CN209107179U - Dust catcher - Google Patents

Abstract

The utility model discloses a kind of dust catcher, including body, body is equipped with cleaning vacuum plant and auxiliary dust extractor, cleaning vacuum plant includes main air duct, assisting dust extractor includes auxiliary air duct, assist the one end in air duct that auxilairy air intake is set, the other end and main air duct are in fluid communication, assisting dust extractor further includes the first valve module, first valve module is at least partially arranged at unlatching/closure that auxiliary air duct is controlled in auxiliary air duct, and auxiliary dust extractor includes at least first state and the second state；Dust catcher further includes obstacle determination component, and whether obstacle determination component is for detecting or judging dust catcher close to barrier, and obstacle determination component is generated close to when the response of barrier, and auxiliary dust extractor is switched to the second state；First state, valve module blocks auxiliary air duct, so that auxilairy air intake and cleaning vacuum plant fluid isolation；Second state, valve module is driven unlatching auxiliary air duct, so that auxilairy air intake and cleaning vacuum plant are in fluid communication.

Description

Dust catcher

Technical field

The utility model belongs to technical field of dust absorption, and in particular to a kind of dust catcher.

Background technique

Robot cleaner collects clast usually using rotating brush and/or towards the vacuum pneumatic of dust-collecting box, and passes through The step counting system of operation control wheel group, with this come adjust host cleaning orientation and corresponding cleaning mode.

It is limited to the volume of robot cleaner, when moving to corner location, there are certain intervals with corner for host, make It is not easy at corner clean.Cleaning range can be increased by the improvement that side is brushed, hoisting machine people dust suction to a certain extent The performance that device corner cleans, but the cleaning effect of side brush is limited.

Utility model content

The purpose of this utility model is to provide one kind can be realized efficient corner it is clean have auxiliary dust suction mould The dust catcher of block.

To realize above-mentioned purpose of utility model, the utility model provides a kind of dust catcher, including body, and the body is equipped with Cleaning vacuum plant,

The body is additionally provided with auxiliary dust extractor, and the cleaning vacuum plant includes main air duct, the auxiliary dust suction mould Block includes the auxiliary air duct for connecting the main air duct, and auxilairy air intake, the opposite other end is arranged in the one end in the auxiliary air duct It is in fluid communication with the main air duct,

The auxiliary dust extractor further includes the first valve module, and first valve module is at least partially arranged at auxiliary air duct Interior unlatching/closure to control the auxiliary air duct, the auxiliary dust extractor include at least first state and the second state；Institute Stating dust catcher further includes obstacle determination component, and whether the obstacle determination component is for detecting or judging dust catcher close to obstacle Object, the obstacle determination component are generated close to when the response of barrier, and the auxiliary dust extractor is switched to the second state；

First state, first valve module blocks auxiliary air duct, so that the auxilairy air intake and cleaning vacuum plant Fluid isolation；Second state, the first valve module, which is driven, opens the auxiliary air duct, so that the auxilairy air intake and vacuum cleaning Device is in fluid communication.

As the further improvement of one embodiment of the utility model, the obstacle determination component includes collision element, institute When stating collision element by environmental pressure, the obstacle determination component generates the movement auxiliary dust extractor close to barrier It is switched to the second state.

As the further improvement of one embodiment of the utility model, the collision element has free end and opposite company Connect end, the free end protrudes out the body, and the connecting pin and the first valve module are mechanically connected, the collision element by The first valve module can be driven to generate the movement for opening auxiliary air duct when environmental pressure.

As the further improvement of one embodiment of the utility model, first valve module includes described in opening/closure The closeouts in air duct are assisted, the connecting pin of the collision element is fixed or links with the closeouts.

As the further improvement of one embodiment of the utility model, the obstacle determination component further includes resetting-mechanism, The resetting-mechanism is abutted against with first valve module, and the resetting-mechanism provides and the environment first valve module The opposite reset force of pressure.

As the further improvement of one embodiment of the utility model, the resetting-mechanism includes damping mechanism, and described The time in the auxiliary air duct is greater than one valve module from blocking to opening under the action of the damping mechanism or speed is less than Time or speed required for the auxiliary air duct from blocking to opening.

As the further improvement of one embodiment of the utility model, auxiliary wind can opened and blocked to the first valve module Moved between two positions in road, the movement frictional force that is subject to of first valve module from blocking unlatching be greater than its from closure to The frictional force that the movement of unlatching is subject to.

