CN215820756U - Dust collector main machine and dust collector - Google Patents

Abstract

A cleaner body, comprising: a host body; a dust cup, which provides a space for containing dirt therein, and which includes a front end having an opening 201, and a rear end of which is connected to the main body; the air inlet pipeline penetrates through the dust cup from the opening 201 of the dust cup and is fixed with the main machine body; the metal net is sleeved at least partially outside the air inlet pipeline; and the ash scraping part is annular and can be movably sleeved on the outer side of the metal net. The dust collector host and the dust collector have simple structures and reasonable design, the dust cup with the opening 201 at the end part is adopted for accommodating and dumping dirt, the dust adhered to the wall of the dust cup is scraped by the dust scraping piece, and the dirt is dumped from the opening 201 after the dust cup is thoroughly cleaned, so that the dirt dumping work of the dust collector is simply and efficiently realized, the dirt cannot be left in the dust cup, the cleanness of the dust collector is kept, and the user experience is greatly improved.

Description

Dust collector main machine and dust collector

[ technical field ] A method for producing a semiconductor device

The utility model relates to cleaning equipment, in particular to a dust collector main machine and a dust collector.

[ background of the utility model ]

The dust collector is a common household or commercial cleaning device, and achieves the purposes of cleaning space and optimizing living environment by absorbing dirt such as dust on a surface to be cleaned. The vacuum cleaner is generally composed of a plurality of functional units including an airflow generating unit, a filtering unit and a dust collecting unit, wherein after air is drawn by the airflow generating unit, dirt-carrying air is filtered by the filtering unit, so that the filtered air is re-exhausted into the atmosphere, and dust and the like generated by filtering are remained in the vacuum cleaner.

The existing dust collector mostly adopts a dust cup as a dust collecting unit to contain dust left by the dust collector in a filtering way, and after the dust collector is used for a period of time, dirt such as the dust in the dust cup is poured out. However, as the requirements of people on the space utilization rate and the integration degree of the dust collector are higher and higher, the close combination of the dust cup and the main machine of the dust collector enables the dust cleaning and dumping of the dust cup to be carried out in a new and more efficient mode, and the original main machine of the dust collector and the dust dumping mode of the dust collector are complex and inefficient, so that the current market requirements cannot be met.

Accordingly, there is a need for improvements in the art that overcome the deficiencies in the prior art.

[ Utility model ] content

The utility model aims to provide a dust collector main machine and a dust collector which can simply and efficiently pour dust.

The purpose of the utility model is realized by the following technical scheme:

a cleaner body, comprising:

a host body;

a dust cup, which provides a space for containing dirt therein, and which includes a front end having an opening 201, and a rear end of which is connected to the main body;

the air inlet pipeline penetrates through the dust cup from the opening 201 of the dust cup and is fixed with the main machine body;

the metal net is sleeved at least partially outside the air inlet pipeline;

scrape grey spare, it is cyclic annular and portable cover to scrape grey spare and establish the metal mesh outside, scrape grey spare outer fringe with dirt cup inner wall interference fit, scrape grey spare edge the metal mesh outside removes, strikes off the dust of dirt cup inner wall.

In one embodiment, the inner edge of the dust scraping piece is in interference fit with the metal mesh, and the dust scraping piece moves along the outer side of the metal mesh to scrape dust on the outer side of the metal mesh.

In one embodiment, the outer edge of the dust scraper is conical, and the conical tip abuts against the inner wall of the dust cup.

In one embodiment, the inner edge and the outer edge of the dust scraping piece are both conical, the tip of the conical inner edge abuts against the metal mesh, and the tip of the conical outer edge abuts against the inner wall of the dust cup.

In one embodiment, the dust scraping part is made of rubber materials.

In one embodiment, the outer diameter of the ash scraping part is larger than the outer diameter of the air inlet pipeline.

In one embodiment, the dust scraping piece has a moving state and a static state, and the dust scraping piece is positioned at the end part of the metal mesh closest to or far away from the air inlet of the air inlet pipeline when the dust scraping piece is static.

In one embodiment, the movement path of the dust scraping member is from the rear end to the front end or from the front end to the rear end of the dust cup.

In one embodiment, the dust scraper further comprises a push rod, one end of the push rod is fixed with the dust scraper, the other end of the push rod extends out of the main body, and a human hand pushes the push rod to drive the dust scraper to move.

A cleaner comprising a cleaner main body and a cleaner head for picking up dirt, the cleaner main body having:

a host body;

a dust cup, which provides a space for containing dirt therein, and which includes a front end having an opening 201, and a rear end of which is connected to the main body;

the air inlet pipeline penetrates through the dust cup from the opening 201 of the dust cup and is fixed with the main machine body;

the metal net is sleeved at least partially outside the air inlet pipeline;

the dust scraping piece is annular and movably sleeved on the outer side of the metal net, the outer edge of the dust scraping piece is in interference fit with the inner wall of the dust cup, and the dust scraping piece moves along the outer side of the metal net to scrape dust on the inner wall of the dust cup;

the fan provides suction force and is communicated with the air outlet of the air inlet pipeline;

the suction head is communicated with an air inlet of the air inlet pipeline.

Compared with the prior art, the utility model has the following beneficial effects: the dust collector host and the dust collector have simple structures and reasonable design, the dust cup with the opening 201 at the end part is adopted for accommodating and dumping dirt, the dust adhered to the wall of the dust cup is scraped by the dust scraping piece, and the dirt is dumped from the opening 201 after the dust cup is thoroughly cleaned, so that the dirt dumping work of the dust collector is simply and efficiently realized, the dirt cannot be left in the dust cup, the cleanness of the dust collector is kept, and the user experience is greatly improved.

[ description of the drawings ]

FIG. 1 is a partial cross-sectional view of a vacuum cleaner main body according to the present invention;

FIG. 2 is a schematic view of a main body of the vacuum cleaner of the present invention;

FIG. 3 is a cross-sectional view of the main body of the vacuum cleaner of the present invention;

FIG. 4 is a schematic view of the construction of the dirt cup of the present invention;

FIG. 5 is a schematic view of the construction of the dirt cup of the present invention;

FIG. 6 is a schematic view of the construction of the dirt cup of the present invention;

FIG. 7 is a perspective view of the main body of the vacuum cleaner of the present invention;

FIG. 8 is a side view of the main body of the vacuum cleaner of the present invention in an operating state;

FIG. 9 is a side view of the main body of the vacuum cleaner in a dust falling state;

FIG. 10 is a partial view of the main body of the vacuum cleaner of the present invention;

FIG. 11 is a partial cross-sectional view of the main body of the vacuum cleaner of the present invention;

FIG. 12 is a schematic view of a main body supporting member of the vacuum cleaner in a rotated state;

FIG. 13 is a schematic view showing the opening of the main body of the vacuum cleaner of the present invention.

The relevant elements in the figures are numbered correspondingly as follows: 100-main body of main machine, 110-communication hole, 200-dust cup, 201-opening, 210-dust pouring port, 220-shell, 230-dust collecting cavity, 240-butt joint end, 250-transition part, 260-dust cup body, 270-groove, 280-guide rail, 300-air inlet pipe, 310-air inlet, 400-metal net, 500-dust scraping piece, 510-connecting end, 600-dust pressing piece, 610-pressing plate, 620-clapboard, 700-linkage component, 710-push rod, 711-operation part, 712-first connecting rod, 713-second connecting rod, 714-third connecting rod, 720-braking piece, 730-return spring, 800-handle, 900-supporting piece, 910-first button, 920-second button, 930-a first connecting piece, 940-a second connecting piece, 1000-a battery pack, 1010-a mounting part, 1011-a supporting part, 1100-an airflow generator, 1200-a cyclone separator, 1210-a cyclone cone, 1211-a cone, 1300-a sealing element, 1400-a first limiting block, 1500-a second limiting block and 1600-a sealing support.

