CN105573311A - Self-movement robot - Google Patents

Abstract

The invention discloses a self-movement robot which comprises a self-movement module and at least one selected from a plurality of interchangeable working modules that are connected with the self-movement module. Each working module further comprises a second energy unit. A first energy unit comprises a rechargeable battery and supplies energy to the working module or the self-movement robot system. The self-movement robot realizes execution of various types of working tasks in an unmanned working area through arranging the self-movement module and the interchangeable working modules. Through arranging the individual energy unit for the working module, sufficient working module energy and long endurance time are realized.

Description

Self-movement robot

Technical field

The present invention relates to a kind of self-movement robot.The invention particularly relates to a kind of modular self-movement robot.

Background technology

The household equipment of robotization, such as automatic cleaner etc. have automatic operation program, can work voluntarily, do not need manually to manipulate all the time.By the household equipment of these robotizations, people can free from loaded down with trivial details time-consuming home tasks, obtain more lie Fallow Time.The household equipment of this robotization also claims automatic operation equipment, automatic robot etc.For the various demands of domestic consumer, emerge in large numbers the automatic robot of various specialization at present, as automatic cleaner, automatic security robot, automatic mower, automatic irrigator etc.Produced problem is that user needs for different demands buys different automatic equipments thereupon, such as a user may be furnished with automatic cleaner and security robot in indoor simultaneously, is furnished with automatic mower, automatic irrigator, automatically hair-dryer etc. in outdoor simultaneously.So first, being costly, is secondly cause home environment mixed and disorderly.Usually each automatic equipment all needs independent layout charging station and line related, and outdoor machine also needs for the different sideband signal line of different system layout, and these sideband signal lines also may produce mutual interference.

For this reason, some manufacturer starts the automatic operation equipment attempting manufacturing and designing integrated several functions, is integrated in a fuselage by the different operational module completing all kinds of need of work.But also there is a lot of drawback in integrated automatic operation equipment.First, Machinery Design and manufacture difficulty, failure rate is high, and the maintenance cost in later stage is large; Secondly, machine cost is high, price is expensive, affects product and popularizes; 3rd, machine volume is large, Heavy Weight, and cause energy consumption to increase, the working time after single charge is short, affects work efficiency.4th, user may need for oneself possibility and some function unwanted is checked.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of cost low, the self-movement robot system that function is many.

The present invention solves the technical scheme that prior art problem adopts: a kind of self-movement robot, comprises from mobile module and multiple at least one being connected in the operational module of mobile module interchangeable; Describedly comprise control module, the first energy unit, the first walking unit and first interface unit from mobile module, described control module performs predetermined instruction to control self-movement robot operation; Described first energy unit comprises rechargeable battery, provides energy to from mobile module or self-movement robot; Described first walking unit is auxiliary walks from mobile module; Described operational module comprises the first working cell, the second walking unit and the second interface unit, and described first working cell performs the work of particular type, described second walking unit back work module walking; Described first interface unit and the second interface unit correspondence can connect to be connected on mobile module by operational module, described operational module also comprises the second energy unit, described first energy unit comprises rechargeable battery, and described second energy unit provides energy to operational module or self-movement robot system.

Preferably, describedly also comprise the second working cell from mobile module, described second working cell performs the work of particular type.

Preferably, described operational module is provided with charging inlet, and described charging inlet can be connected to receive rechargeable electrical energy with the power interface of outside.

Preferably, described charging inlet and described power interface are wireless charging interface.

Preferably, described first interface unit comprises the first energy interface, first control interface and the first mechanical interface, described second interface unit comprises the second energy interface, second control interface and the second mechanical interface, when described first interface unit and the second interface unit connect, first energy interface and the docking of the second energy interface are with from transferring energy between mobile module and operational module, first control interface and the docking of the second control interface are with from transmission of signal between mobile module and operational module, first mechanical interface and the docking of the second mechanical interface will be will link together from mobile module and operational module.

Preferably, describedly comprise charging inlet from mobile module, described operational module is connected to outside power interface to receive rechargeable electrical energy by the second energy interface, the first energy interface and described charging inlet.

Preferably, described charging inlet comprises the first charging pole piece group and the second charging pole piece group, described first charging pole piece group is connected to the first energy unit to charge to it, and described second charging pole piece group is connected to described second energy unit to charge to it by the first energy interface, the second energy interface.

Preferably, describedly also comprise probe unit from mobile module, result of detection is also sent to control module by described probe unit detection operations module; Described control module determines whether according to result of detection the operational module having detected required connection, and when result of determination is for being, described control module controls the first walking cell row and walks to make to connect with the described required operational module be connected from mobile module.

Preferably, described operational module be mower module, sweeper module, snowplow module, blower module, fertilizer applicator module, water sprayer module at least one.

Preferably, described control module monitors the energy level of the first energy unit and the second energy unit, when the energy level of the second energy unit is greater than first threshold, controls the second energy unit and provides energy to operational module; When the energy level of the second energy unit is less than described first threshold and the energy level of the first energy unit is greater than Second Threshold, controls the first energy unit and provide energy to operational module.

Preferably, describedly also comprise probe unit from mobile module, result of detection is also sent to control module by described probe unit detection operations module; Described control module determines whether according to result of detection the operational module having detected required connection, and when result of determination is for being, described control module controls the first walking cell row and walks to make to connect with the described required operational module be connected from mobile module.