As the further improvement of one embodiment of the utility model, the obstacle determination component includes sensor, described When sensor perceives obstacle, the obstacle determination component generates the open signal of first valve module, the auxiliary dust suction Module is switched to the second state.

As the further improvement of one embodiment of the utility model, the dust catcher further includes being electrically connected with sensor Control module, the auxiliary dust extractor further includes the driving mechanism for being electrically connected the control module, the driving mechanism band It moves first valve module and opens/block the auxiliary air duct, the control module controls institute according to the signal of the sensor State driving mechanism.

As the further improvement of one embodiment of the utility model, the dust catcher, which has, positions determining for its real time position Position module and map memory module, the obstacle determination component is determined according to the comparing result of real time position and the map of preservation inhales Dirt device at a distance from barrier,

The obstacle determination component includes judging unit and storage unit, the storage unit include at least a threshold value away from From, when the judging unit determines that machine is less than or equal to the threshold distance at a distance from barrier, the obstacle judgement group Part generates the open signal of first valve module, and the auxiliary dust extractor is switched to the second state.

As the further improvement of one embodiment of the utility model, the dust catcher is set with time threshold, the barrier Determination component is hindered not generate the first new valve module in the time threshold after the open signal for generating first valve module Open signal, then the obstacle determination component generates the closure signal of first valve module, the auxiliary dust extractor switching For first state.

As the further improvement of one embodiment of the utility model, the body includes pedestal and covers at pedestal Upper cover, along the direction of travel of the dust catcher, the auxilairy air intake is set to the pan frontward end and towards to be cleanedly Face opens up.

As the further improvement of one embodiment of the utility model, the dust catcher has the front in rectangle, described Auxilairy air intake is set at least one corner of rectangular base front end.

As the further improvement of one embodiment of the utility model, dust catcher has cleaning unit, the additional-air inlet Mouth is set to the front side of cleaning unit and is located at the cleaning unit along the left and right sides that the direction of travel projects.

As the further improvement of one embodiment of the utility model, dust catcher has cleaning unit, the additional-air inlet Outlet structure is "-" type or L-type.

One end of main air duct is arranged suction inlet, and main air duct is arranged the second valve module, and when original state, the second valve module is opened Main air duct, so that suction inlet and main air duct are in fluid communication；When working condition, the second valve module blocks main air duct, so that suction inlet With main air duct fluid isolation.

Compared with prior art, auxiliary dust extractor is arranged in the utility model on robot cleaner, passes through chassis side The auxilairy air intake air inlet of mouth setting, when robot cleaner feels corner, control auxilairy air intake is opened, and realizes room side Cleaning at angle.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of the utility model robot cleaner；

Fig. 2 is the explosive view of one embodiment of the utility model robot cleaner；

Fig. 3 is the agent structure schematic diagram of one embodiment of the utility model robot cleaner；

Fig. 4 is the main body top view of one embodiment original state of the utility model robot cleaner；

Fig. 5 is cross-sectional view of the Fig. 4 along the direction A-A；

Fig. 6 is the main body top view of one embodiment working condition of the utility model robot cleaner；

Fig. 7 is cross-sectional view of the Fig. 6 along the direction B-B；

Fig. 8 is the schematic diagram of the arrangement mode of the auxiliary suction inlet of the utility model robot cleaner；

Fig. 9 is the schematic diagram of another arrangement mode of the auxiliary suction inlet of the utility model robot cleaner；

The schematic diagram of another arrangement mode of the auxiliary suction inlet of Figure 10 the utility model robot cleaner；

Figure 11 is the structural schematic diagram of the another embodiment of the utility model robot cleaner；

Figure 12 is the agent structure schematic diagram of the another embodiment of the utility model robot cleaner；

Figure 13 is the main structure bottom view of the another embodiment of the utility model robot cleaner；

Figure 14 is the explosive view of the another embodiment of the utility model robot cleaner；

Figure 15 is the main body top view of the another embodiment original state of the utility model robot cleaner；

Figure 16 is cross-sectional view of the Figure 15 along the direction C-C；

Figure 17 is the main body top view of the another embodiment working condition of the utility model robot cleaner；

Figure 18 is cross-sectional view of the Figure 17 along the direction D-D.

Specific embodiment

The utility model is described in detail below with reference to specific embodiment shown in the drawings.But these embodiment party Formula is not intended to limit the utility model, structure that those skilled in the art are made according to these embodiments, method or Transformation functionally is all contained in the protection scope of the utility model.

