CN219306597U - Mite-killing dust collector - Google Patents

Abstract

The utility model provides a remove mite dust catcher, remove mite dust catcher includes dust catcher host computer and steam component, the dust catcher host computer includes casing and round brush subassembly, the casing has wind channel and steam outlet, the wind channel has dust absorption mouth and the air outlet of intercommunication each other, round brush subassembly sets up in the wind channel be close to dust absorption mouth one end, steam component is including the steam generation unit and the steam diffusion piece of intercommunication each other, the steam generation unit is connected in the casing, the steam generation unit is configured to produce steam, the steam diffusion piece sets up in the steam outlet, the steam diffusion piece is configured to spray the steam to treating clean surface through the steam outlet, the air-out direction of air outlet is towards treating clean surface, so that the air current that the air outlet flew out treats clean surface and dries. The mite-killing effect of the mite-killing dust collector is good.

Description

Mite-killing dust collector

Technical Field

The application relates to the technical field of mite removing equipment, in particular to a mite removing dust collector.

Background

The mite-removing dust collector is also called as mite-removing machine and is used for cleaning dust on textile articles such as beds, sofas, carpets, clothes and the like, and the allergy sources such as bacteria, viruses, mites and the like which are bred. When the mite-killing dust collector is used for cleaning, the suction inlet of the mite-killing dust collector is contacted with the surface to be cleaned, so that dust, bacteria, mites and other allergens are sucked into the mite-killing dust collector.

The existing mite-killing dust collector comprises a mite-killing dust collector main machine, wherein the mite-killing dust collector main machine comprises a shell, a rolling brush assembly and a dust collecting cup, a motor and an air duct are arranged in the shell, a suction inlet is formed in the shell, the rolling brush is arranged at the suction inlet, the air duct is communicated between the suction inlet and the dust collecting cup, the surface to be cleaned is beaten through the rolling brush, mites and the like hidden in the depth of the surface to be cleaned are lifted, suction is provided by the motor inside the machine body of the mite-killing dust collector, and dust, mites and other allergic sources enter the dust collecting cup from the suction inlet and the air duct in sequence.

However, such an acarid-killing cleaner has poor acarid-killing effect.

Disclosure of Invention

Based on this, the application provides a remove mite dust catcher to remove the relatively poor problem of mite effect of mite dust catcher among the correlation technique.

The utility model provides a remove mite dust catcher, including dust catcher host computer and steam component, the dust catcher host computer includes casing and round brush subassembly, the casing has wind channel and air outlet, the wind channel has dust absorption mouth and the air outlet of intercommunication each other, round brush subassembly sets up in the wind channel be close to dust absorption mouth one end, steam component is including the steam generation unit and the steam diffusion spare of intercommunication each other, the steam generation unit is connected in the casing, the steam generation unit is configured to produce steam, the steam diffusion spare sets up in the air outlet, the steam diffusion spare is configured to spout steam to treating clean surface through the air outlet, the air-out direction of air outlet is towards treating clean surface, so that the air current that the air outlet flew out is treated clean surface and is air-dried.

The utility model provides a frontal dust mite dust catcher's steam component is used for producing steam through setting up the steam generation unit, be used for spouting steam to treating clean surface evenly through setting up the steam diffusion spare, the dust catcher host computer is used for installing round brush subassembly and steam component etc. through setting up the casing, be used for beating to treat clean surface through setting up round brush subassembly, so that hide the mite in the depths and expose, so that the steam directly acts on the mite, the casing is used for forming negative pressure region through setting up the wind channel, be used for intercommunication wind channel and treating clean surface through setting up the dust mite that the clean surface was taken away through the air current, be used for providing the steam export through setting up the steam outlet, so that steam in the steam diffusion spare spouts to treating clean surface through the steam outlet, through setting up the air outlet direction of air outlet to be towards treating clean surface, so that from the air current flow through the wind channel after the dust inlet, blow to treating clean surface from the air outlet, thereby the water droplet of treating clean surface is air-dried. Therefore, the dust mite dust collector has better mite removing effect.

