CN113472038A

CN113472038A - Accommodating power supply system based on base

Info

Publication number: CN113472038A
Application number: CN202110707881.0A
Authority: CN
Inventors: 李斌; 殷钢; 柯亨钊; 周露蓉
Original assignee: Zhejiang Lera New Energy Power Technology Co Ltd
Current assignee: Zhejiang Qixiang Technology Co Ltd
Priority date: 2021-06-24
Filing date: 2021-06-24
Publication date: 2021-10-01
Also published as: CN217741323U; CN115528761A; CN217406202U; CN115528760A; CN218386829U; CN115528762A

Abstract

The invention discloses a base-based accommodating power supply system, which comprises a base, at least one first device and at least one second device, wherein the base is provided with at least one accommodating part, a power supply part and at least one base main body, the accommodating part and the power supply part are respectively arranged on the base main body, the base main body is supplied with power, the first device and the second device are accommodated in the accommodating part, and at least one of the first device and the second device is supplied with power by the power supply part.

Description

Accommodating power supply system based on base

Technical Field

The invention relates to the field of accommodating power supply of tools, in particular to an accommodating power supply system based on a base.

Background

With the improvement of living standard, some intelligent products are gradually accepted by people, for example, intelligent devices such as mobile phones, tablet computers, floor sweeping robots, dust collectors, mopping machines, automatic washing machines, automatic baking machines, automatic cooking machines and the like. The charging problem of the intelligent device becomes a great problem. The charger and the charging mode that every money device adaptation differ for the device charges and needs a plurality of charging positions in order to charge, and then occupies a plurality of sockets of user's family, not only causes the socket of user's family to be in short supply, and multiple charger and charging mode also cause user's clean burden moreover. Particularly for a user family without a plurality of sockets, the user needs to connect to a ground wall surface and drag a row plug to provide more sockets, so that the possibility of stumbling exists, and the fire accident caused by overload of electric appliances is more likely to be caused.

It is worth mentioning that smart devices are applied to different spaces. Therefore, the intelligent device is easy to be placed in a certain corner conveniently, and is forgotten by a user, and the intelligent device can be found by spending some time in the next searching. Different smart devices are stacked in each corner separately, taking up a lot of space and easily getting messy.

Disclosure of Invention

One object of the present invention is to provide a base-based power supply system, wherein the power supply system comprises at least one base and at least one device, wherein the device is received by the base.

Another object of the present invention is to provide a base-based power supply system, wherein the power supply system comprises at least one base and at least two devices, wherein the devices are accommodated by the base.

Another object of the present invention is to provide a base-based power receiving system, which comprises at least one base and at least two devices, wherein the devices are charged by the base.

Another object of the present invention is to provide a base-based housing power supply system, wherein the base is adapted to house at least two devices of different types, wherein the types refer to categories formed by things having common characteristics, for example, a sweeping robot and a vacuum cleaner belong to a cleaning device for cleaning a surface, a mobile phone and an ipad belong to a mobile device for interactive communication, and an automatic cooker and a baker belong to a cooking device for cooking.

It is another object of the present invention to provide a base-based housed power supply system, wherein the housed power supply system is adapted to house at least two devices of the same type.

It is another object of the present invention to provide a base-based contained power supply system wherein the base contains at least one cleaning device for cleaning a surface, for example, the cleaning device is embodied as at least one of a sweeping robot, a vacuum cleaner, and a scrubber.

It is another object of the present invention to provide a base-based housed power supply system wherein the base houses at least one mobile device for interactive communication, for example, the mobile device may be implemented as at least one of a cell phone, an ipad, a game console, an AR device, an entertainment electric device.

Another object of the present invention is to provide a base-based power supply system, wherein the base is received in at least one cooking device, for example, the cooking device can be implemented as at least one of an automatic cooker, a baking machine, a thermo jug and a water kettle.

Another object of the present invention is to provide a base-based power receiving system, wherein the power receiving system can receive at least two devices of different types in a rechargeable manner.

Another object of the present invention is to provide a base-based power supply system, wherein the power supply system can be charged to accommodate at least two devices of the same type.

Another object of the present invention is to provide a base-based housing power supply system, wherein the base supplies power to at least one cleaning device, for example, the cleaning device is implemented as at least one of a sweeping robot, a vacuum cleaner and a floor washing machine.

It is another object of the present invention to provide a base-based housed power supply system, wherein the base supplies power to at least one mobile device, for example, the mobile device can be implemented as at least one of a cell phone, an ipad, a game console, an AR device, an entertainment electric device, and an entertainment electric device.

It is another object of the present invention to provide a base-based containment power supply system, wherein the base supplies power to at least one cooking device, for example, the cooking device can be implemented as at least one of an automatic cooker, a baker, a thermo jug, and a kettle.