[ detailed description ] embodiments

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the scope of the present application. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the utility model of the present application, the meaning of "a plurality" is two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art through specific situations.

Referring to fig. 3, 7-13, a vacuum cleaner host of the present invention includes: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the metal net 400 is used as a filter net and is sleeved outside at least part of the air inlet pipeline 300; scrape grey piece 500, scrape grey piece 500 and be cyclic annular and movable cover and establish in the metal mesh 400 outside, scrape grey piece 500 outer fringe and dirt cup 200 inner wall interference fit to guarantee the scraping effect to dirt cup 200 inner wall, scrape grey piece 500 and remove along the metal mesh 400 outside, scrape the dust of dirt cup 200 inner wall. The dust catcher host computer adopts the tip to have the dirt cup of opening 201 and holds and empty dirt, and the dust of adhesion on the dirt cup wall then is scraped by scraping the ash spare, goes on thoroughly to the dirt cup and falls out dirt by opening 201 department after the deashing, and simple, efficient has realized the work of falling the ash of dust catcher, can not leave over dirt in the dirt cup, has kept the cleanness of dust catcher, very big improvement user experience.

In order to improve the dust cleaning effect of the dust cup 200, in one embodiment, the inner edge of the dust scraping member 500 is in interference fit with the metal mesh 400, and the dust scraping member 500 moves along the outer side of the metal mesh 400 to scrape off the dust on the outer side of the metal mesh 400.

In order to enhance the dust scraping effect of the dust scraping member 500, in one embodiment, the outer edge of the dust scraping member 500 is tapered, and the tip of the taper abuts against the inner wall of the dirt cup 200.

To enhance the ash removal effect on the dirt cup 200, in one embodiment, the inner and outer edges of the ash scraping member 500 are tapered, with the tip of the tapered inner edge abutting against the metal mesh 400 and the tip of the tapered outer edge abutting against the inner wall of the dirt cup 200.

In order to improve the dust scraping effect of the dust scraping member 500, in one embodiment, the dust scraping member 500 is made of rubber.

In one embodiment, the outer diameter of the dust scraping member 500 is larger than the outer diameter of the air inlet duct 300.

In one embodiment, the dust scraping member 500 has a moving state and a stationary state, in which the dust scraping member 500 is located at an end of the wire netting 400 closest to or distant from the air inlet of the air inlet duct 300, and the dust scraping member 500 moves between a pair of ends of the wire netting 400.

In one embodiment, the movement path of the dust scraping member 500 is from the rear end to the front end, or from the front end to the rear end, of the dirt cup 200.

In one embodiment, the dust scraper further comprises a push rod 710, one end of the push rod 710 is fixed to the dust scraper 500, the other end of the push rod 710 extends out of the main body 100, and a human hand pushes the push rod 710 to drive the dust scraper 500 to move.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; a metal mesh 400 sleeved on at least part of the outside of the air inlet pipeline 300; the dust scraping piece 500 is annular and can be movably sleeved on the outer side of the metal net 400, the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200, and the dust scraping piece 500 moves along the outer side of the metal net 400 to scrape dust on the inner wall of the dust cup 200; and a fan providing suction, the fan being communicated with the air outlet of the air inlet duct 300; the suction head is communicated with the air inlet of the air inlet pipeline 300.

Referring to fig. 3, 7-13, the embodiment further discloses a cleaner main body, including: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the metal net 400 is used as a filter net and is sleeved outside at least part of the air inlet pipeline 300; the dust scraping piece 500 is movably sleeved on the outer side of the metal net 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200 so as to ensure the scraping effect on the inner wall of the dust cup 200; the dust pressing member 600 is movably disposed inside the dust cup 200. The main body of the cleaner further comprises a linkage assembly 700 which is respectively and sequentially abutted against the dust scraping part 500 and the dust pressing part 600. When dirt is poured, the linkage assembly 700 pushes the dust scraping member 500 to move along the outer side of the metal mesh 400, and after the dirt on the inner wall of the dirt cup 200 is scraped to the inside of the dirt cup 200, the linkage assembly 700 pushes the dust pressing member 600 to move along the direction from the rear end to the front end of the dirt cup 200, so that the dirt in the dirt cup 200 is squeezed to the opening 201 of the dirt cup 200. Utilize linkage subassembly 700 will scrape grey piece 500 and press grey piece 600 linkage, accomplish in proper order and scrape grey and press grey action, both will be detained the dust on dirt cup 200 inner wall and get rid of, deliver to dirt cup 200 tip together with original dust in the dirt cup 200 again, wait for and pour out together, simple, the efficient has realized the work of falling the ash of dust catcher, can not leave over the foul thing in the dirt cup, has kept the cleanness of dust catcher, very big improvement user experience.

In order to sequentially start the dust scraping member 500 and the dust pressing member 600, in one embodiment, the linkage assembly 700 includes a push rod 710 and a pivot member, the pivot member is pivotally disposed at the dust scraping member 500, one end of the push rod 710 abuts against the pivot member, and the other end extends out of the main body 100, a human hand pushes the push rod 710 to drive the dust scraping member 500 to move, when the dust scraping member 500 moves to a certain position, the pivot member pivots and avoids the push rod 710, at this time, the push rod 710 no longer exerts a force on the pivot member, so that the push rod 710 no longer pushes the dust scraping member 500 to move.

In order to sequentially start the ash scraping member 500 and the ash pressing member 600, in one embodiment, after the ash scraping member 500 moves to a certain position, the push rod 710 abuts against the ash pressing member 600, and after the push rod 710 no longer pushes the ash scraping member 500 to move, the push rod 710 abuts against and can push the ash pressing member 600 to move.

In one embodiment, the location is the end of the wire mesh 400 closest to the air inlet of the air inlet duct 300.

In one embodiment, the ash scraping element 500 is moved from the end of the wire mesh 400 furthest from the air inlet of the air inlet duct 300 to the end of the wire mesh 400 closest to the air inlet of the air inlet duct 300.

In one embodiment, the operating portion 711 is fixed to an end of the push rod 710 extending out of the main body 100, and when the operating portion 711 is pressed by a human hand, the operating portion 711 drives the dust scraper 500 to move through the push rod 710.

In order to facilitate the operation of the user, in one embodiment, the cleaner main body further includes a handle 800 and a support 900 fixed to the main body 100 at a distance from each other, and the moving stroke of the operating part 711 is at least partially located between the handle 800 and the support 900.

In one embodiment, the main body of the cleaner further includes a return spring 730 having two ends respectively connected to the push rod 710 and the main body, the return spring 730 is in a compressed state, and after the hand releases the hand after dumping dirt, the return spring 730 drives the push rod 710 to return, so that the dust scraping member 500 and the dust pressing member 600 are also returned.

In one embodiment, the dust scraping member 500 and the dust pressing member 600 move along the axial direction of the air inlet duct 300.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; a metal mesh 400 sleeved on at least part of the outside of the air inlet pipeline 300; the dust scraping piece 500 is movably sleeved outside the metal net 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200; the dust pressing piece 600 is movably arranged inside the dust cup 200; the linkage assembly 700 is respectively abutted against the ash scraping part 500 and the ash pressing part 600 in sequence; when dirt is poured, the linkage assembly 700 pushes the dust scraping piece 500 to move along the outer side of the metal mesh 400, after the dust on the inner wall of the dust cup 200 is scraped to the inside of the dust cup 200, the linkage assembly 700 pushes the dust pressing piece 600 to move along the direction from the rear end to the front end of the dust cup 200, and the dirt in the dust cup 200 is extruded to the opening 201 of the dust cup 200; and a fan providing suction, the fan being communicated with the air outlet of the air inlet duct 300; the suction head is communicated with an air inlet of the air inlet pipeline.