Preferably, on described operational module or the parking place of operational module be provided with corresponding with operational module operational module mark, described detecting module carrys out detection operations module by detection operations module id.

Preferably, described operational module is designated RFID label tag, and described detecting module is RFID reader.

Preferably, described operational module is designated image identification, and described detecting module is image collecting device.

Preferably, described image identification is bar code or Quick Response Code.

Preferably, also comprise guidance unit, described guidance unit stretches out from the parking place of operational module, describedly also comprise guiding sensing unit from mobile module, described guiding detecting unit detects the position of described guidance unit and testing result is sent to control module, described control module is walked along guidance unit according to the testing result received, with close to described operational module.

Preferably, described guidance unit is electrical signal line or metal guide rail; What described guiding detecting unit was corresponding is electric signal sensing unit or metal sensing unit.

Preferably, described first interface unit comprises the first energy interface, first control interface and the first mechanical interface, described second interface unit comprises the second energy interface, second control interface and the second mechanical interface, when described first interface unit and the second interface unit connect, first energy interface and the docking of the second energy interface are with from transferring energy between mobile module and operational module, first control interface and the docking of the second control interface are with from transmission of signal between mobile module and operational module, first mechanical interface and the docking of the second mechanical interface will be will link together from mobile module and operational module.

Preferably, described control module selectable control first mechanical interface is set up with the second mechanical interface or is removed and is connected.

Preferably, one of them of described first mechanical interface and the second mechanical interface is provided with electromagnet, wherein another be provided with can with the material of electromagnetic actuation, described control module is carried out selectable control first mechanical interface by the polarity controlling electromagnet and to be connected with the second mechanical interface or to remove connection.

Compared with prior art, beneficial effect of the present invention is: self-movement robot is by arranging from mobile module and interchangeable operational module, realize unattendedly in perform region, performing various types of task, by arranging independent energy unit for operational module, operational module energy is sufficient, cruising time is long.

Accompanying drawing explanation

Above-described object of the present invention, technical scheme and beneficial effect can by the detailed descriptions that can realize specific embodiments of the invention below.

Identical label in accompanying drawing and instructions and symbol are for representing identical or equivalent element.

Fig. 1 is the self-movement robot system schematic of one embodiment of the present invention.

Fig. 2 is the module map of the self-movement robot of one embodiment of the present invention.

Fig. 3 is the first concrete scheme schematic diagram of the first mechanical interface and the second mechanical interface in Fig. 2.

Fig. 4 is link and connect end and be in the schematic diagram of connection status in the scheme of Fig. 3.

Fig. 5 is the second concrete scheme schematic diagram of the first mechanical interface and the second mechanical interface in Fig. 2.

Fig. 6 is link and connect end and be in the schematic diagram of connection status in the scheme of Fig. 5.

Fig. 7 is link and the schematic diagram connecting end disengaging connection status in the scheme of Fig. 5.

Fig. 8 is the third concrete scheme schematic diagram of the first mechanical interface and the second mechanical interface in Fig. 2.

Fig. 9 is link and connect end to proceed to connection status schematic diagram from notconnect state in the scheme of Fig. 8.

Figure 10 is link and connect end and be in the schematic diagram of connection status in the scheme of Fig. 8.

Figure 11 is link and the schematic diagram connecting end disengaging connection status in the scheme of Fig. 8.

Figure 12 be one embodiment of the present invention from mobile module Automatic-searching and the schematic diagram being connected operational module.

Figure 13 be another embodiment of the invention from mobile module Automatic-searching and the schematic diagram being connected operational module.

1, from mobile module 3, operational module 5, bus stop

7, perform region 11, control module 13, first energy unit

15, the first walking unit 17, first interface unit 19, second working cell

21, probe unit 211, RFID reader 213, image collecting device

171, the first energy interface 173, first control interface 175, first mechanical interface

33, the second energy unit 35, second walking unit 37, second interface unit

39, the first working cell 371, second energy interface 373, second control interface

375, the second mechanical interface 43, guidance unit 411, RFID label tag

413, image identification 51, link 71, connect end

53, accepting hole 55, electromagnet 57, sliding sleeve

58, card ball 59, spring 61, fastener

63, elastic component 73, latch 75, permanent magnet

571, accepting groove 731, draw-in groove 611, pivotal axis

613, the first pivoted arm 615, second pivoted arm 617, the 3rd pivoted arm

733, bayonet socket 618, snap fit

Embodiment

As Fig. 1, self-movement robot system comprises self-movement robot and bus stop 5.Self-movement robot comprises from mobile module 1 and multiple at least one being connected in the operational module 3 of mobile module 1 interchangeable.The cruising in perform region 7 and perform work of self-movement robot robotization, bus stop 5 berths for self-movement robot.

Continue with reference to Fig. 1, bus stop 5 berths when not working for self-movement robot, bus stop 5 is also provided with operational module 3 parking place, for stopping multiple operational module 3.Self-movement robot can unload operational module 3, connects operational module 3 or change operational module 3 in bus stop 5.In one embodiment, bus stop 5 is provided with power interface, power interface is self-movement robot charging.