Another object of the present invention is to provide a housing power supply system based on a base, wherein the base can continuously supply power to a device, so as to avoid the process of charging the device and the pressure of finding a suitable charging plug and charger seat.

Another objective of the present invention is to provide a docking station-based power supply system, wherein the docking station can continuously supply power to at least two devices, so as to reduce the load of the home cradle and effectively alleviate the problem of cradle strain caused by the increase of the number of electric devices.

Another object of the present invention is to provide a power supply system for housing a base, wherein the power supply system can provide an external battery for an apparatus to be used alternately, and the replaceable external battery can prolong the service life of the apparatus, thereby preventing the problem that the electric apparatus cannot be cleaned continuously due to insufficient capacity.

Another object of the present invention is to provide a power supply system for accommodating an electric device, wherein the base is charged in an external battery, so as to effectively reduce the problem that the electric device cannot operate for a long time due to the damage of the battery, reduce the cost for replacing the electric device, prolong the service life of the electric device, and reduce the operation and maintenance cost of the electric device.

It is another object of the present invention to provide a base-based housed power supply system that enables external battery interchange between different types of equipment.

Other advantages and features of the present invention will become more fully apparent from the following detailed description and appended claims, taken in conjunction with the accompanying drawings, which specify the combination of the hand end and the device.

In accordance with one aspect of the present invention, the foregoing and other objects and advantages are achieved in the present invention which is a base based housed power supply system comprising:

a base, wherein the base has at least one receiving portion, a power supply portion and at least one base main body, wherein the receiving portion and the power supply portion are respectively disposed on the base main body, and the base main body is supplied with power;

at least one first device; and

at least one second device, wherein the first device and the second device are accommodated in the accommodating portion, and at least one of the first device and the second device is supplied with power by the power supply portion.

According to an embodiment of the present invention, the housing portion includes at least a first housing body and a second housing body, the first device being housed in the first housing body, wherein the second device is housed in the second housing body, wherein the first device and the second device are commonly housed.

According to an embodiment of the present invention, the power supply portion includes at least a first charging terminal, a second charging terminal and a power supply terminal, wherein the first charging terminal and the second charging terminal are conductively connected to the power supply terminal, wherein the first charging terminal is formed in the first receiving body, wherein the second charging terminal is formed in the second receiving body, and the power supply terminal is supplied with power from the base body.

According to an embodiment of the invention, the type of the first device is selected from at least one of a combination cleaning device, a mobile device, a cooking device, wherein the type of the second device is selected from at least one of a combination cleaning device, a mobile device, a cooking device.

According to one embodiment of the invention, the cleaning device is selected from at least one of a combination sweeping robot, a vacuum cleaner and a floor washing machine, the mobile device is selected from at least one of a combination mobile phone, an ipad, a game machine, an AR device, an entertainment electric device and an entertainment electric device, and the cooking device is selected from at least one of a combination automatic cooker, a baker, a thermo jug and a water kettle.

In another aspect of the present invention, the present invention further provides a base-based power supply system, comprising:

at least one device, wherein the device is accommodated in the accommodating part, and at least one of the devices is powered by the power supply part;

a processing module, wherein the processing module is integrated into a combination with at least one of the devices and/or the base, wherein the processing module is communicatively coupled to at least one of the devices.

According to one embodiment of the invention, the type of the device is selected from at least one of a combination cleaning device, a mobile device, a cooking device.

at least one charging device, wherein the charging device is accommodated in the accommodating part, and at least one of the charging devices is powered by the power supply part;

a processing module, wherein the processing module is integrated with at least one of the charging devices, and wherein the processing module is powered by the charging device to other devices to condition the other devices.

According to one embodiment of the invention, said charging device is a battery or said battery pack provided with at least two detachable batteries.

According to one embodiment of the invention, the base-based housed power supply system further comprises at least one device, wherein the device and the charging device are commonly housed by the base for power supply.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

Drawings

Fig. 1A is a perspective view and a left side view of a base-based power supply system in a state where the base and a device are separated according to a first preferred embodiment of the invention.

Fig. 1B is a perspective view illustrating a state in which the power supply system is housed in the base according to the above preferred embodiment of the present invention.

Fig. 2A is a perspective view of a base-based power receiving system according to a second preferred embodiment of the invention.

Fig. 2B is another perspective view of the base-based power receiving system according to the above preferred embodiment of the present invention.

Fig. 2C is a perspective view of the base-based power supply system in accordance with the above-described preferred embodiment of the present invention.

FIG. 2D is a schematic top view of the base-based power receiving system of FIG. 2A according to the above preferred embodiment of the present invention.

Fig. 2E is a perspective view and a partial enlarged view of the base-based power receiving system according to fig. 2D in a modified embodiment of the above preferred embodiment of the present invention.