Join Fig. 1 to Fig. 5, robot cleaner has body, and body includes shell 10 and main body, and shell 10 removably covers In main body.Main body includes chassis, dust-collecting box 20 is arranged on chassis, to collect dust and clast.Main body also sets up idler wheel, Including front wheel 31 and rear roller 32, it is intervally arranged between idler wheel.Cleaning vacuum plant set on main body passes through 31 He of front wheel Dust and clast can be drawn to by the suction inlet air inlet between rear roller 32, generated pull of vacuum from the environment below main body In the dust-collecting box 20 of robot cleaner.Cleaning vacuum plant includes motor 40, impeller 50 and connection impeller and suction inlet Main air duct 60.Impeller 50 is set to dust-collecting box exit, and motor 40 drives impeller 50 to rotate, to generate pull of vacuum.

Join Fig. 2 to Fig. 7, in an embodiment of the utility model, setting auxiliary dust extractor, clear for corner in main body It is clean.Specifically, auxiliary dust extractor includes the push rod 110 of a rigidity for being set to main body, and push rod 110 is with free end and relatively Connecting pin.One opening of front end face setting of shell 10, the free end of push rod 110 protrudes out shell 10 from the opening forwards Front end face makes free end be located at the front end of robot cleaner.When robot cleaner movement, the free end of push rod 110 The barrier in front can be touched at first.

The connecting pin of push rod 110 connects valve module 120,120 part of valve module be located in auxiliary air duct and with assist air duct 130 shape of air port cooperation, for blocking the air port 130.Valve module 120 is connected with elastic component 140, so that valve module 120 The position for blocking air port 130 is maintained at by elastic force.Wherein, 140 one end of elastic component is connected to valve module 120, opposite other end It is connected to top plate 150.Top plate 150 is fixed in main body, make elastic component 140 can top plate 150 limit in the range of linear extendible. When push rod 110 collides barrier, when by environmental pressure from barrier, power is conducted to elasticity by valve module 120 Part 140,140 forced compression of elastic component open air port 130 so that valve module 120 be made to be displaced to the direction far from air port 130, In, valve module 120 is moved along the direction perpendicular to auxiliary air duct extending direction to open or block air port 130, certainly, this Field technical staff is easy to think of, and air port 130 is opened or blocked to the mode that valve module is also possible to rotation.

Auxiliary air duct is divided into the first auxiliary air duct 170 and the second auxiliary air duct by air port 130.First auxiliary air duct 170 Connect auxilairy air intake 160 and air port 130, the second auxiliary air duct connection air port 130 and main air duct 60.First auxiliary air duct 170 It with bent angle, is formed and has angled surface, the clast drawn upwards by auxilairy air intake 160 can be made via the angled wall of shock And it rebounds towards 130 direction of air port.

Air port 130 and 120 shape of valve module cooperate.Join Fig. 4 and Fig. 5, in the initial state, elastic component 140 is limited to hold It is slightly compressed between emptying, applies reaction force in valve module 120, valve module 120 is made to be connected to air port 130, thus by the One auxiliary air duct 170 and the second auxiliary air duct isolation, the pull of vacuum from main air duct 60 is isolated, and corner dust-absorbing function does not open It is dynamic.Join Fig. 6 and Fig. 7, when robot cleaner advances to corner, push rod 110 is entered at this time by the pressure from barrier Working condition, push rod 110 further compress elastic component 140 to 150 direction of top plate, and drive valve module 120 to far from air port 130 direction movement, opens air port 130, the first auxiliary air duct 170 and the second auxiliary air duct conducting, the vacuum of main air duct 60 Suction is transmitted to auxilairy air intake 160, the running of corner dust-absorbing function.When algorithm control robot cleaner leaves corner, push away Bar 110 is disengaged with barrier, and push rod 110 loses the pressure from barrier, and elastic component 140 returns to original state, this Elastic component 140 pushes valve module 120 to the initial position abutted with air port 130 during one, assists air duct 170 and for first Two auxiliary air duct isolations, corner dust-absorbing function are closed.