Referring to fig. 3, 7-13, the embodiment further discloses a cleaner main body, including: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the metal net 400 is used as a filter net and is sleeved outside at least part of the air inlet pipeline 300; the dust scraping piece 500 is movably sleeved on the outer side of the metal net 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200 so as to ensure the scraping effect on the inner wall of the dust cup 200; the dust scraping operation assembly comprises an operation part 711 and a push rod 710, one end of the push rod 710 is fixed with the dust scraping piece 500, the other end of the push rod 710 extends out of the main body 100, the operation part 711 and the end part of the push rod 710, which is located outside the main body 100, are fixed, and a human hand pushes the operation part 711 to drive the dust scraping piece 500 to move so as to scrape dust on the inner wall of the dust cup 200. The dust collector host machine adopts a dust cup with an opening 201 at the end part to contain and pour dirt, dust adhered to the wall of the dust cup is scraped by a dust scraping piece, the dirt scattered in the dust cup is extruded to the opening 201 of the dust cup by a dust pressing piece, the dust scraping piece is operated by a dust scraping operation component to complete dust scraping action, and the dirt is poured out from the opening 201 after the dust cup is thoroughly cleaned. In this embodiment, the push rod 710 is disposed inside the dust cup 200 and extends out from the rear end of the dust cup 200, and with this design, the main structure of the dust cup 200 is not damaged, so that the dust cup 200 has a better sealing performance. Further, the end of the push rod 710 far from the operation part 711 is connected to the sealing bracket 1600, and the dust scraping component 500 is fixed to the sealing bracket 1600, so that the push rod 710 can drive the sealing bracket 1600 to further drive the dust scraping component 500, and the rear end of the dust cup 200 can be better sealed.

In order to facilitate the operation of the user, in one embodiment, the moving direction of the operation part 711 is the same as the air inlet direction of the air inlet duct 300, and the arrangement is more ergonomic.

In one embodiment, the main body 100 has a through hole 110, and the operating part 711 extends through the through hole 110 and is connected to an end of the push rod 710 away from the dust scraper 500.

In one embodiment, the through hole 110 has a long bar shape, and the operating part 711 moves along the through hole 110.

For the convenience of user operation, in one embodiment, the through hole 110 is opened below the host body 100 in a normal grip state.

In one embodiment, the portable electronic device further includes a handle 800 and a support 900 fixed to the main body 100 at a distance from each other, and the moving stroke of the operating part 711 is at least partially located between the handle 800 and the support 900.

Further, in one embodiment, the moving stroke of the operating part 711 is entirely between the handle 800 and the supporting member 900.

In order to improve the scraping ability, in one embodiment, the dust scraping member 500 is annularly sleeved on the outer peripheral wall of the metal mesh 400.

In order to improve the scraping ability, in one embodiment, the inner edge of the dust scraping member 500 is in interference fit with the metal mesh 400, and the dust scraping member 500 moves along the outer side of the metal mesh 400 to scrape off dust on the outer side of the metal mesh 400.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the dust scraping piece 500 is movably sleeved outside the air inlet pipeline 300 or outside the filter screen 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200 to scrape dust attached to the inner wall of the dust cup 200; the ash scraping operation assembly comprises an operation part 711 and a push rod 710, one end of the push rod 710 is fixed with the ash scraping piece 500, the other end of the push rod 710 extends out of the main body 100, the operation part 711 and the end part of the push rod 710 positioned outside the main body 100 are fixed, and a human hand pushes the operation part 711 to drive the ash scraping piece 500 to move so as to scrape dust on the inner wall of the dust cup 200; and a fan providing suction, the fan being communicated with the air outlet of the air inlet duct 300; the suction head is communicated with the air inlet of the air inlet pipeline 300.

Referring to fig. 3, 7-13, the embodiment further discloses a cleaner main body, including: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is connected with the main body 100 of the main body; the dust pressing piece 600 is movably arranged inside the dust cup 200; when dirt is poured, the dust pressing member 600 moves in the direction from the rear end to the front end of the dirt cup 200, and presses the dirt in the dirt cup 200 to the opening 201 of the dirt cup 200. The dust catcher host computer adopts the tip to have the dirt cup of opening 201 and holds and empty the dirt, the dust of adhesion on the dirt cup wall then is scraped by scraping the ash spare, will disperse in the dirt cup everywhere dirt extrudees to the opening 201 department of dirt cup by pressing the ash spare, utilize to press the ash spare to accomplish and press the ash action, go on thoroughly to pour out the dirt by opening 201 department behind the deashing to the dirt cup, it is simple, the efficient has realized the work of falling the ash of dust catcher, dirt can not be left over in the dirt cup, the cleanness of dust catcher has been kept, very big improvement user experience.

In order to ensure the dust pressing effect, in one embodiment, the dust pressing member 600 is annular and is sleeved outside the air inlet duct 300.

In order to ensure the ash pressing effect, in one embodiment, the ash pressing member 600 is in the shape of a hollow disk, and the inner edge of the ash pressing member 600 is tightly attached to the outer wall of the air inlet duct 300.

In one embodiment, the dust pressing member 600 includes a pressing plate 610 and a partition 620, the pressing plate 610 has a hollow disk shape, and an inner edge of the pressing plate 610 is closely attached to an outer wall of the air inlet duct 300 to ensure a dust pressing effect. The partition 620 is in a circular shape and fixed on the pressing plate 610, an included angle is formed between the partition 620 and the pressing plate 610, and dirt can be contained in an area formed among the partition 620, the pressing plate 610 and the outer wall of the air inlet duct 300.

To enhance dirt holding capacity, in one embodiment, the partition 620 forms an obtuse angle with the platen 610.

Preferably, in one embodiment, the partition 620 is vertically fixed to the pressure plate 610.

To ensure dust retention and to enhance dirt retention, in one embodiment, the partition 620 is spaced from the outer wall of the nearest air inlet duct 300 by at least the distance 1/3 from the air inlet duct 300 to the inner wall of the nearest dirt cup 200.

In one embodiment, the dust cup further comprises a metal net 400 and a dust scraping member 500, the metal net 400 is used as a filter net and is sleeved on at least part of the outer side of the air inlet pipeline 300, the dust scraping member 500 is movably sleeved on the outer side of the metal net 400, the outer edge of the dust scraping member 500 is in interference fit with the inner wall of the dust cup 200 to scrape dust on the inner wall of the dust cup 200, and the scraping effect on the inner wall of the dust cup 200 is ensured.

In one embodiment, the dust scraping member 500 and the dust pressing member 600 are fixedly connected by a rod, and the dust scraping member 500 and the dust pressing member 600 move synchronously under the action of the rod.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200 providing a space for receiving dirt therein, the dust cup 200 including a front end having an opening 201, a rear end of the dust cup 200 being connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the dust pressing piece 600 is movably arranged inside the dust cup 200; when dirt is poured, the dust pressing piece 600 moves along the direction from the rear end to the front end of the dust cup 200, and the dirt in the dust cup 200 is pressed to the opening 201 of the dust cup 200; and a fan providing suction, the fan being communicated with the air outlet of the air inlet duct 300; the suction head is communicated with the air inlet of the air inlet pipeline 300.