Fig. 3A is a left side view of a power supply system for a base-based container according to a third preferred embodiment of the invention.

Fig. 3B is another perspective view and a partial enlarged view of the base-based power receiving system according to the above preferred embodiment of the invention.

Fig. 4 is a perspective view of a base-based power supply system according to a third preferred embodiment of the invention.

Fig. 5A is a perspective view of a base for housing a power supply system according to a fourth preferred embodiment of the invention.

Fig. 5B is a perspective view of the power supply system based on the base according to the above preferred embodiment of the present invention.

FIG. 5C is a right side view of the power supply system of the base-based receptacle according to the above preferred embodiment of the present invention.

Fig. 6A is a perspective view of a base for housing a power supply system according to a fifth preferred embodiment of the invention.

Fig. 6B is another perspective view of the base for accommodating the power supply system based on the base according to the above preferred embodiment of the invention.

Fig. 7A is a perspective view of a base for housing a power supply system according to a modified embodiment of the fifth preferred embodiment of the present invention.

FIG. 7B is a schematic diagram of the base-based power supply system according to the above preferred embodiment of the present invention.

FIG. 7C is a schematic diagram of the base-based power supply system according to the above preferred embodiment of the present invention.

Fig. 8A is a schematic top view of a base-based power receiving system according to a sixth preferred embodiment of the invention.

Fig. 8B is a perspective view of the power supply system based on the base according to the above preferred embodiment of the present invention.

FIG. 8C is a right view of the power supply system of the base according to the above preferred embodiment of the present invention.

Fig. 8D is another perspective view of the base-based power receiving system according to the above preferred embodiment of the present invention.

Fig. 9A is another perspective view of a base-based power receiving system according to a seventh preferred embodiment of the invention.

Fig. 9B is a perspective view of the power supply system based on the base according to the above preferred embodiment of the present invention.

Fig. 9C is a perspective view of the base-based power receiving system according to the modified embodiment of the preferred embodiment of the present invention.

Fig. 10A is a perspective view of a base-based power supply system according to an eighth preferred embodiment of the invention.

Fig. 11A to 11G are schematic views of application scenarios of the base-based accommodating power supply system of the present invention.

Fig. 12A is a perspective view of a base-based power receiving system according to a variation of the eighth preferred embodiment of the present invention.

Fig. 12B is a perspective view of a base-based power receiving system according to another variation of the above preferred embodiment of the present invention.

Fig. 12C is a perspective view of a base-based power receiving system according to another variation of the above preferred embodiment of the present invention.

Fig. 12D is a perspective view of a base-based power receiving system according to another variation of the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments described below are by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

Referring to fig. 1 of the drawings, a base-based power receiving system according to a first preferred embodiment of the present invention is disclosed in detail and explained, wherein the base-based power receiving system includes at least one base 10, wherein the base 10 receives at least one device 20, the base 10 includes a base body 11, a receiving portion 12 and defines at least one receiving space 120, wherein the charging portion 13 is disposed on the base body 11 to define the receiving space 120, and when the device 20 is disposed in the receiving portion 12, the device 20 is received in the receiving space 120 of the receiving portion 12, so that at least one device 20 is received by the power receiving system.

Preferably, the number of said devices 20 is more than two. That is, at least two of the apparatuses 20 are placed in the housing space 120, and at least two of the apparatuses 20 are commonly housed in the base 10.

The base 10 includes the base body 11, the receiving portion 12 and at least one charging portion 13, wherein the charging portion 13 is electrically connected to the base body 11, when the device 20 is placed in the charging portion 13, the device 20 is powered by the charging portion 13, and the receiving power supply system receives power from at least one device 20.

It should be noted that when at least two of the devices 20 are received in the base 10, at least one of the devices 20 is powered by the base 10.

It should be noted that in other variant embodiments of the invention, the base 10 can house at least three devices 20, and the invention is not limited thereto.

In other variant embodiments of the invention, the base 10 can be charged to at least three of the devices 20, without the invention being limited thereto.

Referring to the first preferred embodiment of the present invention, when 2 devices 20 are commonly placed in the corresponding positions of the charging unit 13, at least two devices 20 are commonly charged by the base 10, so that the base 10 accommodates at least two devices 20 for supplying power, thereby reducing the charging pressure of at least two charging sockets occupied by different devices 20 through different charging heads.

Further, the base body 11 of the base 10 includes a supporting body 111 and a power supply part 112, the power supply part 112 is disposed on the supporting body 111, and the power supply part 112 can be connected to an AC power source or a DC power source, so that the base 10 supplies power to at least two devices 20.

Preferably, the device 20 is a first device 21 and a second device 22, respectively, wherein the first device 21 and the second device 22 can be placed in the receiving portion 12 of different chambers, respectively.