As Fig. 2, comprise control module 11, first energy unit 13, first walking unit 15 and first interface unit 17 from mobile module 1, also comprise the housing installing aforementioned unit.The concrete physical form of control module 11 is the control circuit board being furnished with one or more processor, storer, other relevant components and parts and respective peripheral circuit.Control module is built-in with control program, to perform predetermined instruction, controls self-movement robot and runs, cruise and work, the operational module 3 needed for returning bus stop 5 makeup energy and being connected in perform region 7.First energy unit 13 comprises rechargeable battery pack, and the first energy unit 13 provides energy to from mobile module 1 or self-movement robot.First walking unit 15 comprises running motor and ground-engaging element, and running motor drives the relative ground moving of ground-engaging element, thus drives from mobile module 1 or the relative ground running of self-movement robot.Running motor is set to one or more, and ground-engaging element is the known in the industry structure such as wheels, crawler belt, specifically repeats no more.

In one embodiment, the second working cell 19, working cell 19, second is comprised for performing the work of particular type from mobile module 1, such as grass cutting action etc.In one embodiment, from mobile module 1, not there is the second working cell 19.

Operational module 3 has multiple different type, and the operational module 3 of particular type performs specific task.Such as, the type of operational module 3 is mowing module, then this operational module 3 performs grass cutting action; If the module of sweeping away snow, then this operational module 3 performs work of sweeping away snow; If collection leaf module, then this operational module 3 performs broken leaf collection work; If blowing module, then this operational module 3 performs blowing work, like this, no longer exemplifies.Various dissimilar operational module 3 is interchangeable be connected to aforesaid on mobile module 1.

Operational module 3 comprises the first working cell 39, second walking unit 35 and the second interface unit 37, also comprises the housing installing aforementioned unit.First working cell 39 performs aforesaid specific task, and its concrete structure is different and different according to the type of operational module 3, namely different according to the difference of task.Such as, the first working cell 39 of mowing module is grass cutting action head, and grass cutting action head at least comprises mowing blade; First working cell 39 of module of sweeping away snow is the working head that sweeps away snow; First working cell 39 of collection leaf module is collection leaf unit, and collection leaf unit at least comprises the pumping components drawing broken leaf and the Ji Yecang storing broken leaf, and pumping components comprises suction tube and forms the rotatable blades etc. of negative pressure in suction nozzle; First working cell 39 of blowing module be blowing unit, at least comprises blowing assembly, the concrete blower of assembly and form the blade etc. of outside air-flow at mouth of blast pipe of drying.In one embodiment, the first working cell 39 of operational module 3 comprises work motor, with the power needed for output services; In another kind of embodiment, the first working cell 39 does not comprise work motor, but and operational module 3 or other units shared motors from mobile module 1.

Second walking unit 35 comprises ground-engaging element, and ground-engaging element is driven relative ground moving, thus drives from mobile module or the relative ground running of self-movement robot.Ground-engaging element is the known in the industry structure such as wheels, crawler belt, specifically repeats no more.In an alternate embodiment of the invention, the second walking unit 35 also comprises running motor, and running motor drives ground-engaging element to move.In other alternative-embodiments, the second walking unit 35 does not comprise running motor, and its ground-engaging element is only driven member as engaged wheel etc., and by driving from mobile module 3, back work module 3 moves.

In one embodiment of the invention, operational module 3 comprises the second energy unit 33, second energy unit 33 and comprises rechargeable battery pack, and the second energy unit 33 provides energy to operational module 3 or self-movement robot.In this embodiment, control module 11 monitors the energy level of the first energy unit 13 and the second energy unit 33, when the energy level of the second energy unit 13 is greater than first threshold, controls the second energy unit 33 and provides energy to operational module 3; When the energy level of the second energy unit 33 is less than described first threshold and the energy level of the first energy unit 13 is greater than Second Threshold, controls the first energy unit 13 and provide energy to operational module 3.In other optional embodiments, operational module 3 also can not comprise the second energy unit 33, and the operational module 3 required energy that works comes from from mobile module 1.

Continue, with reference to Fig. 2, can correspondence to connect from the first interface unit 17 of mobile module 1 and the second interface unit 37 of operational module 3, so that operational module 3 is connected on mobile module 1.First interface unit 17 comprises the first mechanical interface 175, first control interface 173 and the first energy interface 171; On second interface unit 37, correspondence is provided with the second mechanical interface 375, second control interface 373 and the second energy interface 371.When first interface unit 17 is connected with the second interface unit 37, the first mechanical interface 175 is connected with the second mechanical interface 375, and the first energy interface 171 is connected with the second energy interface 371, and the first control interface 173 is connected with the second control interface 373.First mechanical interface 175 is connected with the second mechanical interface 375 and is used for link together from mobile module 1 and the optional interlocking of operational module 3, movement jointly.First control interface 173 and the second control interface 373 connect for realizing from the signal transmission between mobile module and operational module, make can to control operational module 3 by the first control interface 173 and the second control interface 373 from mobile module 1 to work, various operational factor and environmental information can feed back to from mobile module 1 by operational module 3.First energy interface 171 and the second energy interface 371 connect for realizing from the energy transferring between mobile module 1 and operational module 3, such as from mobile module 1 to operational module 3 transferring energy, or contrary, operational module 3 is to from mobile module 1 transferring energy.