Referring to fig. 3, 7-13, the embodiment further discloses a cleaner main body, including: a host main body 100; a dust cup 200, the interior of which provides a space for containing dirt, the dust cup 200 including a front end having an opening 201, the rear end of the dust cup 200 being detachably connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; the metal net 400 is used as a filter net and is sleeved outside at least part of the air inlet pipeline 300; the dust scraping piece 500 is movably sleeved on the outer side of the metal net 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200 so as to ensure the scraping effect on the inner wall of the dust cup 200; the dust pressing piece 600 is movably arranged inside the dust cup 200; when dirt is poured, the dust scraping piece 500 moves along the outer side of the metal mesh 400 to scrape dust on the inner wall of the dust cup 200 to the inside of the dust cup 200, the dust pressing piece 600 moves along the direction of the front end of the rear end of the dust cup 200 to press the dirt in the dust cup 200 to the opening 201 of the dust cup 200, the rear end of the dust cup 200 is separated from the main body 100, and a dust pouring port 210 for pouring the dirt is formed between the opening 201 of the front end of the dust cup 200 and the air inlet pipeline 300. The dust catcher host computer adopts the tip to have the dirt cup of opening 201 and holds and empty dirt, form the mouth of falling the dirt between dirt cup front end opening 201 and the intake stack and empty the dirt, the dust of adhesion on the dirt cup wall is then scraped by scraping the ash spare, extrude the opening 201 department to the dirt cup by pressing the ash spare with the dirt everywhere in the dirt cup of dispersion, accomplish in proper order and scrape the ash and press the ash action, pour out dirt by opening 201 department after thoroughly cleaning the dirt cup, it is simple, the efficiency has realized the work of falling the ash of dust catcher, dirt can not be left over in the dirt cup, the cleanness of dust catcher has been kept, very big improvement user experience.

The dust scraping and pressing actions may have different processes, in one embodiment, the rear end of the dust cup 200 is separated from the main body 100, the dust scraping member 500 moves along the outer side of the metal mesh 400, and after scraping dust on the inner wall of the dust cup 200 into the dust cup 200, the dust pressing member 600 moves along the direction from the rear end to the front end of the dust cup 200, and presses the dirt in the dust cup 200 to the opening 201 of the dust cup 200.

The dust scraping and pressing actions may have different processes, in one embodiment, the dust scraping member 500 moves along the outer side of the metal mesh 400, after scraping the dust on the inner wall of the dust cup 200 into the dust cup 200, the rear end of the dust cup 200 is separated from the main body 100, and the dust pressing member 600 moves along the direction from the rear end to the front end of the dust cup 200, and presses the dirt in the dust cup 200 to the opening 201 of the dust cup 200.

The dust scraping and pressing actions can have different processes, in one embodiment, the dust scraping element 500 moves along the outer side of the metal mesh 400 to scrape the dust on the inner wall of the dust cup 200 into the dust cup 200, the dust pressing element 600 moves along the direction of the rear end to the front end of the dust cup 200 to press the dust in the dust cup 200 to the opening 201 of the dust cup 200, the rear end of the dust cup 200 is separated from the main body 100, and after the dust pouring port 210 for dumping the dust is formed between the opening 201 of the front end of the dust cup 200 and the air inlet duct 300, the dust scraping element 500 and the dust pressing element 600 continue to move along the original moving direction.

In one embodiment, the method further comprises the following steps: a link assembly including a first link 712, a second link 713, and a third link 714, the first link 712 being connected to the operating part 711 and the second link 713, respectively, the second link 713 being connected to the dust scraper 500, and the dust scraper 500 being connected to the dust pressing member 600 through the third link 714; a locking assembly comprising a braking member 720, wherein one end of the first connecting rod 712 far away from the operating part 711 abuts against the braking member 720, and the braking member 720 is pivotally arranged at the dust cup 200; when the operating part 711 is pressed by a human hand, the operating part 711 drives the dust cup 200 to move through the first link 712, and the first link 712 drives the dust scraping part 500 and the dust pressing part 600 to move through the second link 713 and the third link 714. When the dust scraping member 500 moves to a certain position, the braking member 720 pivots and moves away from the first link 712, the first link 712 no longer generates an acting force on the dust cup 200, the dust cup 200 stops moving, and the first link 712 can continue to drive the dust scraping member 500 and the dust pressing member 600 to move through the second link 713 and the third link 714.

To facilitate control of the unlocked or locked state of the dirt cup 200, in one embodiment, the locking assembly further comprises a latch fixed to the dirt cup 200, the latch latching the first link 712, and the latch being unlocked when a person presses the operating portion 711 with his or her hand.

In one embodiment, the dust collector further comprises a return spring 730, two ends of the return spring 730 are respectively connected with the first link 712 and the main body of the dust collector, the return spring 730 is in a compressed state, and after the hand releases the hand after dumping dirt, the return spring 730 drives the first link 712 to reset, so that the dust scraping part 500 and the dust pressing part 600 can reset.

In one embodiment, the location is the end of the wire mesh 400 closest to the air inlet of the air inlet duct 300.

In one embodiment, the dirt cup 200, the dust scraping member 500 and the dust pressing member 600 move along the axial direction of the air inlet duct 300.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200, the interior of which provides a space for containing dirt, the dust cup 200 including a front end having an opening 201, the rear end of the dust cup 200 being detachably connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; a metal mesh 400 sleeved on at least part of the outside of the air inlet pipeline 300; the dust scraping piece 500 is movably sleeved outside the metal net 400, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200; the dust pressing piece 600 is movably arranged inside the dust cup 200; when dirt is poured, the dust scraping piece 500 moves along the outer side of the metal mesh 400 to scrape dust on the inner wall of the dust cup 200 to the inside of the dust cup 200, the dust pressing piece 600 moves along the direction of the front end of the rear end of the dust cup 200 to press the dirt in the dust cup 200 to the opening 201 of the dust cup 200, the rear end of the dust cup 200 is separated from the main body 100 of the main body, and a dust pouring port 210 for pouring the dirt is formed between the opening 201 of the front end of the dust cup 200 and the air inlet pipeline 300; and a fan providing suction, the fan being communicated with the air outlet of the air inlet duct 300; the suction head is communicated with the air inlet of the air inlet pipeline 300.

Referring to fig. 3, 7-13, the embodiment further discloses a cleaner main body, including: a host main body 100; a dust cup 200, the interior of which provides a space for containing dirt, the dust cup 200 including a front end having an opening 201, the rear end of the dust cup 200 being detachably connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; a battery pack 1000 for providing power; a handle 800, one end of the handle 800 is connected with the main body 100 of the main body, and the other end is connected with the battery pack 1000; the supporting member 900, one end of the supporting member 900 is connected to the dust cup 200, the other end is detachably connected to the battery pack 1000, and the supporting member 900 after being pulled to be detached functions as a handle to pull the dust cup 200 away from the main body 100. The dust catcher host computer adopts the tip to have the dirt cup of opening 201 and holds and empty dirt, pulls the dirt cup from the host computer main part through the support piece that plays the handle effect, is convenient for go on thoroughly to the dirt cup after pouring dirt by opening 201 department, and simple, efficient have realized the work of falling grey of dust catcher, can not leave over dirt in the dirt cup, have kept the cleanness of dust catcher, very big improvement user experience.

For the convenience of user operation, in one embodiment, the dust cup 200 is pulled away from the main body 100 in a direction opposite to the air inlet direction of the air inlet duct 300.