As an optional implementation manner, the mite-killing dust collector provided by the application has the advantages that the air outlet, the dust collection opening and the steam outlet are all arranged on one side of the shell, which faces the surface to be cleaned.

The dust collection device is characterized in that the dust collection device is provided with a dust collection hole, a dust collection hole and a steam outlet, wherein the dust collection hole is arranged on the surface to be cleaned, and the dust collection hole is connected with the dust collection hole.

As an optional implementation manner, the mite-killing dust collector provided by the application has the advantages that the dust collection opening, the steam outlet and the air outlet are arranged at intervals along the advancing direction of the dust collector main machine, and the air outlet is arranged at the rear end of the advancing direction of the dust collector main machine.

The setting accords with the operation and use habit of the user, and the user can use the device more conveniently.

As an alternative embodiment, the mite-killing dust collector provided by the application, the dust collector host machine further comprises a motor component, the motor component is arranged in the air duct, and the motor component is configured to enable negative pressure to be formed in the air duct so that air flows along the dust collection opening, the air duct and the air outlet in sequence.

The air flow can enter the air duct through the dust collection opening, and then is blown to the surface to be cleaned from the air outlet after flowing through the air duct so as to air-dry the surface to be cleaned.

As an optional embodiment, the mite-killing dust collector provided by the application, the dust collector host further comprises a heating element, the heating element is arranged at one end of the air duct close to the air outlet, and the heating element is configured to heat air flow.

So set up, the air-out temperature of air outlet is higher, and it is faster to air-dry to improved the air-dry effect of dirt mite dust catcher.

As an alternative embodiment, the mite-killing dust collector provided by the application, the heating element is a PTC heater or a far infrared heater.

The setting can effectively improve the air outlet temperature of the air outlet, thereby improving the air drying effect of the dust mite dust collector.

As an alternative embodiment, the mite-killing dust collector that this application provided, steam diffusion piece include shell and a plurality of steam hole that set up in the shell, steam hole and play steam vent intercommunication, and a plurality of steam holes are along the extending direction interval arrangement of steam vent.

So set up, steam accessible a plurality of steam holes evenly spread to wait to clean the surface to make steam evenly contact with wait to clean the surface, in order to improve the mite removal effect of high temperature steam.

As an alternative embodiment, the acarid-killing dust collector provided by the application, the steam assembly further comprises a water tank, the water tank is communicated with the steam generation unit, and the water tank is configured to supply water to the steam generation unit.

So arranged, the water tank can continuously supply water to the steam generating unit, so that the steam generating unit can continuously heat to generate high-temperature water steam, and the high-temperature water steam continuously acts on the surface to be cleaned.

As an alternative embodiment, the mite-killing dust collector provided by the application, the steam generating unit and the water tank are respectively arranged at two opposite sides of the advancing direction of the dust collector main machine.

By the arrangement, the weight distribution of the two opposite sides of the advancing direction of the main machine of the dust collector is more uniform, so that the gravity center of the dust mite dust collector is positioned near the central axis.

As an alternative embodiment, the mite-killing dust collector provided by the application, the steam assembly further comprises a driving pump, wherein the driving pump is communicated between the water tank and the steam generating unit, and the driving pump is used for driving water in the water tank to enter the steam generating unit.

So configured, the drive pump can power the water in the water tank to force the water into the steam generating unit against the resistance.

As an optional implementation manner, the housing of the mite-killing dust collector provided by the application is provided with a first accommodating cavity and a second accommodating cavity, the first accommodating cavity and the second accommodating cavity are respectively arranged at two opposite sides of the advancing direction of the dust collector main machine, the steam generating unit is arranged in the first accommodating cavity, and the driving pump is arranged in the second accommodating cavity;

the casing includes drain pan and support, and the support lid is established and is connected in the drain pan to enclose jointly and establish into the second holding chamber, water tank and driving pump set up respectively in the relative both sides of support, and water tank detachably connects in the support.