In a kind of optional embodiment, operational module 3, by being connected to outside power interface from mobile module 1, receives rechargeable energy.Namely be connected to power interface from the charging inlet of mobile module 1 and receive rechargeable electrical energy, then at least part of rechargeable electrical energy is delivered to the second energy unit 33 of operational module 3 by the first energy interface 171 and the second energy interface 371.In a kind of design proposal of this embodiment, the first charging pole piece group and the second charging pole piece group is comprised from the charging inlet of mobile module, described first charging pole piece group is connected to the first energy unit 13 to charge to it, and described second charging pole piece group is connected to described second energy unit 33 to charge to it by the first energy interface 171, second energy interface 373.In the another kind of design proposal of this embodiment, one group of charging pole piece group is only comprised from the charging inlet of mobile module, this charging pole piece group is connected to the first energy unit 13 to charge to it, and can be connected to described second energy unit 33 to charge to it by the first energy interface 171, second energy interface 373.

In a kind of optional embodiment, operational module 3 is directly connected to outside power interface, receives rechargeable energy.Namely operational module 3 has charging inlet and power interface connects.This charging inlet and outside power interface can be wireless charging interface.Owing to need not be equipped with special charge position and charging circuit for each operational module 3, wireless charging interface scheme can reduce charging cost when multiple operational module 3 exists simultaneously greatly.

In a kind of optional embodiment, operational module 3 can have concurrently by charging from mobile module and being directly connected to the function of external power source interface charging.In a kind of design proposal of this embodiment, operational module 3 has independently charging inlet and the second energy interface 371, is respectively used to directly connect power interface and be connected the first energy interface 171.In the another kind of design proposal of this embodiment, operational module 3 only can have the second energy interface 371, second energy interface 371 except can connecting the first energy interface 171, also directly can connect outside power interface.

As Fig. 3 and Fig. 4, in one embodiment, the first mechanical interface 175 comprises at least one link 51, second mechanical interface 375 and comprises at least one and connect end 71, link 51 with connect end 71 one_to_one corresponding, quantity is identical.Link 51 and connect end 71 when coupling together one to one, the first mechanical interface 175 and the second mechanical interface 375 realize being connected.Link 51 comprises an accepting hole 53, connects end 71 and comprises a latch 73, the collecting latch 73 of accepting hole 53 matching form.In accepting hole, be preferably bottom accepting hole and be furnished with an electromagnet 55, after energising, electromagnet 55 produces magnetic force, on latch 73, be preferably catch top be furnished with can with the material of electromagnet 55 adhesive, be permanent magnet 75 in the present embodiment.After latch 73 inserts accepting hole 53, permanent magnet 75 and electromagnet 55 also abut against, and by converting the pole orientation of electromagnet 55, two end pole abutted against are contrary or identical.Can be connected or unloaded operation module 3 by the pole orientation controlling electromagnet 55 from mobile module like this.In other embodiments, the pole orientation of electromagnet 55 also can be fixed, and remains that two end pole abutted against are contrary when being energized, and is energized to electromagnet 55 or power-off realizes connecting or unloaded operation module accordingly by selectable.

In one embodiment, link 51 is respectively two with the quantity connecting end 71, can connect one by one simultaneously, reach good connective stability.

In Fig. 3 and Fig. 4, link 51 is only exemplary with the concrete arrangement form connecting end 71, can have multiple variation under its thinking.Such as, the position of electromagnet 55 and permanent magnet 75 exchanges or accepting hole 53 is arranged on the second mechanical interface 375 that latch 73 is arranged on the first mechanical interface 175.And for example, in order to guide abutting direction, accepting hole 53 is designed to bellmouth, latch 73 is designed to taper.And for example, cancel accepting hole 53 and latch 73, directly rely on electromagnetic force to be interconnected.

As Fig. 7, Fig. 8, Fig. 9, in another kind of embodiment, similar, the first mechanical interface 175 comprises at least one link 51, second mechanical interface 375 and comprises at least one and connect end 71, link 51 with connect end 71 one_to_one corresponding, quantity is identical.Link 51 comprises an accepting hole 53, connects end 71 and comprises a latch 73.Its difference is, the present embodiment is not connected from mobile module 1 and operational module 3 by electromagnetic force, but is connected from mobile module 1 and operational module 3 by card ball draw-in groove couplings.

Concrete as Fig. 7, the sidewall of accepting hole 53 has multiple through hole, not departingly in each through hole accommodates a card ball 58, the diameter of card ball 58, slightly larger than the thickness of through hole, can move around along the through direction of through hole.The sidewall of accepting hole 53 is also socketed with a sliding sleeve 57, on sliding sleeve 57 and lead to the hole site corresponding be furnished with multiple accepting groove 571, card ball 58 can be partially accommodated in accepting groove 571, and it can depart from after entering accepting groove 571 from accepting hole, can depart from from accepting groove 571 when it enters in accepting hole 53.Sliding sleeve 57 can move forward and backward along the sidewall of accepting hole 53, and a spring 59 abuts sliding sleeve 57, makes accepting groove 571 leave through hole.The sidewall of latch 73 is provided with the draw-in groove 731 consistent with number of openings.