In order to facilitate the user's operation without hindering the strength of the connection between the dust cup 200 and the main body 100, in one embodiment, the dust cup 200 is rotatably connected to the main body 100.

Preferably, in one embodiment, the dirt cup 200 is threadably connected to the main body 100.

In one embodiment, the dust cup 200 has an external thread at the rear end thereof, and the main body 100 has an internal thread at a position corresponding to the rear end of the dust cup 200.

In one embodiment, before the dust cup 200 is pulled away from the main body 100 by pulling the detached support 900, the dust cup 200 is detached from the main body 100 by rotating the support 900.

In order to facilitate the acquisition of the rotation state of the dust cup 200, in one embodiment, the dust cup 200 has a rotation marker thereon, and the rotation marker marks the mounting or dismounting state of the dust cup 200 and the main body 100 at a position that changes with the rotation of the dust cup 200.

In one embodiment, the handle 800 is removably attached to the battery pack 1000.

In one embodiment, the handle 800 and the support 900 are disposed on the battery pack 1000 in a spaced relationship from each other.

The embodiment also discloses a dust collector, which comprises a dust collector main body and a suction head for sucking the dirt, wherein the dust collector main body is provided with: a host main body 100; a dust cup 200, the interior of which provides a space for containing dirt, the dust cup 200 including a front end having an opening 201, the rear end of the dust cup 200 being detachably connected to the main body 100; an air inlet duct 300, wherein the air inlet duct 300 passes through the dust cup 200 from the opening 201 of the dust cup 200 and is fixed with the main body 100 of the main body; a battery pack 1000 for providing power; a handle 800, one end of the handle 800 is connected with the main body 100 of the main body, and the other end is connected with the battery pack 1000; a support member 900, one end of the support member 900 is connected with the dust cup 200, the other end is detachably connected with the battery pack 1000, and the detached support member 900 is pulled to pull the dust cup 200 away from the main body 100; the battery pack 1000 supplies power to the fan, and the fan is communicated with the air outlet of the air inlet pipeline 300; the suction head is communicated with the air inlet of the air inlet pipeline 300.

Referring to fig. 1 to 6, a main body of a vacuum cleaner according to a preferred embodiment of the present invention includes a main body 100, a cyclone 1200 for separating dust and air, a dust scraping member 500 for removing dust, an air inlet duct 300 for connecting the outside to the cyclone 1200, and a sealing member 1300. The cyclone separator 1200 includes a dust cup 200, the dust cup 200 has an ash pouring opening 210, the ash pouring opening 210 of the dust cup 200 gradually reduces along the radial direction to form an arc shape, the dust cup 200 is arranged on the main body 100 in a penetrating way and is detachably connected with the main body 100; the sealing member 1300 is disposed at a joint of the dust pouring port 210 of the dust cup 200 and the main body 100, so that a sealed cavity is formed in the dust cup 200. The dust cup 200 with the opening 201 at the end is adopted by the main body of the dust collector to contain and pour out dirt, the sealing part 1300 is arranged at the joint of the dust pouring port 210 of the dust cup 200 and the main body 100 of the main body of the dust collector, so that the dirt in the dust cup 200 can not easily fall out when the dust collector works, and when the dirt needs to be poured out, the opening 201 is formed at the front end of the dust cup to pour out the dust from the opening 201, thereby realizing the effect of quickly pouring out the dirt.

The seal 1300 is tightened against the juncture of the intake duct 300 and the dust pouring opening and moves with the dirt cup 200 along the axis of the intake duct 300. The material of the sealing member 1300 may be plastic or rubber, and of course, the material of the sealing member 1300 may be other, which is not limited in this embodiment.

The dust cup 200 is detachably connected to the main body 100. In this embodiment, the dust cup 200 is engaged with the main body 100, specifically, a slot (not shown) is disposed on the inner peripheral wall of the dust cup 200, a protrusion (not shown) is disposed on the main body 100 and is in shape fit with the slot, and the dust cup 200 is detachably connected with the main body 100 by the engagement of the slot and the protrusion.

Two parallel L-shaped protruding strips (not shown) and a first limiting block 1400 are arranged on the outer wall of the dust cup 200, a guide rail 280 and a second limiting block 1500 are arranged on the main body 100, a groove 270 with an opening 201 is formed by the two parallel L-shaped protruding strips, the main body 100 extends out of the dust cup 200, and the groove 270 is matched with the guide rail 280 in a sliding manner, so that the dust cup 200 is connected with the main body 100. The second stopper 1500 limits the first stopper 1400 from moving toward the dust pouring opening 210, so that the dust cup is not completely separated from the main body 100.

In other embodiments, the dirt cup 200 and the main body 100 can be detachably connected by screw threads. Specifically, a groove (not shown) is provided on the inner peripheral wall of the dust cup 200, a protrusion is provided on the main body 100 to fit the groove, and the dust cup 200 and the main body 100 are detachably connected by the fit of the groove and the protrusion.

Host computer main part 100 still includes battery package 1000, and in order to make things convenient for the loading and unloading of dirt cup 200, be equipped with support piece 900 on the outer wall of dirt cup 200, support piece 900's one end is fixed on dirt cup 200, and the other end can be dismantled with battery package 1000 and be connected, when pouring down the ash, makes dirt cup 200 can dismantle with host computer main part 100 and be connected through rotating support piece 900. The battery pack 1000 is provided with a mounting portion 1010, one end of the mounting portion 1010 is provided with a supporting portion 1011 extending upwards, and when the dust cup 200 is connected with the main body 100, the supporting member 900 rotates to enable the supporting portion 1011 to support against the mounting portion 1010, so that the dust cup 200 is mounted on the main body 100.

The cyclone separator 1200 further comprises a cyclone cone 1210 and a metal mesh 400 connected with the cyclone cone 1210, wherein the metal mesh 400 is arranged outside the cyclone cone 1210 and has a gap with the cyclone cone 1210. The metal mesh 400 has through holes, and the metal mesh 400 is connected to the air inlet duct 300 through the through holes, so that dust and air can enter from the air inlet duct 300 and enter the cyclone separator 1200 through the through holes when the vacuum cleaner is in operation. The metal mesh 400 is a cylindrical structure, and the air inlet duct 300 extends into the metal mesh 400 along the central axis direction of the metal mesh 400. Metal mesh 400 has the periphery wall, offers a plurality of meshes that are used for the inflow on the periphery wall, and the mesh evenly sets up on the periphery wall, and the size of mesh is less, and when dirt gas passed through in the mesh gets into metal mesh 400, dust or the piece of great granule in the dirt gas are blockked outside, and dust or the piece that the relative mesh size is little enters into metal mesh 400 along with the air current in to carry out the one-level filtration to dirt gas.

The cyclone cone 1210 comprises a plurality of cones 1211, the cones 1211 are disposed near the airflow generator 1100, the plurality of cones 1211 are distributed in a circular array, each cone 1211 has an inlet (not shown) for allowing the dust gas to flow into the cone 1211 and an outlet (not shown) for allowing the dust gas to flow out after separating the dust gas, it is noted that the inlet is an inlet for allowing the dust gas to enter the cone 1211, and the outlet is an outlet for allowing the airflow after separating the dust gas in the cone 1211 to flow out of the cyclone separator 1200. Wherein the inlet communicates with the gap between the wire netting 400 and the cyclone cone 1210.