To sum up, push rod 110 and elastic component 140 constitute the degree of closeness for detecting or judging dust catcher and barrier Obstacle determination component, the obstacle determination component can generate the control action of valve module 120, so that the control auxiliary of valve module 120 Unlatching/the closure in air duct, in this way, obstacle determination component is generated close to when the response of barrier, auxiliary dust extractor is switched to the Two-state.First state, valve module 120 block auxiliary air duct so that auxilairy air intake 160 and cleaning vacuum plant fluid every Absolutely；Second state, valve module 120 is driven unlatching auxiliary air duct, so that auxilairy air intake 160 and cleaning vacuum plant fluid connect It is logical.Here response refers to the detection of obstacle determination component or judges dust catcher close to the movement of barrier, signal and instruction Deng.Push rod 110 constitutes the collision element in obstacle determination component, can sense environmental pressure.Wherein, valve module 120 is used Be configured to closeouts in the part in opening/closure auxiliary air duct, can be located at collision element the intracorporal one end of machine fix or Person's linkage, so that valve module 120 faster and reliably can accordingly collide the sensing of element.In addition, elastic component 140 is to reset The one form of them of mechanism, resetting-mechanism may further include a damping mechanism, and valve module is under the action of damping mechanism From blocking to opening assist air duct time be greater than or speed be less than from is blocking to opening auxiliary air duct required for the time or Person's speed, that is to say, that assist air duct to open fast and block slowly, in preferred embodiment, which can be unidirectionally to subtract Fast gear set.Certainly, under the action of the damping mechanism, it is also possible to the frictional force that valve module is being moved from opening to blocking and is less than From the frictional force blocked to opening movement, same function also may be implemented, in preferred embodiment, which can be Unidirectional strigil ensure that and detect that it reaches corner and can open auxiliary air duct in time in dust catcher, while leaving corner When slowly block auxiliary air duct so that clean effect is more preferable.

Fig. 4 to Fig. 7 shows the structure in auxiliary air duct.Assist the one end in air duct that auxilairy air intake 160 is set, opposite is another End is connect with main air duct 60, and the dust and clast collected from corner, which are aggregated into main air duct 60, enters dust-collecting box 20.Additional-air inlet Mouth 160 is set to main body chassis front end, and ground to be cleaned downward opens up, and the vacuum for passing through in main air duct 60 is inhaled The dust of power collection edge.Auxilairy air intake 160 can be located at the avris of main body chassis front end as shown in the figure, have preferable The effect gathered air-flow, increase suction；The different corner location of main body chassis can also be distributed in be multiple；It can also be strip, It is laterally extended along main body chassis front end, there is wider cleaning range.

Referring to shown in Fig. 8, dust catcher has generally rectangular shaped front, and auxilairy air intake 160 is set to bottom in "-" type One edge of seat front end, the extending direction of 160 "-" type of auxilairy air intake can be parallel with a line of corner.Referring to figure Shown in 9, auxilairy air intake 160 is arranged two, is located at two corners of pan frontward end, and two auxilairy air intakes 160 can be with It is parallel or is respectively positioned on same side, is also possible to be arranged in a mutually vertical manner.Referring to Fig.1 shown in 0, auxilairy air intake is still arranged Two, two corners of pan frontward end are located at, but the shape of two auxilairy air intakes is different, one of additional-air inlet L-shaped is arranged in mouth 160a, just matches with the shape of corner, another auxilairy air intake 160 can be "-" type.

Join Figure 11 to Figure 18, in another embodiment of the utility model, setting auxiliary dust extractor is used for corner in main body Cleaning.The difference of itself and a upper embodiment is, passes through electric control gear start and stop corner dust-absorbing function.

Join Figure 11, auxiliary dust extractor includes a sensing device 210 for being set to housing forward end face, and is set to main body Control module be electrically connected.Sensing device 201 is used to sense the peripheral position information of robot cleaner, including but unlimited In: infrared detector detects barrier by echo-signal；Pressure detector, with bar contact stress perceived position.

Join Figure 12 to Figure 14, a driving mechanism is arranged in main body, connect by transmission mechanism 240 with valve module 120.Driving Mechanism is, for example, stand-by motor 220.Transmission mechanism includes but is not limited to rack gear or gear, can be driven by stand-by motor 220, is driven Valve module 120 does linear movement.130 shape of air port in valve module 120 and auxiliary air duct cooperates, for blocking the air port 130.When When sensing device senses are to barrier, signal is sent, control module issues instruction, and stand-by motor 220 works, and drives valve module 120 generate displacement to the direction far from air port 130, open air port 130.Certainly, driving mechanism is not limited in motor, can also be with It is not provided with transmission mechanism, for example uses electromagnet or other devices that can generate driving force.