As Fig. 8, in connected state, latch 73 enters in accepting hole 53, card ball 53 to fall in accepting hole 53 and is stuck in draw-in groove 731, spring 59 force sliding sleeve 57 to be positioned at position that accepting groove 571 leaves through hole, card ball 58 is oppressed in draw-in groove 731 by sliding sleeve 57 sidewall, thus achieves link 51 and be connected with the interlocking connecting end 71, also just achieves and is connected from the interlocking of mobile module 1 with operational module 3.

As Fig. 9, when needs are connected from mobile module 1 and operational module 3 disengaging, only need order about the power that sliding sleeve overcomes spring 59 to move, make accepting groove 571 and through hole alignment, sliding sleeve 57 is positioned at unlocked position, now from the relative movement that mobile module 1 and operational module 3 depart from each other, then card ball 58 can be squeezed into accepting groove 571 and leave in accepting hole 53, removes and is connected from the interlocking of mobile module 1 with operational module 3.

In the present embodiment, from mobile module 1 and operational module 3 to connect and depart from connection can be automatic.Sliding sleeve 57 can arrange permanent magnet, the position that matches on mobile module 1 arranges electromagnet, then when connecting, when first interface unit 17 and the second interface unit 37 are aimed at and close to each other, from mobile module 1 to electromagnet energising, attract sliding sleeve 57 to overcome spring force and move, accepting groove 571 and through hole alignment, enter accepting hole 53 and after putting in place until latch 73, give electromagnet power-off from mobile module 1, sliding sleeve 57 rebounds and sets up interlocking and connect.Depart from when connecting, similar, electromagnet attracts sliding sleeve 57 to move to unlocked position, moves and after departing from connection, electromagnet power-off, sliding sleeve 57 returns to latched position from mobile module 1.

As Figure 10, Figure 11, Figure 12, Figure 13, in another kind of embodiment, similar, the first mechanical interface 175 comprises at least one link 51, second mechanical interface 375 and comprises at least one and connect end 71, link 51 with connect end 71 one_to_one corresponding, quantity is identical.Link 51 comprises an accepting hole 53, connects end 71 and comprises a latch 73, the collecting latch 73 of accepting hole 53 matching form.With previous embodiment unlike, link 71 is provided with a pivotable fastener 61, fastener 61 is arranged through the sidewall of the accepting hole 53 of part, there is first pivoted arm 613, second pivoted arm 615,3rd pivoted arm 617, and the pivotal axis 611 between each pivoted arm.First pivoted arm and the 3rd pivoted arm are positioned at accepting hole all at least partly, and the first pivoted arm is connected with elastic component 63, and the 3rd pivoted arm end is provided with a snap fit 618.Second pivoted arm 615 is positioned at outside accepting hole 53.Elastic component 63 to direction bias voltage first pivoted arm 613 making the 3rd pivoted arm be in a latched position, in latched position, within snap fit 618 is positioned at the inwall of accepting hole 53 at least partly.In the present embodiment, elastic component 63 comprises a spring base and a spring, and one end of spring mounts elastically, and the other end is connected on the first pivoted arm 613.Latch 73 is provided with a bayonet socket 733, and bayonet socket 733 and aforesaid snap fit 618 match.Concrete, first pivoted arm 613, elastic component 63, pivotal axis 611 is all generally within accepting hole 53, snap fit 618 forms a slope towards the sidewall outside accepting hole 53, insert in the process of accepting hole 53 at latch 73, the end of latch 73 is oppressed the slope of snap fit 618 and makes snap fit 618 overcome the biasing force of elastic component 63, unlocked position is moved to from latched position, at unlocked position, snap fit 618 leaves the inwall of accepting hole 53 completely, latch 73 continues to insert accepting hole 53 until bayonet socket 733 proceeds to the position at snap fit 618 place subsequently, now elastic component 63 is compeled snap fit 618 and is returned to latched position, snap fit 618 and bayonet socket 733 sealed, thus will link together from mobile module 1 and operational module 3.

Second pivoted arm 615 is generally within outside accepting hole 53, and when needs operational module 3 is from when departing from from mobile module 1, the biasing force that only need overcome elastic component 63 stirs the second pivoted arm 615, then snap fit 618 departs from from bayonet socket 733, and operational module 3 can take off.

In the present embodiment, from mobile module 1 and operational module 3 to connect and depart from connection can be automatic.Second pivoted arm 615 can arrange permanent magnet, the position that matches on mobile module 1 arranges electromagnet, then when connecting, when first interface unit 17 and the second interface unit 37 are aimed at and close to each other, from mobile module 1 to electromagnet energising, attract the second pivoted arm 615 to overcome spring force and move unlocked position, accepting hole 53 is entered and after putting in place until latch 73, give electromagnet power-off from mobile module 1, fastener 61 rebounds, and snap fit 618 catches on bayonet socket 733 and sets up interlocking connection.Depart from when connecting, similar, electromagnet attracts the second pivoted arm 615 to move to unlocked position, moves and after departing from connection, electromagnet power-off, the second pivoted arm 615 returns to latched position from mobile module 1.

Similar, in one embodiment, link 51 is respectively two with the quantity connecting end 71, can connect one by one simultaneously, reach good connective stability.

Similar, the arrangement of each element in the present embodiment can have multiple conversion, and such as the location swap etc. of accepting hole 51 and latch 73, repeats no more.