So set up, the accessible sets up first holding chamber and second holding chamber to be used for installing steam generation unit and driving pump respectively, and be used for installing the water tank through setting up the support, so that water tank and driving pump are installed in the one side of the direction of travel of dust catcher host computer, and steam generation unit installs in the opposite side of the direction of travel of dust catcher host computer, thereby rationally arrange the installation space of casing, in addition through making water tank detachably connect in the support, so as to make up water for the water tank.

As an alternative embodiment, the mite-killing dust collector provided by the application, and the steam generating unit is a steam boiler.

The dust mite dust collector can heat water to a boiling state through the steam boiler, so that liquid water is gasified to form high-temperature steam, and the high-temperature disinfection and sterilization of the surface to be cleaned are facilitated.

As an alternative embodiment, the present application provides an acarid-killing dust collector, the dust collector host further comprises a dust collection assembly, the dust collection assembly is connected to the shell and is communicated with the air duct, and the dust collection assembly is configured to filter and collect dirt on the surface to be cleaned.

The dust mites in the air flow sucked through the dust collection opening can be collected and filtered by the dust collection assembly, and after the cleaning work is finished, the dust mites and other dirt in the dust collection assembly are emptied, so that the dust mite dust collector is convenient to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, a brief description will be given below of the drawings that are needed in the embodiments or the prior art descriptions, and it is obvious that the drawings in the following description are some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a dust mite dust collector provided in an embodiment of the present application;

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

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is a bottom view of FIG. 1;

FIG. 5 is a cross-sectional view taken along the direction A-A of FIG. 4;

fig. 6 is a schematic view of another structure of the dust mite dust collector provided in the embodiment of the present application;

fig. 7 is a schematic view of another structure of the dust mite dust collector provided in the embodiment of the present application;

fig. 8 is a schematic view of a steam assembly and a support in an embodiment of the present application.

Reference numerals illustrate:

100-a cleaner main unit;

110-a housing; 111-a steam outlet; 112-a dust collection port; 113-an air outlet; 114-a first receiving cavity; 115-a second receiving cavity; 116-bottom shell; 117-scaffold; 118-cover plate;

120-a roller brush assembly;

130-a motor assembly;

140-heating element; 141-PTC heater; 142-far infrared heater;

150-a dust collection assembly;

160-control panel;

200-a steam assembly;

210-a steam generation unit; 220-steam diffuser; 221-steam holes;

230-a water tank;

240-drive pump.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the accompanying drawings in the preferred embodiments of the present application. In the drawings, the same or similar reference numerals refer to the same or similar components or components having the same or similar functions throughout. The described embodiments are some, but not all, of the embodiments of the present application. The embodiments described below by referring to the drawings are exemplary and intended for the purpose of explaining the present application and are not to be construed as limiting the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application. Embodiments of the present application are described in detail below with reference to the accompanying drawings.

In the description of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, indirectly connected through an intermediary, in communication between two elements, or in an interaction relationship between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In the description of the present application, it should be understood that the terms "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate an orientation or a positional relationship based on the drawings, which are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms "first," "second," "third" (if any) in the description and claims of the present application and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the present application described herein may be capable of operation in sequences other than those illustrated or described herein, for example.

Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or display that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or display.

The existing mite-killing dust collector comprises a mite-killing dust collector main machine, wherein the mite-killing dust collector main machine comprises a shell, a rolling brush assembly and a dust collecting cup, a motor and an air duct are arranged in the shell, a suction inlet is formed in the shell, the rolling brush is arranged at the suction inlet, the air duct is communicated between the suction inlet and the dust collecting cup, the surface to be cleaned is beaten through the rolling brush, mites and the like hidden in the depth of the surface to be cleaned are lifted, suction is provided by the motor inside the machine body of the mite-killing dust collector, and dust, mites and other allergic sources enter the dust collecting cup from the suction inlet and the air duct in sequence.

However, such an acarid-killing cleaner has poor acarid-killing effect.