Scrape grey piece 500, be the annular and cup joint on the periphery wall of metal mesh 400, scrape the inner edge of grey piece 500 and the periphery wall interference fit of metal mesh 400, the dirt cup 200 drives and scrapes grey piece 500 and can follow the axis direction reciprocating motion of metal mesh 400 in order to realize scraping to the periphery wall, wherein, scrape grey piece 500 and have initial position and termination position, when scraping grey piece 500 and being located termination position, dirt cup 200 can with scrape grey piece 500 separation. The dust cup 200 is detachably connected to the dust scraping member 500, in this embodiment, the dust cup 200 is magnetically connected to the dust scraping member 500, specifically, the dust scraping member 500 has a connecting end 510 opposite to the dust cup 200, the dust cup 200 has a butt end 240 opposite to the dust scraping member 500, a magnetic ring (not shown) is installed on the connecting end 510, a metal member (not shown) is installed on the butt end 240, and the magnetic ring is magnetically connected to the metal member.

The metal mesh 400 has an end portion, and the end position of the dust scraping member 500 is an end of the metal mesh 400 close to the air inlet 310. The dust scraping member 500 is provided with a moving part for moving the dust scraping member 500, when the dust cup 200 drives the dust scraping member 500 to move to the end position, that is, when the metal mesh 400 is close to one end of the air inlet 310, the dust cup 200 is separated from the dust scraping member 500, and at this time, the metal mesh 400 is continuously scraped by moving the moving part on the dust scraping member 500.

The embodiment also discloses a dust collector, which comprises a dust collector main machine, wherein the dust collector main machine is provided with: a host main body 100; a dust cup 200 having a dust pouring port 210, the dust cup 200 being inserted into the main body 100 and detachably connected to the main body 100; the cyclone separator 1200 comprises a cyclone cone 1210 and a metal mesh 400 sleeved outside the cyclone cone 1210; an air inlet duct 300 connecting the outside and the cyclone separator 1200; the sealing member 1300 is disposed at a joint of the dust pouring port 210 of the dust cup 200 and the main body 100, so that a sealed cavity is formed in the dust cup 200.

Referring to fig. 1 to 6, the embodiment further discloses a main body of a vacuum cleaner, which includes a main body 100, a cyclone 1200 for separating dust and air, a dust scraping member 500 for removing dust, an air inlet duct 300 for connecting the outside to the cyclone 1200, a sealing bracket 1600 for mounting the dust scraping member 500, and a sealing member 1300. The cyclone separator 1200 includes a dust cup 200, the dust cup 200 has a dust pouring port 210, the dust cup 200 is inserted outside the main body 100, and one end of the dust cup 200 is detachably connected with the main body 100; the sealing bracket 1600 is movably arranged at one end of the dust cup 200; the dust scraping piece 500 is arranged in the sealing bracket 1600 and tensioned on the main body 100, and is used for removing dust on the main body 100; the sealing member 1300 is disposed at a junction of the dust pouring port 210 and the main body 100, so that a sealed cavity is formed in the dust cup 200. When ash is removed, the dust cup 200 is separated from the main body 100, the dust cup 200 drives the dust scraping piece 500 to move, when ash is removed, the dust cup 200 is separated from the dust scraping piece 500, and the ash is removed from the dust cup 200.

The dirt cup 200 is removably attached to the seal holder 1600. Specifically, in this embodiment, the outer wall of the dust cup 200 is provided with the supporting member 900, the main body further includes a first connecting member 930, the supporting member 900 is movably provided with a first button 910, the first connecting member 930 is hinged to the supporting member 900, one end of the first connecting member 930 is fastened to the sealing bracket 1600, the other end of the first connecting member 930 is abutted to the first button 910, and when the first button 910 is pressed, the first connecting member 930 is driven to rotate, so that the sealing bracket 1600 fastened by the fastening is released, and the dust cup 200 can freely pour dust.

The main body 100 further includes a connection shaft (not shown) and an elastic member (not shown) disposed on the connection shaft, and the sealing bracket 1600 is detachably connected to the dust cup 200 through the connection shaft. The elastic member has an initial state and a final state, the initial state is a state when the dust cup 200 is connected to the sealing bracket 1600, the final state is a state when the dust cup 200 is separated from the sealing bracket 1600, and in the initial state, the elastic member is compressed by the sealing bracket 1600 and the dust cup 200 to be in a deformed state.

The dust cup 200 is detachably connected to the main body 100. Specifically, in this embodiment, the main body further includes a second connecting member 940, the second button 920 is movably disposed on the supporting member 900, the second connecting member 940 is hinged to the supporting member 900, one end of the second connecting member 940 is connected to the main body 100 in a snap-fit manner, the other end of the second connecting member is abutted to the second button 920, and when the second button 910 is pressed, the second connecting member 940 is driven to rotate, so that the main body 100 clamped by the snap-fit is released, and the dust cup 200 drives the dust scraping member 500 to perform free ash removal.

In another embodiment, the dirt cup 200 and the main body 100 can be detachably connected by a screw. Specifically, a groove (not shown) is provided on the inner peripheral wall of the dust cup 200, a protrusion is provided on the main body 100 to fit the groove, and the dust cup 200 and the main body 100 are detachably connected by the fit of the groove and the protrusion.

In yet another embodiment, the dirt cup 200 is snap-fit to the host body 100. Specifically, a clamping groove (not shown) is formed in the inner peripheral wall of the dust cup 200, a projection (not shown) matched with the clamping groove in shape is formed in the main body 100, and the dust cup 200 is detachably connected with the main body 100 through the clamping fit of the clamping groove and the projection.

In yet another embodiment, the dirt cup 200 is magnetically coupled to the main body 100. Specifically, a magnet ring (not shown) is mounted on the main body 100, a metal member (not shown) is mounted on the dust cup 200, and the dust cup 200 and the main body 100 are detachably connected by magnetically connecting the magnet ring and the metal member.

The seal 1300 is tightened against the juncture of the intake duct 300 and the dust pouring opening and moves with the dirt cup 200 along the axis of the intake duct 300. The material of the sealing member 1300 may be plastic or rubber, and of course, the material of the sealing member 1300 may be other, which is not limited in this embodiment.

An embodiment also discloses a dust collector, including: the dust catcher main part, the dust catcher main part has: a host main body 100; the cyclone separator 1200 comprises a cyclone cone 1210 and a metal mesh 400 sleeved outside the cyclone cone 1210; an air inlet duct 300 connecting the outside and the cyclone separator 1200; a dust cup 200 having a dust pouring port 210, the dust cup 200 being disposed outside the air inlet passage 300 and the cyclone 1200 for collecting dust separated from the cyclone 1200; a sealing bracket 1600 movably disposed at one end of the dirt cup 200; the dust scraping member 500 is arranged in the sealing bracket 1600 and tensioned on the main body 100 of the main body of the main; a sealing member 1300 disposed at a joint of the dust pouring port 210 of the dust cup 200 and the main body 100; a handle 800 fixed to the main body 100 for supporting the main body 100; an airflow generator 1100 located at the rear of the main body 100; a battery pack 1000, secured to the handle 800, for providing power to the cleaner.

Referring to fig. 1 to 6, the embodiment further discloses a main body of a vacuum cleaner, which includes a main body 100, an airflow generator 1100 disposed in the main body 100, a cyclone 1200 for separating dust from air, a dust scraping member 500 for removing dust, and an air inlet duct 300 connecting the outside and the cyclone 1200. The air inlet pipe 300 is provided with an air inlet 310, the cyclone separator 1200 comprises a dust cup 200, the dust cup 200 is sleeved outside the cyclone separator 1200, when the dust collector works, the airflow generator 1100 is started, dust air enters the cyclone separator 1200 through the air inlet 310 of the air inlet pipe 300, under the action of the cyclone separator 1200, dust is separated from air, the dust falls into the dust cup 200, and the separated air is discharged out of the main body 100, so that the dust collection cleaning operation of the dust collector is realized, when dust needs to be poured, the dust cup 200 can be taken down from the main body 100, and the dust cup 200 is cleaned independently.