The setting of the position difference correspondence of the first control interface 173 and the second control interface 373, make when the first mechanical interface 175 and the second mechanical interface 375 successfully dock, the first control interface 173 and the second control interface 373 are also simultaneously to connecting.Because the first mechanical interface 175 and the second mechanical interface 375 have had kayser function, so the first control connects 173 mouthfuls and the second control interface 373 can not arrange kayser function dependency structure, mutually simply cooperation can be plugged.First control interface 173 and the second control interface 373 can be wire communication structure or wireless communication configuration, can realize signal transmission.

The setting of the position difference correspondence of the first energy interface 171 and the second energy interface 371, make when the first mechanical interface 175 and the second mechanical interface 375 successfully dock, the first energy interface 171 and the second energy interface 371 are also simultaneously to connecting.Because the first mechanical interface 175 and the second mechanical interface 375 have had kayser function, so the first energy interface 171 and the second energy interface 371 can not arrange kayser function dependency structure, mutually simply cooperation can be plugged.Energy interface is used for from transferring energy between mobile module 1 and operational module 3, its concrete structure and realize principle and be well known to those skilled in the art, and does not repeat them here.

After first interface unit 17 and the docking of the second interface unit 37, move operational module 3 from mobile module 1 by the connecting band of the first mechanical interface 175 and the second mechanical interface 375 to cruise in perform region 7, and perform particular job by the connection control operational module 3 of the first control interface 173 and the second control interface.In certain embodiments, electric energy can also be transmitted by the first energy interface 171 and the second energy interface 371 between mobile module 1 and operational module 3.

In one embodiment, from mobile module 1 according to the program preset, automatically dock with specific operational module 3, and automatically cruise in perform region 7, perform particular job task.

There is probe unit to detect the target operation module 3 that will find from mobile module 1.Result of detection is also sent to control module 11 by probe unit 21 detection operations module 3.Control module 11 determines whether according to result of detection the operational module 3 having detected required connection, and when result of determination is for being, described control module 11 controls the first walking unit 15 and walks to make to connect with the required operational module 3 be connected from mobile module 1.Such as, probe unit 21 is RFID reader 211, and operational module 3 is provided with RFID label tag 411, and the content of the RFID label tag 411 on different operational modules 3 is different.In this way, from mobile module 1 when near each operational module 3, RFID reader 211 can both read its RFID label tag 211, control module 11 knows the particular type of current close operational module 3 according to the result of detection that RFID reader sends, when from mobile module know 1 be clipped to current operational module 3 be its find type time, then enter docking procedure, docking first interface unit 17 and the second interface unit 37, be connected to target operation module 3 on mobile module 1.

In docking procedure, advance along abutting direction from mobile module 11, abutting direction is first interface unit 17 and the direction that the second interface unit 37 is aligned with each other can be connected.Concrete, according to the setting position of RFID reader 211 and RFID label tag 411, from mobile module 1 can be corresponding the approximate location of judgement target operation module 3 when recognizing specific RFID label tag and distance, from mobile module 1 according to the information adjustment estimated self towards to abutting direction, to making first interface unit 17 direction close to each other with the second interface unit 37, that be connected move, achieve a butt joint.

In the alternative embodiment, from mobile module 1 by identifying that the guidance unit 43 in bus stop 3 realizes advancing along abutting direction, guidance unit 43 can for carrying the guide line, magnetic stripe etc. of specific electrical signal, guidance unit 43 is arranged along abutting direction, uses corresponding guiding sensing unit identification guide line and magnetic stripe from mobile module 1.In the embodiment of the embodiment of replacing, the parking place of operational module 3 is provided with guide rail, and guide rail will be directed in accurate abutting direction from mobile module 1, its docking auxiliary.Guide rail can be splayed guide sides wide outside and narrow inside, spacing and progressively enter abutting direction accurately by side after the wheel of mobile module 1 enters guide rail; Guide rail can also be and the guide groove of the wide layout of wheel, and guide groove will guide to abutting direction accurately from mobile module.Certainly, aforesaid each confirms that the mode of abutting direction can combinationally use with various permutation and combination method, and to increase docking accuracy, the direction as RFID label tag is estimated and used etc. with guidance unit 43 arrangement combinations, repeats no more.

In docking procedure, whether successful from mobile module 1 monitoring docking, dock and successfully then exit docking procedure, enter working routine or other programs.Whether successfully monitoring docking mode is whether monitoring first control interface 173 or the first energy interface 171 place have occurred specific voltage, electric current or signal etc., repeats no more.In working routine, self-movement robot leaves bus stop 5, cruises and perform particular job task in perform region 7.

Connected operational module 3 also brings back in charging station according to external command or self plan by self-movement robot, and operational module 3 departs from docking.First self-movement robot returns bus stop 5, and echo plex mode prior art is existing to be disclosed, and as along boundary line recurrence etc., repeats no more.After returning bus stop 5, self-movement robot throws off the connection from mobile module 1 and operational module 3.In the alternative embodiment, operational module 3 to be placed to along abutting direction position of berthing and to throw off connection from mobile module 1 and operational module 3 afterwards by self-movement robot, and abutting direction as previously mentioned, can be confirmed by guide rail or guide line.In one embodiment, parking place have multiple and and there is not relation one to one between operational module 3, operational module 3 can arbitrarily be placed in any empty parking place; In another kind of embodiment, between parking place and operational module 3, there is one-to-one relationship, after the operational module 3 carried is placed to specific corresponding parking place by self-movement robot, throw off the connection from mobile module 1 and operational module 3.The mode of throwing off connection is different according to the difference of type of attachment, such as, in aforesaid electromagnetic force docking mode, realizes throwing off connection by the electromagnetic force cancelled on electromagnet from mobile module 1.