This is because the mite-killing dust collector in the related art has only a mite-sucking function, and cannot kill mites, and thus, the mite-killing effect on the surface to be cleaned is poor. Or, the bottom of some mite-killing dust collectors is provided with an ultraviolet irradiation lamp, and ultraviolet light emitted by the ultraviolet irradiation lamp irradiates the surface to be cleaned, so that mites and bacteria on the surface to be cleaned are killed, however, the effect of killing the mites can be achieved only by irradiating the surface to be cleaned for a period of time by ultraviolet light, and the mite-killing dust collector needs to be fixed on the surface to be cleaned for a period of time, so that the mite-killing dust collector is inconvenient to use.

In view of the above, the embodiment of the application provides a mite-killing dust collector, which comprises a dust collector main body and a steam component, wherein the steam component generates water steam by arranging a steam generating unit and sprays the water steam to a surface to be cleaned through a steam diffusion member, so that dust mites on the surface to be cleaned are killed, the dust mites on the surface to be cleaned are absorbed by suction force generated by the dust collector main body, and air flows through an air outlet to blow the surface to be cleaned, so that residual water steam on the surface to be cleaned is air-dried.

The following describes in detail the embodiments of the mite-killing dust collector provided in the examples of the present application with reference to the drawings.

Referring to fig. 1 to 3, the mite-killing dust collector provided in the embodiment of the application includes a dust collector main unit 100 and a steam assembly 200, the dust collector main unit 100 includes a housing 110 and a rolling brush assembly 120, the housing 110 has an air duct and a steam outlet 111, the air duct has a dust collection port 112 and an air outlet 113 which are mutually communicated, the rolling brush assembly 120 is disposed at one end of the air duct near the dust collection port 112, the steam assembly 200 includes a steam generating unit 210 and a steam dispersing member 220 which are mutually communicated, the steam generating unit 210 is connected to the housing 110, the steam generating unit 210 is configured to generate steam, the steam dispersing member 220 is disposed at the steam outlet 111, the steam dispersing member 220 is configured to spray the steam to a surface to be cleaned through the steam outlet 111, and the air outlet direction of the air outlet 113 is toward the surface to be cleaned, so that the air flow flowing out of the air outlet 113 is air-dried on the surface to be cleaned.

In the present application, the steam assembly 200 is used for killing mites on a surface to be cleaned through the high temperature effect of the steam, and the cleaner main unit 100 is used for sucking dust, mites and other dirt on the surface to be cleaned through the negative pressure effect, so that the steam assembly 200 and the cleaner main unit 100 cooperate to deeply clean the surface to be cleaned.

Specifically, the cleaner main body 100 may include a housing 110 and a rolling brush assembly 120, where the housing 110 is used to mount the rolling brush assembly 120 and the steam assembly 200, and an air duct is formed in the housing 110 to form a negative pressure area, so that the pressure inside the dust mite cleaner is lower than the atmospheric pressure, and thus dust mites on the surface to be cleaned are sucked away. That is, the housing 110 provides an inlet for dust mites into the air duct by providing an air duct for forming a negative pressure region, and by providing a dust suction port 112 for providing dust mites into the air duct, and thus the internal pressure of the air duct is lower than the atmospheric pressure, so that air flows into the air duct through the dust suction port 112 to carry away dust mites on the surface to be cleaned.

The rolling brush assembly 120 is used for beating the surface to be cleaned to shoot out mites hidden in the depth of the surface to be cleaned and then is exposed under the dust collection opening 112, so that the dust mite dust collector can conveniently collect dust mites.

It will be appreciated that the steam assembly 200 may include a steam generating unit 210 and a steam diffuser 220, and that the steam is formed inside the steam generating unit 210 and flows to the steam diffuser 220 through a communication pipe, and then uniformly diffuses to the surface to be cleaned through the steam diffuser 220, thereby killing mites on the surface to be cleaned by the high temperature of the steam.