The air inlet duct 300 has a distal end (not shown) opposite to the air inlet 310, and the distal end penetrates into the cyclone separator 1200 to be connected to the cyclone separator 1200, so that the external dust and air can be introduced into the cyclone separator 1200 from the air inlet duct 300.

The cyclone separator 1200 further comprises a cyclone cone 1210 and a metal mesh 400 connected with the cyclone cone 1210, wherein the metal mesh 400 is arranged outside the cyclone cone 1210 and has a gap with the cyclone cone 1210. The metal mesh 400 has through holes, and the metal mesh 400 is connected to the air inlet duct 300 through the through holes, so that dust and air can enter from the air inlet duct 300 and enter the cyclone separator 1200 through the through holes when the vacuum cleaner is in operation. The metal mesh 400 is a cylindrical structure, and the air inlet duct 300 extends into the metal mesh 400 along the central axis direction of the metal mesh 400. Metal mesh 400 has the periphery wall, offers a plurality of meshes that are used for the inflow on the periphery wall, and the mesh evenly sets up on the periphery wall, and the size of mesh is less, and when dirt gas passed through in the mesh gets into metal mesh 400, dust or the piece of great granule in the dirt gas are blockked outside, and dust or the piece that the relative mesh size is little enters into metal mesh 400 along with the air current in to carry out the one-level filtration to dirt gas.

The cyclone cone 1210 comprises a plurality of cones 1211, the cones 1211 are disposed near the airflow generator 1100, the plurality of cones 1211 are distributed in a circular array, each cone 1211 has an inlet (not shown) for allowing the dust gas to flow into the cone 1211 and an outlet (not shown) for allowing the dust gas to flow out after separating the dust gas, it is noted that the inlet is an inlet for allowing the dust gas to enter the cone 1211, and the outlet is an outlet for allowing the airflow after separating the dust gas in the cone 1211 to flow out of the cyclone separator 1200. Wherein the inlet communicates with the gap between the wire netting 400 and the cyclone cone 1210.

The dust cup 200 is detachably connected to the main body 100. In this embodiment, the dust cup 200 is detachably connected to the main body 100 in a rotating manner, and the air inlet direction of the air inlet duct 300 is perpendicular to the rotation plane of the dust cup 200. Specifically, the main body 100 includes a handle 800 and a battery pack 1000, the dirt cup 200 includes a support 900, one end of the support 900 is fixed to the dirt cup 200, and the other end is detachably connected to the battery pack 1000, so that the dirt cup 200 is separated from the main body 100 by rotating the support 900 when dust is poured. The battery pack 1000 is provided with a mounting portion 1010, one end of the mounting portion 1010 is provided with a supporting portion 1011 extending upwards, and when the dust cup 200 is connected with the main body 100, the supporting member 900 rotates to enable the supporting portion 1011 to support against the mounting portion 1010, so that the dust cup 200 is mounted on the main body 100.

Of course, in other embodiments, the dust cup 200 can be detachably connected to the main body 100 in other ways. For example, a groove (not shown) is provided on the inner peripheral wall of the dust cup 200, a protrusion (not shown) matching with the groove is provided on the main body 100, and the dust cup 200 is screwed with the main body 100; alternatively, the dust cup 200 is fitted to the main body 100 by interference, and a pull rod (not shown) is provided on an outer surface of the dust cup 200, so that the dust cup 200 is detachably connected to the main body 100 by the pull rod.

The dust cup 200 further comprises a housing 220 and a dust collecting chamber 230, the housing 220 and the end side wall of the air inlet duct 300 are enclosed to form the dust collecting chamber 230, the dust collecting chamber 230 surrounds the periphery of the air inlet duct 300, after the dust air is primarily filtered by the metal mesh 400, the dust or debris with larger volume in the dust air is primarily separated, and the dust or debris with larger volume falls into the dust collecting chamber 230. The dust air after the primary filtration enters the cyclone cone 1210, and the secondary filtration is performed in the cyclone cone 1210, at this time, under the action of centrifugal force, the dust air is finer, and smaller dust or debris can be separated and fall into the dust collection chamber 230. The dust gas is filtered for many times by the cyclone 1200, effectively improving the filtering effect.

Scrape grey piece 500, be the annular and cup joint on the periphery wall of metal mesh 400, scrape the inner edge of grey piece 500 and the periphery wall interference fit of metal mesh 400, the dirt cup 200 drives and scrapes grey piece 500 and can follow the axis direction reciprocating motion of metal mesh 400 in order to realize scraping to the periphery wall, wherein, scrape grey piece 500 and have initial position and termination position, when scraping grey piece 500 and being located termination position, dirt cup 200 can with scrape grey piece 500 separation. The dust cup 200 is detachably connected to the dust scraping member 500, in this embodiment, the dust cup 200 is magnetically connected to the dust scraping member 500, specifically, the dust scraping member 500 has a connecting end 510 opposite to the dust cup 200, the dust cup 200 has a butt end 240 opposite to the dust scraping member 500, a magnetic ring (not shown) is installed on the connecting end 510, a metal member (not shown) is installed on the butt end 240, and the magnetic ring is magnetically connected to the metal member.

In another embodiment, the magnetic connection between the dirt cup 200 and the dust scraping member 500 can be further defined as follows: a plurality of magnetic members (not shown) are mounted on the connecting end 510 of the dust scraping member 500, metal members with the same number as the magnetic members are mounted on the butt end 240 of the dust cup 200, the dust cup 200 is of a cylindrical structure, the magnetic members are uniformly distributed on the connecting end 510 around the central axis of the dust scraping member 500, the metal members are uniformly distributed on the butt end 240 around the central axis of the dust cup 200, the magnetic members are magnetically connected with the metal members, and when the dust cup 200 is connected with the dust scraping member 500, the magnetic members are one-to-one opposite to the metal members.

In yet another embodiment, the dirt cup 200 has an interference fit with the scraper 500. A pull rod is arranged on the outer surface of the dust cup 200, and the dust cup 200 is detachably connected with the dust scraping piece 500 through the pull rod.

The metal mesh 400 has an end portion, and the end position of the dust scraping member 500 is an end of the metal mesh 400 close to the air inlet 310. The dust scraping member 500 is provided with a moving part for moving the dust scraping member 500, when the dust cup 200 drives the dust scraping member 500 to move to the end position, that is, when the metal mesh 400 is close to one end of the air inlet 310, the dust cup 200 is separated from the dust scraping member 500, and at this time, the metal mesh 400 is continuously scraped by moving the moving part on the dust scraping member 500.

Referring to fig. 1 to 6, the embodiment further discloses a main body of a vacuum cleaner, which includes a main body 100, a cyclone 1200 for separating dust and air, a dust scraping member 500 for removing dust, and an air inlet duct 300 connecting the outside and the cyclone 1200. The air inlet duct 300 is connected to the main body 100, the air inlet duct 300 having an outer sidewall; the cyclone separator 1200 includes a dust cup 200, the dust cup 200 is movably connected to the main body 100, the dust cup 200 has a dust pouring port 210 at a front end thereof, and an axis of the air inlet duct 300 passes through the dust pouring port 210. Wherein the dirt cup 200 is movable along the axial direction of the air inlet duct 300 between a first position in which the dirt pouring outlet 210 is sealed from the air inlet duct 300 to allow dirt to be received between the dirt cup 200 and the outer side wall, and a second position in which the air inlet duct 300 is separated from the dirt pouring outlet 210 to allow dirt to be poured from the dirt pouring outlet 210 during movement of the dirt cup 200 away from the first position to the second position.