In another kind of embodiment, probe unit 21 is image collecting device 213, and operational module 3 is provided with specific image identification 413, and the content of the image identification 413 on different operational modules 3 is different.Image identification 413 can be Quick Response Code, bar code or other standards pattern, and image identification 413 also can be that other forms are as the combination of specific color or specific shape etc.From mobile module 1 when near each operational module 3, carry out figure collection and identification simultaneously, when recognizing the specific image mark 413 with target operation module 3 correspondence, as specific Quick Response Code, when bar code or other patterns, judge to carry the operational module 3 of this image identification as target operation module 3, enter docking procedure thereupon, docking first interface unit 17 and the second interface unit 37, be connected to target operation module 3 on mobile module 1.

In docking procedure, advance along abutting direction equally from mobile module 1.Concrete, according to the size of the image identification 413 recognized, the arrangement etc. of image identification 413, from mobile module 1 can be corresponding the approximate location estimating the target operation module 3 when recognizing specific image identification 413 and distance, from mobile module 1 according to the information adjustment estimated self towards to abutting direction, to making first interface unit 17 direction close to each other with the second interface unit 37, that be connected move, achieve a butt joint.

Similar, in the alternative embodiment, from mobile module 1 by identifying that the guidance unit 43 in bus stop 5 realizes advancing along abutting direction, or by the auxiliary docking of guide rail.Concrete mode is the same, repeats no more.Certainly, aforesaid each confirms that the mode of abutting direction can combinationally use with various permutation and combination method, to increase docking accuracy.

In docking procedure, whether successful from mobile module 1 monitoring docking, concrete mode is the same, repeats no more.

Connected operational module 3 also brings back in charging station according to external command or self plan by self-movement robot, and operational module 3 departs from docking.Concrete mode is the same, repeats no more.

In another kind of embodiment, similar, probe unit is image collecting device, with previous embodiment unlike, operational module 3 do not have specific image identification, from mobile module 1 by identifying that the shape of operational module 3 self, color, texture or its combination determine whether target operation module 3.

In other embodiments, from mobile module 1, there is probe unit 23 equally, but with foregoing individual embodiments unlike, probe unit 23 identifies and operational module 3 exists feature in the external environment condition of corresponding relation or mark, instead of feature on Direct Recognition operational module 3 or operational module identify.Such as, each specific operational module 3 rests on the specific parking place of bus stop 5, and specific parking place place is provided with and identifies with the operational module of specific operational module 3 correspondence.From mobile module 1 when finding specific target operation module 3, only need to find and target operation module 3 correspondence, the operational module that is positioned at ad-hoc location identifies, get final product localizing objects operational module 3, proceed to docking procedure subsequently, docking first interface unit 17 and the second interface unit 37, be connected to target operation module 3 on mobile module 1.In these embodiments, optionally, probe unit 23 also identifies feature on operational module 3 or operational module mark, and the correspondence on its specific implementation and operational module 3 is arranged as previously described in the embodiment, does not repeat them here.

Such as, in an alternate embodiment of the invention, bus stop 5 has multiple parking place, each parking place is respectively used to the particular job module 3 of berthing different, each parking place is furnished with specific RFID label tag 411 separately.And the probe unit 23 on mobile module 1 is RFID reader 211.In this way, from mobile module 1 when near each operational module 3, its RFID label tag 211 can both be read, and then know the particular type of current close operational module 3, when recognize from mobile module 1 current operational module 3 be its find type time, then enter docking procedure, docking first interface unit 17 and the second interface unit 37, be connected to target operation module 3 on mobile module 1.

Again such as, in another kind of optional embodiment, similar, bus stop 5 has multiple parking place with the particular job module 3 of berthing different, difference is, probe unit 23 is image collecting device, and parking place is provided with specific image identification 413, and the content of the image identification 413 on position that berths residing for different particular job module 3 is different.Image identification 413 can be Quick Response Code, bar code or other standards pattern, and image identification also can be that other forms are as the combination of specific color or specific shape etc.Image identification 413 can be positioned on the bottom surface of parking place porch, also can be positioned at and berth on the wall at a rear or side, can certainly be the position that other applicable image collecting devices 213 identify.From mobile module 1 when near each operational module 3, carry out figure collection and identification, when recognizing the specific image mark 413 with target operation module 3 correspondence, as specific Quick Response Code, when bar code or other patterns, judge that the operational module carrying this image identification 413 is target operation module 3, enter docking procedure thereupon, docking first interface unit 17 and the second interface unit 37, be connected to target operation module 3 on mobile module 1.