Compared with the mode of only sucking away mites through the negative pressure effect in the dust mite dust collector in the prior art, the dust mite dust collector that this application embodiment provided kills the mites through the high temperature effect of steam component 200 at first, and the negative pressure effect of rethread dust mite dust collector host 100 sucks away mites, and dust mite dust collector removes mite effect better. Compared with the ultraviolet mite removal mode, the water vapor only needs to stay on the surface to be cleaned for a short period of time, and mites on the surface to be cleaned can be killed at high temperature, so that the operation and the use of a user are more convenient.

After the water vapor kills mites, as the water vapor and the surface to be cleaned have a certain temperature difference, after contacting the surface to be cleaned with a relatively low temperature, a part of the water vapor is condensed and liquefied into water drops which stay on the surface to be cleaned, in order to air-dry the part of the liquefied water drops, the air outlet direction of the air outlet 113 can be set towards the surface to be cleaned, so that air flows out of the air outlet 113 after entering the air duct from the dust collection port 112 and is blown to the surface to be cleaned, the air circulation of the surface to be cleaned is accelerated by the air flow, and the liquefied water drops on the surface to be cleaned are further air-dried, so that the surface to be cleaned after being cleaned by the high-temperature water vapor is kept dry. In this way, the synergistic effect of the steam assembly 200 and the air outlet 113 improves the mite removing effect of the dust mite dust collector.

The dust mite dust collector of the embodiment of the application comprises a dust collector main machine 100 and a steam component 200, wherein the dust collector main machine 100 comprises a shell 110 and a rolling brush component 120, the shell 110 comprises an air duct, a steam outlet 111, a dust collection port 112 and an air outlet 113, and the steam component 200 comprises a steam generating unit 210 and a steam dispersing piece 220. The steam assembly 200 is used for providing high-temperature steam to kill mites on a surface to be cleaned through the high-temperature effect of the steam, the dust collector main body 100 is used for providing negative pressure effect to suck dust mites on the surface to be cleaned, the steam assembly 200 is used for generating the steam through the steam generation unit 210, the steam diffuser 220 is used for uniformly spraying the steam to the surface to be cleaned, the dust collector main body 100 is used for installing the rolling brush assembly 120 and the steam assembly 200 and the like through the shell 110, the rolling brush assembly 120 is used for beating the surface to be cleaned to expose mites hidden in the deep part, so that the steam directly acts on the mites, the shell 110 is used for forming a negative pressure area through the air duct, the dust collection opening 112 is used for communicating the air duct with the surface to be cleaned through the air flow, the steam outlet 111 is used for providing a steam outlet, the steam in the steam diffuser 220 is used for uniformly spraying the steam to the surface to be cleaned through the steam outlet 111, the air outlet 113 is set to be oriented towards the surface to be cleaned, the air flow from the dust collection opening 112 is enabled to flow through the air duct 113, and the air flow from the air duct 113 is blown to the surface to be cleaned. Therefore, the dust mite dust collector has better mite removing effect.

Referring to fig. 2, in one possible implementation, the air outlet 113, the dust suction port 112 and the steam outlet 111 are all disposed on a side of the housing 110 facing the surface to be cleaned.

So, air outlet 113, dust absorption mouth 112 and air outlet 111 all can be direct with wait to clean the surface contact, when dust mite dust catcher during operation, be located dust absorption mouth 112's round brush subassembly 120 and beat wait to clean the surface, and high temperature steam directly spouts to wait to clean the surface from the steam mouth, and it is better to remove mite effect, forms negative pressure region in the wind channel, dust mite dust catcher outside air current gets into in the wind channel from dust absorption mouth 112 to flow to air outlet 113, directly blows to wait to clean the surface from air outlet 113 again, and the air-drying effect is better.

With continued reference to fig. 2, 4 and 5, as an alternative embodiment, the dust suction port 112, the steam outlet 111 and the air outlet 113 are disposed at intervals along the traveling direction of the cleaner main body 100, and the air outlet 113 is disposed at the rear end of the traveling direction of the cleaner main body 100. Wherein the traveling direction of the cleaner main body 100 is referred to the X direction in fig. 4 and 5.