The air inlet duct 300 includes an air inlet opening 310 that is remote from the main body 100. in one example, when the dirt cup 200 is in the first position, an end wall of the air inlet opening 310 is substantially flush with the dust dumping opening 210 or an end wall of the air inlet opening 310 extends through the dust dumping opening 210, and the dust dumping opening 210 is sealed to an outer side wall of the air inlet duct 300.

In another example, when the dirt cup 200 is in the first position, the end wall of the intake vent 310 is located inside the dust pouring port 210, and the end wall of the intake vent 310 is sealed against the inner wall of the dirt cup 200.

The dirt cup 200 further includes a dirt cup body 220 and a transition portion 230 located between the dirt cup body 220 and the dirt pouring opening 210, wherein the inner diameter of the dirt cup body 220 is smaller than the inner diameter of the dirt cup body 210, so that a dust collection chamber 230 for containing dust is formed between the dirt cup 200 and the air inlet duct 300. In this embodiment, the transition portion 230 is a smooth transition, the main body 220 is a cylindrical structure, and the transition portion 230 is a conical structure. Of course, in other embodiments, the shapes of the dust cup body 220 and the transition portion 230 may be other, and this embodiment does not limit this.

The cyclone separator 1200 further includes a cyclone cone 1210 and a metal mesh 400 connected to the cyclone cone 1210, wherein the metal mesh 400 is disposed outside the cyclone cone 1210 and at least a portion of the air inlet duct 300 and has a gap with the cyclone cone 1210. The metal mesh 400 has through holes, and the metal mesh 400 is connected to the air inlet duct 300 through the through holes, so that dust and air can enter from the air inlet duct 300 and enter the cyclone separator 1200 through the through holes when the vacuum cleaner is in operation. The metal mesh 400 is a cylindrical structure, and the air inlet duct 300 extends into the metal mesh 400 along the central axis direction of the metal mesh 400. Metal mesh 400 has the periphery wall, offers a plurality of meshes that are used for the inflow on the periphery wall, and the mesh evenly sets up on the periphery wall, and the size of mesh is less, and when dirt gas passed through in the mesh gets into metal mesh 400, dust or the piece of great granule in the dirt gas are blockked outside, and dust or the piece that the relative mesh size is little enters into metal mesh 400 along with the air current in to carry out the one-level filtration to dirt gas.

The cyclone cone 1210 comprises a plurality of cones 1211, the cones 1211 are disposed near the airflow generator 1100, the plurality of cones 1211 are distributed in a circular array, each cone 1211 has an inlet (not shown) for allowing the dust gas to flow into the cone 1211 and an outlet (not shown) for allowing the dust gas to flow out after separating the dust gas, it is noted that the inlet is an inlet for allowing the dust gas to enter the cone 1211, and the outlet is an outlet for allowing the airflow after separating the dust gas in the cone 1211 to flow out of the cyclone separator 1200. Wherein the inlet communicates with the gap between the wire netting 400 and the cyclone cone 1210.

The dust scraping piece 500 is movably sleeved on the outer side of the air inlet pipeline 300, and the outer edge of the dust scraping piece 500 is in interference fit with the inner wall of the dust cup 200 to scrape dust on the inner wall of the dust cup 200. The dust scraping piece 500 is annularly sleeved on the outer peripheral wall of the metal mesh 400, the inner edge of the dust scraping piece 500 is in interference fit with the outer peripheral wall of the metal mesh 400, and the dust cup 200 drives the dust scraping piece 500 to reciprocate outside the metal mesh 400 along the axial direction of the metal mesh 400 so as to scrape dust outside the metal mesh 400.

In order to better scrape off the dust on the inner wall of the dust cup 200, the periphery of the dust scraping member 500 is further fixedly surrounded by a ring of flexible wool tops (not shown), and the flexible wool tops are flexibly abutted and contacted with the inner wall of the dust cup 200.

Compared with the prior art, the utility model has the following beneficial effects: the dust collector host and the dust collector have simple structures and reasonable design, the dust cup with the opening 201 at the end part is adopted for accommodating and dumping dirt, the dust adhered to the wall of the dust cup is scraped by the dust scraping piece, and the dirt is dumped from the opening 201 after the dust cup is thoroughly cleaned, so that the dirt dumping work of the dust collector is simply and efficiently realized, the dirt cannot be left in the dust cup, the cleanness of the dust collector is kept, and the user experience is greatly improved.

In light of the foregoing description of the preferred embodiments according to the present application, it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the utility model. The technical scope of the present application is not limited to the contents of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A main body of a vacuum cleaner, comprising:

a host body;

the dust cup is internally provided with a space for containing dirt and comprises a front end with an opening (201), and the rear end of the dust cup is connected with the main machine body;

the air inlet pipeline penetrates through the dust cup from an opening (201) of the dust cup and is fixed with the main machine body;

the metal net is sleeved at least partially outside the air inlet pipeline;

scrape grey spare, it is cyclic annular and portable cover to scrape grey spare and establish the metal mesh outside, scrape grey spare outer fringe with dirt cup inner wall interference fit, scrape grey spare edge the metal mesh outside removes, strikes off the dust of dirt cup inner wall.

2. The main vacuum cleaner as claimed in claim 1, wherein the inner edge of the dust scraper is in interference fit with the metal mesh to scrape off dust on the outer side of the metal mesh.

3. The vacuum cleaner of claim 1, wherein the outer edge of the dust scraper is tapered, and the tip of the taper abuts against the inner wall of the dirt cup.

4. The vacuum cleaner of claim 2, wherein the inner edge and the outer edge of the dust scraping member are both conical, the tip of the conical inner edge abuts against the metal mesh, and the tip of the conical outer edge abuts against the inner wall of the dust cup.

5. The vacuum cleaner as claimed in claim 1, wherein the dust scraping member is made of rubber.

6. The vacuum cleaner as claimed in claim 1, wherein the outer diameter of the dust scraping member is larger than the outer diameter of the air inlet duct.

7. The main vacuum cleaner as claimed in claim 1, wherein the dust scraping member has a moving state and a static state, and the dust scraping member is located at an end of the metal mesh closest to or far from the air inlet of the air inlet duct when the dust scraping member is static.

8. The main vacuum cleaner of claim 1, wherein the path of the dust scraping member is from the rear end to the front end or from the front end to the rear end of the dust cup.

9. The main unit of a vacuum cleaner as claimed in claim 1, further comprising a push rod, wherein one end of the push rod is fixed to the dust scraping member, the other end of the push rod extends out of the main unit, and the push rod is pushed by a hand to drive the dust scraping member to move.

10. A vacuum cleaner, comprising a cleaner main body and a suction head for sucking dirt, wherein the cleaner main body comprises:

a host body;

the dust cup is internally provided with a space for containing dirt and comprises a front end with an opening (201), and the rear end of the dust cup is connected with the main machine body;

the air inlet pipeline penetrates through the dust cup from an opening (201) of the dust cup and is fixed with the main machine body;

the metal net is sleeved at least partially outside the air inlet pipeline;

the dust scraping piece is annular and movably sleeved on the outer side of the metal net, the outer edge of the dust scraping piece is in interference fit with the inner wall of the dust cup, and the dust scraping piece moves along the outer side of the metal net to scrape dust on the inner wall of the dust cup;

the fan provides suction force and is communicated with the air outlet of the air inlet pipeline;

the suction head is communicated with an air inlet of the air inlet pipeline.

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