Dual-purpose robot dust catcher is swept in suction
Technical field
The utility model relates to robot cleaner, relate in particular to dual-purpose robot dust catcher, this robot cleaner can be by the main sweeping larger rubbish that rises or upspring, and suck dustbin, cancel main brush with passing through, cover main brush cover plate, suction inlet is diminished, add strong suction, in the situation that dereliction is brushed, suck in these two kinds of working methods of ground rubbish and dust and exchange.
Background technology
Existing robot cleaner comprises body of dust collector, and body of dust collector comprises dust absorption passage, main brush and dust storage chamber.Dust absorption passage has suction inlet and is communicated with the suction outlet of described dust storage chamber.Described main brush is assemblied in described suction inlet, is used for having swept or having beaten rubbish and/or the dust of loose ground face.The shortcoming of this robot cleaner is that manufacturing cost is high, and power consumption is relatively large, and in the process of sweeping, the time has been grown has certain damage to floor.
Also have at present another kind of robot cleaner to be with the difference of above-mentioned dust catcher: described main brush is not set and comprises side brush and the garbage shaft mating with side brush.In use, mainly by one or two side brushes, the rubbish on ground is swept towards the garbage inlet direction of garbage shaft, utilized garbage inlet to suck dust and/or rubbish.The shortcoming of this robot cleaner is the less of garbage inlet design, just can guarantee suction, and still, some large rubbish just cannot suck, and same, more firm rubbish and/or the dust be stained with are on the ground not easy to be inhaled into.
Summary of the invention
The problem that the utility model solves is the problem that robot cleaner power consumption robot cleaner large and design side brush that main brush is set cannot suck large rubbish.
For addressing the above problem, the utility model provides a kind of dual-purpose robot dust catcher, comprise body of dust collector, main brush and dust storage chamber, this body of dust collector comprises dust absorption passage, this dust absorption passage has suction inlet and is communicated with the suction outlet of described dust storage chamber, robot cleaner also comprises wind guiding component, described wind guiding component inside has garbage shaft, one end of described wind guiding component has the closure part for the suction inlet described in shutoff, the other end has the garbage outlet that is communicated with described dust storage chamber, on described closure part, offer the garbage inlet that is communicated with described garbage shaft, the bore of described garbage inlet is less than the bore of described suction inlet, described wind guiding component and described main brush are selected one and are assemblied on described body of dust collector, when described main brush is assemblied on described body of dust collector, described main brush is arranged on described suction inlet place, described suction inlet, dust absorption passage, suction outlet, dust storage chamber are communicated with successively, and ground rubbish to be cleaned is sucked into described dust absorption passage and enters described dust storage chamber by described suction outlet by the suction inlet from described, when described wind guiding component is assemblied in described main body of dust collector, described wind guiding component is arranged between described suction inlet and dust storage chamber, described suction inlet is by the closure part shutoff of described wind guiding component, described wind guiding component is positioned at described dust absorption passage or passes from described dust absorption passage inside, described garbage inlet, garbage shaft, garbage outlet, dust storage chamber are communicated with successively, and ground rubbish to be cleaned is sucked into described garbage shaft and enters described dust storage chamber by described garbage outlet by the garbage inlet from described.
As a kind of improvement project, described wind guiding component comprises main brush cover plate and air guiding component, and wherein, described main brush cover plate forms described closure part, and described main brush cover plate apparent surface is run through and formed described garbage inlet; The described garbage shaft of the inner formation of described air guiding component.
As a kind of improvement project, described garbage shaft is straight passage.
As a kind of improvement project, the T-shaped structure of described air guiding component, comprise a component body and a plate, it is inner that described garbage shaft is formed at described component body, described garbage outlet is arranged on described connecting plate, when described wind guiding component is assemblied in described main body of dust collector, described connecting plate is by described dust storage chamber and described dust absorption passage partition, and described garbage shaft is connected by described garbage outlet with described dust storage chamber.
As a kind of improvement project, the bottom of described body of dust collector is provided with an offside brush, and a pair of described side brush is positioned at the relative both sides of suction inlet.