Thus, when the user holds the dust mite cleaner to move forward on the surface to be cleaned, the surface to be cleaned is firstly flapped by the rolling brush assembly 120, so that mites hidden in the depth are exposed on the surface, then the mites on the surface to be cleaned are killed by the high temperature effect of the water vapor, the mite corpse is sucked away by the negative pressure effect of the cleaner main machine 100, and finally the air flow blown out through the air outlet 113 is used for air-drying the surface to be cleaned after the water vapor is acted on. The setting accords with the operation and use habit of the user, and the user can use the device more conveniently.

Referring to fig. 3, in one possible implementation, the cleaner host 100 further includes a motor assembly 130, the motor assembly 130 being disposed in the air duct, and the motor assembly 130 being configured to create a negative pressure in the air duct to cause airflow to flow along the suction opening 112, the air duct, and the air outlet 113 in sequence.

Therefore, the dust mite dust collector can form a negative pressure area in the air duct by arranging the motor assembly 130, so that the air pressure in the dust mite dust collector is smaller than the atmospheric pressure, and air flow can enter the air duct through the dust collection opening 112 and then is blown to the surface to be cleaned from the air outlet 113 after flowing through the air duct, so that the surface to be cleaned is air-dried. And because the motor assembly 130 can generate heat when working, the air flow can take away the heat of the motor assembly 130 when flowing through the motor assembly 130, so that the heat of the motor assembly 130 can be dissipated, the air outlet temperature of the air outlet 113 can be increased, and the air drying effect of the air outlet 113 is further improved.

Referring to fig. 1 and 5, in order to further enhance the air drying effect of the dust mite dust collector, as an alternative embodiment, the dust collector main unit 100 further includes a heating element 140, the heating element 140 is disposed at one end of the air duct near the air outlet 113, and the heating element 140 is configured to heat the air flow.

So, the air current that flows in from the dust absorption mouth 112, when flowing through to the wind channel be close to air outlet 113 one end, the accessible heating member 140 heats to make from air outlet 113 blow out hot-blast, and then treat clean surface through hot-blast air-drying, for cold wind, hot-blast temperature is higher, and the air-drying speed is faster, thereby has improved the air-drying effect of dust mite dust catcher.

Referring to fig. 6 and 7, in some embodiments, the heating member 140 is a PTC heater 141 or a far infrared heater 142.

It should be noted that the PTC heater 141 has the advantages of small thermal resistance and high heat exchange efficiency, and is an automatic constant temperature and power saving heating element 140, and is safe and environment friendly. The far infrared heater 142 transfers heat by far infrared rays, and the far infrared heater 142 has the advantages of direct and simple heat transfer, high production heat efficiency, sanitation, environmental protection and the like. Therefore, the PTC heater 141 or the far infrared heater 142 is used as the heating member 140 to effectively increase the air outlet temperature of the air outlet 113, thereby improving the air drying effect of the dust mite collector.

Referring to fig. 2 and 3, in a specific implementation, the steam diffuser 220 includes a housing and a plurality of steam holes 221 provided in the housing, the steam holes 221 communicate with the steam outlet 111, and the plurality of steam holes 221 are arranged at intervals along the extending direction of the steam outlet 111.

In this way, after the water vapor generated by the steam generating unit 210 flows to the housing of the steam diffuser 220, the water vapor is uniformly diffused to the surface to be cleaned through the plurality of steam holes 221 on the housing, so that the water vapor is uniformly contacted with the surface to be cleaned, so that the mite removing effect of the water vapor is improved.

Referring to fig. 3, 4 and 8, since continuous water supply is required to generate water vapor, in one possible implementation, the vapor assembly 200 further includes a water tank 230, the water tank 230 being in communication with the vapor generation unit 210, the water tank 230 being configured to supply water to the vapor generation unit 210.

So configured, the water tank 230 may serve to store water and continuously supply water to the steam generating unit 210, so that the steam generating unit 210 is continuously heated to generate high-temperature water vapor, thereby continuously acting on the surface to be cleaned.