Join Figure 15 to Figure 18, main body setting auxiliary air duct.The structure in auxiliary air duct is same as previous embodiment.

Auxiliary air duct is divided into the first auxiliary air duct 170 and the second auxiliary air duct by air port.First auxiliary air duct 170 connects Auxilairy air intake 160 and air port 130, the second auxiliary air duct connection air port 130 and main air duct 60.First auxiliary air duct 170 has Bent angle forms and has angled surface, and the clast drawn upwards by auxilairy air intake 160 can be made via hitting angled wall and court It rebounds to 130 direction of air port.

Join Figure 15 and Figure 16, in the initial state, valve module 120 is connected to air port 130, to assist air duct for first 170 and second assist air duct isolation, and the pull of vacuum from main air duct 60 is isolated, and corner dust-absorbing function does not start.Join Figure 17 And Figure 18, when robot cleaner advances to corner, sensing device senses to barrier simultaneously send signal to control module, this When enter working condition, stand-by motor 220 works, and driving valve module 120 is moved to the direction far from air port 130, makes air port 130 It opens, the first auxiliary air duct 170 and the second auxiliary air duct conducting, the pull of vacuum of main air duct 60 are transmitted to auxilairy air intake 160, The running of corner dust-absorbing function.When algorithm control robot cleaner leaves corner, sensing device 210 is sensed less than barrier, Stop sending signal, control module controls stand-by motor 220 and works, and driving valve module 120 is displaced towards 130 direction of air port, directly To air port 130 is blocked, by the first auxiliary air duct 170 and the second auxiliary air duct isolation, corner dust-absorbing function is closed.

In another embodiment of the utility model, main air duct be arranged control valve (not shown), control valve be located at main air duct and The downstream of air duct connectivity port is assisted, is connected or completely cuts off between suction inlet and main air duct to control.Control valve drawn stem 110 passes The control of induction device 210 is moved at the same time with valve module 120, but executes opposite operation.In the initial state, control valve is opened, Suction inlet is connected with main air duct, robot cleaner executes conventional dust suction work；Push rod 110 or sensing device 210 incude To after barrier, working condition is switched to, control valve is closed, and suction inlet and main air duct are completely cut off, and is only executed by auxiliary air duct Corner dust suction work.

In the another embodiment of the utility model, there is dust catcher the locating module for positioning its real time position and map to deposit Store up module, obstacle determination component according to the comparing result of real time position and the map of preservation determine dust catcher and barrier away from From obstacle determination component includes judging unit and storage unit, and storage unit includes at least a threshold distance, and judging unit determines When machine is less than or equal to the threshold distance at a distance from barrier, obstacle determination component generates the open signal of valve module, auxiliary Dust extractor is helped to be switched to first state.Further, dust catcher is set with time threshold, and time threshold, which is deposited, to be set and control list Member, control unit do delays time to control, time of the obstacle determination component after the open signal for generating valve module according to time threshold The open signal of new valve module is not generated in threshold value, then obstacle determination component generates the closure signal of valve module, assists dust suction Module is switched to first state.

The utility model setting auxiliary dust extractor assists existing side to brush and roll by pull of vacuum to corner dust suction Dust suction is taken turns, cleaning effect is good.The auxiliary dust extractor is connected with main air duct, utilizes the original electrical structure of robot cleaner Pull of vacuum is formed, it is small to the change of equipment, it is conducive to production and assembling.In addition, the auxiliary dust extractor of the utility model can also To be used for other types of dust catcher.

It should be appreciated that although this specification is described in terms of embodiments, but not each embodiment only includes one A independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will say As a whole, the technical solution in each embodiment may also be suitably combined to form those skilled in the art can for bright book With the other embodiments of understanding.

Tool of the series of detailed descriptions listed above only for the feasible embodiment of the utility model Body explanation, they are all without departing from made by the utility model skill spirit not to limit the protection scope of the utility model Equivalent implementations or change should be included within the scope of protection of this utility model.