Compared with prior art, the utlity model has following advantage:
The utility model is due to design wind guiding component, this wind guiding component and described main brush are selected one the described body of dust collector that is assemblied in, like this, user is when the large rubbish of cleaning and/or dust, the main brush of fit on, the rubbish being entered by main sweeping enters described dust storage chamber from described suction inlet through dust absorption passage, when the little rubbish of cleaning and/or dust, disassemble main brush and suction inlet described in the shutoff of fit on wind guiding component, rubbish enters dust storage chamber from garbage inlet through described garbage shaft, so, can brush these two kinds of modes at main brush and dereliction freely changes, robot cleaner power consumption is few, and, also can clean large rubbish and dust, realize the object of the economical and efficient of dual-use simultaneously
Accompanying drawing explanation
Fig. 1 is the schematic diagram that the main brush of the utility model dual-purpose robot dust catcher takes out from body of dust collector;
Fig. 2 is the schematic diagram that the wind guiding component of the utility model dual-purpose robot dust catcher is assemblied in body of dust collector;
Fig. 3 is the schematic diagram after the wind guiding component of the utility model dual-purpose robot dust catcher has assembled, and shows the state of garbage inlet;
Fig. 4 be after the wind guiding component of the utility model dual-purpose robot dust catcher has assembled in the schematic diagram of another kind of state, show the state of air guiding component.
Wherein, 1, body of dust collector; 2, main brush; 4, side brush; 5, wind guiding component; 11, suction inlet; 5, wind guiding component; 51, air guiding component; 52, main brush cover plate; 511, garbage shaft; 5111, garbage inlet; 512, component body; 513, connecting plate; 5112, garbage outlet.
The specific embodiment
By describing technology contents of the present utility model, structural feature in detail, being reached object and effect, below in conjunction with embodiment and coordinate accompanying drawing to be described in detail.
Technical staff of the present utility model finds in research and development robot cleaner process: the robot cleaner of main brush is set because always adopt main brush cleaning rubbish and/or dust, thereby, make robot cleaner power consumption very large; And adopt side brush cleaning rubbish and/or dust, because of garbage inlet design little, cannot absorb large rubbish and/or dust.In order to address this problem, technical staff is through thinking, the garbage shaft that main brush and corresponding dust absorption passage and wind guiding component form is set on existing body of dust collector, Bing Shi winner brush is connected body of dust collector with the equal detachable of wind guiding component, use is freely selected or replaced to the situations such as user can select the main brush cleaning of one selection or the cleaning of dereliction brush side brush according to actual needs, and rubbish size that robot cleaner can will clean according to user is how many.Below, to realizing the robot cleaner of above-mentioned functions, elaborate.
Refer to Fig. 1 to Fig. 4, the utility model comprises body of dust collector 1, main brush 2, inner dust-collecting box (not shown), side brush 4 and the wind guiding component 5 that forms dust storage chamber.Body of dust collector 1 inside has dust absorption passage (not shown), and this dust absorption passage has the suction inlet 11 that is positioned at robot cleaner lower bottom part and the suction outlet (not shown) that is communicated with dust storage chamber.Main brush 2 detachables are assemblied in suction inlet 11, detachable assembling herein refers to that this main brush 2 can be from suction inlet 11 dismountings of body of dust collector 1 when not needing to use, in use, can be assemblied in suction inlet 11 places, like this, by the rubbish of main brush 2 cleanings, can through dust absorption passage, via suction outlet, be entered in dust storage chamber again from suction inlet 11.The structure that main brush 2 is assemblied in to suction inlet 11 can adopt any structure of the prior art.Side brush 4 is assemblied in body of dust collector 1, in the present embodiment, in order well to utilize the space of body of dust collector 1, also better rubbish and/or dust is sucked in dust storage chamber, and side brush 4 has two and be positioned at the relative both sides of suction inlet 11.