Referring to fig. 3 and 4, in order to reasonably arrange the structure of the dust mite collector, as an alternative embodiment, the steam generating unit 210 and the water tank 230 are respectively provided at opposite sides of the traveling direction of the main cleaner body 100. Because the water tank 230 and the steam generating unit 210 each have a certain total weight, the water tank 230 and the steam generating unit 210 are respectively disposed at opposite sides of the traveling direction of the cleaner main body 100, so that weight distribution at opposite sides of the traveling direction of the cleaner main body 100 is relatively uniform, so that the center of gravity of the dust mite cleaner is located near the central axis.

Referring to fig. 3 and 8, in some embodiments, the steam assembly 200 further includes a driving pump 240, the driving pump 240 being communicated between the water tank 230 and the steam generating unit 210, the driving pump 240 being used to drive water in the water tank 230 into the steam generating unit 210.

It will be appreciated that the water tank 230 and the steam generating unit 210 may be disposed on the same mounting plane such that water in the water tank 230 cannot automatically flow to the steam generating unit 210, and the water in the water tank 230 may be powered by the provision of the driving pump 240 to allow the water to enter the steam generating unit 210 against the resistance.

Referring to fig. 3, 4 and 8, in the embodiment, the housing 110 has a first accommodating cavity 114 and a second accommodating cavity 115, the first accommodating cavity 114 and the second accommodating cavity 115 are respectively disposed at two opposite sides of the travelling direction of the cleaner main body 100, the steam generating unit 210 is disposed in the first accommodating cavity 114, and the driving pump 240 is disposed in the second accommodating cavity 115.

The housing 110 includes a bottom case 116 and a bracket 117, the bracket 117 is covered and connected to the bottom case 116 to jointly enclose a second accommodating chamber 115, a water tank 230 and a driving pump 240 are respectively disposed on opposite sides of the bracket 117, and the water tank 230 is detachably connected to the bracket 117.

In this manner, by providing the first and second receiving chambers 114 and 115 at the housing 110 for mounting the steam generating unit 210 and the driving pump 240, respectively, and by providing the bracket 117 for mounting the water tank 230 such that the water tank 230 and the driving pump 240 are mounted at one side of the traveling direction of the cleaner main body 100, the steam generating unit 210 is mounted at the other side of the traveling direction of the cleaner main body 100, thereby reasonably arranging the installation space of the housing 110, and further, by detachably connecting the water tank 230 to the bracket 117, so as to supplement the water tank 230 with water.

It should be noted that, the housing 110 may further include a cover plate 118, where the cover plate 118 is covered on the first accommodating cavity 114 and is connected to the bottom shell 116, so as to enclose the first accommodating cavity 114 with the bottom shell 116 together, thereby hiding the steam generating unit 210 inside the housing 110, and making the dust mite dust collector more attractive in appearance.

In some embodiments, the steam generating unit 210 is a steam boiler. Therefore, the dust mite dust collector can heat water to a boiling state through the steam boiler, so that liquid water is gasified to form high-temperature steam, and the high-temperature disinfection and sterilization of the surface to be cleaned are facilitated.

Referring to fig. 3, in one possible implementation, the cleaner host 100 further includes a dust collection assembly 150, the dust collection assembly 150 being coupled to the housing 110, and the dust collection assembly 150 being in communication with the air duct, the dust collection assembly 150 being configured to filter and collect dirt from a surface to be cleaned.

In this way, after the air flow sucked through the dust collection port 112 enters the air duct, the air flow enters the dust collection assembly 150, dust mites in the air flow are collected and filtered by the dust collection assembly 150, and after the cleaning work is finished, dirt such as dust mites in the dust collection assembly 150 is emptied, so that the dust mite dust collector is convenient to use.

Wherein dust collection assembly 150 can include a dust cup, a filter, and the like.

