seal assembly (902) being adapted to be positioned between the first seal assembly (901) and the third seal assembly (903), and the second seal assembly (902) being adapted to be in snug seal with the first seal assembly (901) and the third seal assembly (903), the first seal assembly (901), the second seal assembly (902), and the third seal assembly (903) defining the gas flow path therebetween when the second seal assembly (902) is in snug seal with the first seal assembly (901) and the third seal assembly (903), the air outlet (101) is located at one end of the air flow channel, and the air return opening (201) is located at the other end of the air flow channel.

12. The cleaning system of claim 11, wherein: the air conditioner is characterized by further comprising a plurality of driving mechanisms, wherein the driving mechanisms are respectively located at the air outlet structure (1) and the air return structure (2), the first sealing assembly (901) comprises a first air outlet partition plate (911) and a first air return partition plate (921) which are matched with each other, the second sealing assembly (902) comprises a second air outlet partition plate (912) and a second air return partition plate (922) which are matched with each other, and the third sealing assembly (903) comprises a third air outlet partition plate (913) and a third air return partition plate (923) which are matched with each other;

the first air outlet clapboard (911), the second air outlet clapboard (912) and the third air outlet clapboard (913) are respectively connected with the driving mechanism at the air outlet structure (1), the first return air partition plate (921), the second return air partition plate (922) and the third return air partition plate (923) are respectively connected with the driving mechanism at the return air structure (2), the first air outlet partition board (911), the second air outlet partition board (912) and the third air outlet partition board (913) are suitable for being driven by the driving mechanism to the inside of the air outlet structure (1) or the outside of the air outlet structure (1), the first return air partition (921), the second return air partition (922) and the third return air partition (923) are adapted to be driven by the drive mechanism into the inside of the return air structure (2) or the outside of the return air structure (2);

when first air-out baffle (911), second air-out baffle (912) and third air-out baffle (913) all are located air-out structure (1) is outside, just first return air baffle (921), second return air baffle (922) and third return air baffle (923) are located when return air structure (2) is outside, first air-out baffle (911) with first return air baffle (921) laminating is sealed, second air-out baffle (912) with second return air baffle (922) laminating is sealed, third air-out baffle (913) with third return air baffle (923) laminating is sealed, just second air-out baffle (912) respectively with first air-out baffle (922) and third air-out baffle (913) laminating is sealed, second return air baffle (911) respectively with first return air baffle (921) and third return air baffle (923) laminating is sealed, first air-out baffle (911) second air-out baffle (912) third air-out baffle (913) first return air baffle (921) second return air baffle (922) with enclose between third return air baffle (923) and become airflow channel.

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