Claims (15)

1. a kind of dust catcher, including body, the body is equipped with cleaning vacuum plant, which is characterized in that

The body is additionally provided with auxiliary dust extractor, and the cleaning vacuum plant includes main air duct, the auxiliary dust extractor packet The auxiliary air duct for connecting the main air duct is included, auxilairy air intake, the opposite other end and institute is arranged in the one end in the auxiliary air duct Main air duct fluid communication is stated,

The auxiliary dust extractor further includes the first valve module, first valve module be at least partially arranged at auxiliary air duct in Unlatching/the closure in the auxiliary air duct is controlled, the auxiliary dust extractor includes at least first state and the second state；The suction Dirt device further includes obstacle determination component, and whether the obstacle determination component is for detecting or judging dust catcher close to barrier, institute It states obstacle determination component to generate close to when the response of barrier, the auxiliary dust extractor is switched to the second state；

First state, first valve module blocks auxiliary air duct, so that the auxilairy air intake and cleaning vacuum plant fluid Isolation；Second state, the first valve module, which is driven, opens the auxiliary air duct, so that the auxilairy air intake and cleaning vacuum plant It is in fluid communication.

2. dust catcher according to claim 1, which is characterized in that the obstacle determination component includes collision element, described When colliding element by environmental pressure, the obstacle determination component generates the movement close to barrier, the auxiliary dust extractor It is switched to the second state.

3. dust catcher according to claim 2, which is characterized in that the collision element has free end and opposite connection End, the free end protrude out the body, and the connecting pin and the first valve module are mechanically connected, and the collision element is by ring The first valve module can be driven to generate the movement for opening auxiliary air duct when the pressure of border.

4. dust catcher according to claim 3, which is characterized in that first valve module includes that opening/closure is described auxiliary The closeouts in air duct are helped, the connecting pin of the collision element is fixed or links with the closeouts.

5. dust catcher according to claim 1, which is characterized in that the obstacle determination component further includes resetting-mechanism, institute It states resetting-mechanism to abut against with first valve module, the resetting-mechanism provides and environmental pressure phase first valve module Anti- reset force.

6. dust catcher according to claim 5, which is characterized in that the resetting-mechanism includes damping mechanism, and described first Valve module under the action of the damping mechanism from blocking to opening it is described auxiliary air duct time be greater than or speed be less than from Block time or speed required for opening the auxiliary air duct.

7. dust catcher according to claim 5, which is characterized in that auxiliary air duct can opened and blocked to the first valve module Two positions between move, the movement frictional force that is subject to of first valve module from blocking unlatching is greater than it from blocking to opening The frictional force that the movement opened is subject to.

8. dust catcher according to claim 1, which is characterized in that the obstacle determination component includes sensor, the biography When sensor perceives obstacle, the obstacle determination component generates the open signal of first valve module, the auxiliary dust suction mould Block is switched to the second state.

9. dust catcher according to claim 8, which is characterized in that the dust catcher further includes being electrically connected with sensor Control module, the auxiliary dust extractor further includes the driving mechanism for being electrically connected the control module, and the driving mechanism drives The auxiliary air duct is opened/blocked to first valve module, and the control module is according to the control of the signal of the sensor Driving mechanism.

10. dust catcher according to claim 1, which is characterized in that the dust catcher, which has, positions determining for its real time position Position module and map memory module, the obstacle determination component is determined according to the comparing result of real time position and the map of preservation inhales Dirt device at a distance from barrier,

The obstacle determination component includes judging unit and storage unit, and the storage unit includes at least a threshold distance, institute When stating judging unit and determining that machine is less than or equal to the threshold distance at a distance from barrier, the obstacle determination component is generated The open signal of first valve module, the auxiliary dust extractor are switched to the second state.

11. according to the described in any item dust catchers of claim 8-10, which is characterized in that the dust catcher sets having time threshold Value, the obstacle determination component do not generate new first in the time threshold after the open signal for generating first valve module The open signal of valve module, then the obstacle determination component generates the closure signal of first valve module, the auxiliary dust suction Module is switched to first state.

12. dust catcher according to claim 1, which is characterized in that the body includes pedestal and covers at pedestal Upper cover, along the direction of travel of the dust catcher, the auxilairy air intake is set to the pan frontward end and towards to be cleanedly Face opens up.

13. dust catcher according to claim 12, which is characterized in that the dust catcher has the front in rectangle, described Auxilairy air intake is set at least one corner of rectangular base front end.

14. dust catcher according to claim 12, which is characterized in that dust catcher has cleaning unit, the additional-air inlet Mouth is set to the front side of cleaning unit and is located at the cleaning unit along the left and right sides that the direction of travel projects.

15. dust catcher according to claim 12, which is characterized in that dust catcher has cleaning unit, the additional-air inlet Outlet structure is "-" type or L-type.