In addition, the dust mite dust collector can further comprise a control board 160, wherein the control board 160 is used for controlling the dust mite dust collector to perform dust collection, steam mite removal and other works.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims (13)

1. The utility model provides a remove mite dust catcher, characterized in that includes dust catcher host computer (100) and steam subassembly (200), dust catcher host computer (100) include casing (110) and round brush subassembly (120), casing (110) have wind channel and air outlet (111), the wind channel has dust absorption mouth (112) and air outlet (113) of intercommunication each other, round brush subassembly (120) set up in the wind channel be close to dust absorption mouth (112) one end, steam subassembly (200) include steam generation unit (210) and steam diffuser (220) of intercommunication each other, steam generation unit (210) connect in casing (110), steam generation unit (210) are configured to produce steam, steam diffuser (220) set up in air outlet (111), steam diffuser (220) are configured to spout steam to wait to clean the surface through air outlet (111), the air outlet direction of air outlet (113) is to wait to clean the surface to wait to air-dry to make air outlet (113) air-dry the surface.

2. The mite-killing dust collector according to claim 1, wherein the air outlet (113), the dust collection port (112) and the steam outlet (111) are all arranged on the side of the shell (110) facing the surface to be cleaned.

3. The mite-killing dust collector according to claim 2, wherein the dust collection opening (112), the steam outlet (111) and the air outlet (113) are arranged at intervals along the travelling direction of the dust collector main unit (100), and the air outlet (113) is arranged at the rear end of the travelling direction of the dust collector main unit (100).

4. A mite-killing dust collector according to any one of claims 1-3, wherein the dust collector main body (100) further comprises a motor assembly (130), the motor assembly (130) is arranged in the air duct, and the motor assembly (130) is configured to enable negative pressure to be formed in the air duct so as to enable airflow to flow along the dust collection opening (112), the air duct and the air outlet (113) in sequence.

5. The acarid cleaner of claim 4, further comprising a heating element (140), the heating element (140) being disposed at an end of the air duct proximate the air outlet (113), the heating element (140) being configured to heat an air flow.

6. The mite-killing dust collector according to claim 5, wherein the heating member (140) is a PTC heater (141) or a far infrared heater (142).

7. A mite-killing dust collector according to any one of claims 1 to 3, wherein the steam diffusing member (220) comprises a housing and a plurality of steam holes (221) provided in the housing, the steam holes (221) are communicated with the steam outlet (111), and the plurality of steam holes (221) are arranged at intervals along the extending direction of the steam outlet (111).

8. A mite-killing dust collector according to any one of claims 1-3, further comprising a water tank (230), the water tank (230) being in communication with the steam generating unit (210), the water tank (230) being configured to supply water to the steam generating unit (210).

9. The acari-killing cleaner according to claim 8, wherein the steam generating unit (210) and the water tank (230) are respectively provided at opposite sides of the traveling direction of the cleaner main body (100).

10. The acarid cleaner of claim 9, further comprising a drive pump (240), the drive pump (240) being in communication between the water tank (230) and the steam generating unit (210), the drive pump (240) being configured to drive water in the water tank (230) into the steam generating unit (210).

11. The acarid cleaner according to claim 10, wherein the housing (110) has a first accommodating chamber (114) and a second accommodating chamber (115), the first accommodating chamber (114) and the second accommodating chamber (115) being provided on opposite sides of a traveling direction of the cleaner main body (100), respectively, the steam generating unit (210) being provided in the first accommodating chamber (114), the driving pump (240) being provided in the second accommodating chamber (115);

the shell (110) comprises a bottom shell (116) and a support (117), the support (117) is covered and connected with the bottom shell (116) so as to jointly enclose into a second accommodating cavity (115), the water tank (230) and the driving pump (240) are respectively arranged on two opposite sides of the support (117), and the water tank (230) is detachably connected with the support (117).

12. The mite-killing dust collector according to claim 11, wherein the steam generating unit (210) is a steam boiler.

13. The acarid cleaner of claim 4, further comprising a dust collection assembly (150), the dust collection assembly (150) being coupled to the housing (110) and the dust collection assembly (150) being in communication with the air duct, the dust collection assembly (150) being configured to filter and collect dirt from a surface to be cleaned.

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