Refer to Fig. 2 to Fig. 4, wind guiding component 5 comprises air guiding component 51 and main brush cover plate 52, main brush cover plate 52 forms has the closure part for shutoff suction inlet 11, main brush cover plate 52 apparent surfaces are run through and are formed a garbage inlet 5111, the bore of garbage inlet 5111 is less than the bore of suction inlet 11, in the situation that possessing garbage inlet 5111, the part of this main brush cover plate 51 except garbage inlet 5111 can be thought in described closure part, the inner garbage shaft 511 that forms of air guiding component 51, its end has garbage outlet 5112, garbage inlet 5111 and garbage outlet 5112 are all connected with garbage shaft 511.In the present embodiment, air guiding component 51 consists of a component body 512 and a plate 513, connecting plate 513 is positioned at an end of component body 512 and is wholely set with component body 512, component body 512 and connecting plate 513 form the air guiding component 51 of T-shaped structure, garbage shaft 511 is formed at the inside of component body 512, garbage shaft 511 is straight passage, and garbage outlet 5112 is arranged on connecting plate, and garbage shaft 511 is connected with garbage outlet 5112.
Wind guiding component 5 is selected one with main brush 2 and is assemblied on body of dust collector 1, makes robot cleaner form two kinds of mode of operations.Being described as follows of two kinds of mode of operations wherein:
The first mode of operation, main brush 2 is assemblied in the mode of operation on body of dust collector 1.Under this pattern, main brush 2 is arranged on suction inlet 11 places, and specifically referring to shown in Fig. 1, after installation, suction inlet 11, dust absorption passage, suction outlet, dust storage chamber are communicated with successively.After the people that starts the machine, main brush 2 and side are brushed 4 actings in conjunction, by ground grey dust devil to be cleaned, to suction inlet 11, ground rubbish to be cleaned and the rubbish of being rolled by two brushes are sucked into dust absorption passage from suction inlet 11 and are entered in dust storage chamber by suction outlet.
The second mode of operation, be that wind guiding component 5 is assemblied in the mode of operation on body of dust collector 1, under this pattern, main brush 2 is removed from main body of dust collector 1, wind guiding component 5 is arranged between suction inlet 11 and dust storage chamber, be specially: main brush cover plate 52 is arranged on suction inlet 11 positions, the component body 512 of air guiding component 51 is arranged in dust absorption passage, and connecting plate 513 is adjacent to mutually with dust-collecting box.Now, main brush cover plate 52 is by suction inlet 11 shutoff, and connecting plate 513 separates dust storage chamber and dust absorption passage, and garbage inlet 5111, garbage shaft 511, garbage outlet 5112, dust storage chamber are communicated with successively.Ground rubbish to be cleaned and be sucked into garbage shaft 511 and enter dust storage chamber by garbage outlet 5112 from garbage inlet 5111 by side brush 4 rubbish of rolling.
In above-mentioned the second mode of operation, because the bore of garbage inlet 5111 is less than the bore of suction inlet 11, make when utilizing wind guiding component 5 work, rubbish suction inlet 5111 has enough suction.In order to make the path of garbage shaft 511 short and guarantee very large suction, the element body of air guiding component 51 5111 is arranged in air-suction channel, the cross-sectional area of garbage shaft is little by the cross-sectional area than air-suction channel like this, also can make robot to the dust flow path between dust storage chamber, have all the time stronger pull of vacuum from garbage inlet 5111 simultaneously.
In sum, the utility model dual-purpose robot dust catcher when absorbing large dust and/or rubbish, by main brush 2 be assemblied in suction inlet 11Er Shi winner brush 2 and side brush 4 rubbish of suction and/or dust are only entered to dust storage chamber from suction inlet 11 through dust absorption passage; After main brush 2 is removed, wind guiding component 5 is assemblied in after body of dust collector 1, the rubbish that sucked by side brush 4 and/dust or the rubbish that directly picks up from ground only enters dust storage chamber from garbage inlet 5111 through garbage shafts, thereby, can freely change at " main brush volume ash " and " little suction inlet is directly inhaled ash " these two kinds of mode of operations, robot cleaner power consumption is few, and, also can clean large rubbish and dust, reach the object of effective cleaning.