In another kind of embodiment, similar, bus stop 5 has multiple parking place with the particular job module 3 of berthing different, difference is, the work at parking place place is designated the guiding mark having simultaneously and guide from mobile module and operational module docking.In such an embodiment, in bus stop, guidance unit 43 in preceding embodiment need not be set separately.In the interchangeable embodiment of one, guide and be designated the guide line carrying electric signal, the electric signal corresponding to the guide line of different particular job modules 3 is different, and such as power frequency is different, or the electric signal waveform difference of carrying etc., repeat no more.The inductance comprising the electromagnetic signal that induction guide line produces in the environment of probe unit 23 correspondence.Guide line is arranged in the bottom surface of parking place, extend to outside parking place, after the electric signal that mobile module 1 recognizes corresponding to target operation module 3, just can target operation module 3 accurately in parking place along the guide line walking that electric signal occurs, and guide line is arranged corresponding with docking track, as long as from mobile module 1 along guide line walking, just accurately can dock with operational module 3.Walking along guide line can be walk across guide line or walk against guide line certain distance.

In another embodiment, similar, bus stop 5 has multiple parking place with the particular job module 3 of berthing different, the specific identifier at parking place place is have the guiding mark guiding and dock from mobile module 1 and operational module 3 simultaneously.Be with a upper embodiment difference, guide and be designated track, the track parameter difference that different particular job modules is corresponding, such as magnetic field intensity is equal, the magnetic induction sensor for identifying track of probe unit 23 correspondence.Other and a upper embodiment are similar, do not repeat them here.

Below introduce the work planning mode of self-movement robot.

First, self-movement robot has the working hour and inoperative period that set, in working hour, self-movement robot performs all kinds of task and auto-returned bus stop 5 charges after depleted of energy, does not work, rest in bus stop 5 at inoperative period self-movement robot.Typically, the 8:00 to 18:00 that user can set Mon-Fri is working hour, and other times are the inoperative period.

Operationally in section, carry each operational module 3 from mobile module 1 successively according to the sequential of setting and carry out work.Such as, each operational module 3 comprises mowing module, when fertilising module and watering module, first connects from mobile module 3 grass cutting action that mowing module carries out 3 hours, connect the fertilising work that fertilising module is carried out 3 hours subsequently, finally connect the watering work that watering module is carried out 3 hours.When grass cutting action, periodically enter perform region cutting lawns from mobile module 1 and mowing module and return charging station makeup energy, like this equally when the work of fertilising and watering work.

The present invention is not limited to lifted specific embodiment structure, and the structure based on the present invention's design all belongs to scope.

Claims (10)

1. a self-movement robot, comprises from mobile module and multiple at least one being connected in the operational module of mobile module interchangeable;

Describedly comprise control module, the first energy unit, the first walking unit and first interface unit from mobile module, described control module performs predetermined instruction to control self-movement robot operation; Described first energy unit comprises rechargeable battery, provides energy to from mobile module or self-movement robot; Described first walking unit is auxiliary walks from mobile module;

Described operational module comprises the first working cell, the second walking unit and the second interface unit, and described first working cell performs the work of particular type, described second walking unit back work module walking;

Described first interface unit and the second interface unit correspondence can connect to be connected on mobile module by operational module, it is characterized in that:

Described operational module also comprises the second energy unit, and described first energy unit comprises rechargeable battery, and described second energy unit provides energy to operational module or self-movement robot system.

2. self-movement robot according to claim 1, is characterized in that: describedly also comprise the second working cell from mobile module, and described second working cell performs the work of particular type.

3. self-movement robot according to claim 1, is characterized in that: described operational module is provided with charging inlet, and described charging inlet can be connected to receive rechargeable electrical energy with the power interface of outside.

4. self-movement robot according to claim 4, is characterized in that: described charging inlet and described power interface are wireless charging interface.

5. self-movement robot according to claim 1, it is characterized in that: described first interface unit comprises the first energy interface, first control interface and the first mechanical interface, described second interface unit comprises the second energy interface, second control interface and the second mechanical interface, when described first interface unit and the second interface unit connect, first energy interface and the docking of the second energy interface are with from transferring energy between mobile module and operational module, first control interface and the docking of the second control interface are with from transmission of signal between mobile module and operational module, first mechanical interface and the docking of the second mechanical interface will be will link together from mobile module and operational module.

6. self-movement robot according to claim 5, it is characterized in that: describedly comprise charging inlet from mobile module, described operational module is connected to outside power interface to receive rechargeable electrical energy by the second energy interface, the first energy interface and described charging inlet.

7. self-movement robot according to claim 6, it is characterized in that: described charging inlet comprises the first charging pole piece group and the second charging pole piece group, described first charging pole piece group is connected to the first energy unit to charge to it, and described second charging pole piece group is connected to described second energy unit to charge to it by the first energy interface, the second energy interface.

8. self-movement robot according to claim 1, is characterized in that: describedly also comprise probe unit from mobile module, and result of detection is also sent to control module by described probe unit detection operations module; Described control module determines whether according to result of detection the operational module having detected required connection, and when result of determination is for being, described control module controls the first walking cell row and walks to make to connect with the described required operational module be connected from mobile module.

9. self-movement robot according to claim 1, is characterized in that: described operational module be mower module, sweeper module, snowplow module, blower module, fertilizer applicator module, water sprayer module at least one.

10. self-movement robot according to claim 1, it is characterized in that: described control module monitors the energy level of the first energy unit and the second energy unit, when the energy level of the second energy unit is greater than first threshold, controls the second energy unit and provide energy to operational module; When the energy level of the second energy unit is less than described first threshold and the energy level of the first energy unit is greater than Second Threshold, controls the first energy unit and provide energy to operational module.