The receiving portion 12 includes a first receiving body 121 and a second receiving body 122. The first apparatus 21 is supported by the first housing body 121, and the second housing body 122 is supported by the second housing body 122.

More preferably, the receiving portion 12 has at least a first receiving cavity 1210 and a second receiving cavity 1220, the first receiving cavity 1210 is defined by the receiving main body 121, and the second receiving cavity 1220 is defined by the second receiving main body 122. The first device 21 is received in the first receiving cavity 1210, and the second device 22 is received in the second receiving cavity 1220.

Further, the charging portion 13 is provided to at least one of the first housing body 121 and the second housing body 122.

Preferably, when the charging portion 13 charges at least one device 20, the charging portion 13 includes a first charging terminal 131, a second charging terminal 132 and at least one power supply terminal 130, the first charging terminal 131 and the second charging terminal 132 are respectively electrically connected to the power supply terminal 130, and the power supply terminal 130 of the charging portion 13 is electrically connected to the power supply portion 112, so that the at least one device 20 is electrically connected to the power supply portion 112.

The first charging terminal 131 is disposed in the first receiving cavity 1210, the second charging terminal 132 is disposed in the second receiving cavity 1220, the first charging terminal 131 is electrically connected to the first device 21, and the second charging terminal 132 is electrically connected to the second device 22.

Preferably, the first receiving cavity 1210 and the second receiving cavity 1220 are respectively circumferentially disposed at the side of the base main body 11. That is, the first device 21 and the second device 22 housed in the housing portion 12 are held at intervals, and mutual interference between products is reduced.

The first charging terminal 131 of the charging unit 13 may be electrically connected to the first device 21 in the same manner or different from the second charging terminal 132 to the second device 22 in the same manner, and may be selected according to the type of the device 20. It will be understood and appreciated by those skilled in the art that the electrical connection means may be embodied as contact point connections and non-contact point connections, and the present invention is not limited thereto. Further, the contact point connection may be through a contact point contact, a plug contact (e.g., such as a USB interface, TYPE C interface, Lightning interface), and the non-contact point connection may be implemented as electromagnetic induction, magnetic resonance, microwave transmission, as will be understood and appreciated by those skilled in the art.

The first device 21 is selected from at least one of a combination cleaning device, a mobile device, a cooking device. The cleaning device is implemented, for example, as at least one of a sweeping robot, a vacuum cleaner, a scrubber. The mobile device may be implemented as at least one of a cell phone, an ipad, a game console, an AR device, an entertainment electronic device. For example, the cooking apparatus may be implemented as at least one of an automatic cooker, a baker, a thermo jug, a kettle.

The second device 22 is selected from at least one of a combination cleaning device, a mobile device, a cooking device. The cleaning device is implemented, for example, as at least one of a sweeping robot, a vacuum cleaner, a scrubber. The mobile device may be implemented as at least one of a cell phone, an ipad, a game console, an AR device, an entertainment electronic device. For example, the cooking apparatus may be implemented as at least one of an automatic cooker, a baker, a thermo jug, a kettle.

In the first preferred embodiment of the present invention, the first charging terminal 131 is implemented as a contact. When the first device 21 is received in the first receiving cavity 1210, the first device 21 is electrically connected to the first charging terminal 131 in a direct contact manner.

Preferably, the second charging terminal 132 is implemented as a contact. When the second device 22 is received in the second receiving cavity 1220, the second device 22 is electrically connected in a direct contact manner to the second charging terminal 132.

In another variant embodiment of the present invention, the first charging terminal 131 is implemented as at least one of a USB interface, a TYPE C interface, and a Lightning interface, and the first charging terminal 131 is electrically connected by implementing a direct contact connection of the first device 21.

Optionally, the second charging terminal 132 is implemented as at least one of a USB interface, a TYPE C interface, and a Lightning interface. When the second device 22 is received in the second receiving cavity 1220, the second device 22 is electrically connected in a direct contact manner to the second charging terminal 132.

It should be noted that the first charging terminal 131 and the second charging terminal 132 can also be implemented as other interfaces, such as VGA data line, DVI data line, HDMI data line, not only for electrical connection, but also for transmission of other information, so that the base 10 can be communicatively connected to other devices 20, and the invention is not limited thereto.

In other modified embodiments of the present invention, the first charging terminal 131 is implemented as a non-contact connection, for example, electromagnetic induction, magnetic resonance, microwave transmission, for example, the first charging terminal 131 and the first device 21 are electrically connected in a magnetic resonance manner, and the present invention is not limited thereto.

Optionally, the second charging terminal 132 is implemented as a non-contact connection, for example, electromagnetic induction, magnetic resonance, microwave transmission, for example, the second charging terminal 132 and the first device 21 are electrically connected in a magnetic resonance manner, and the invention is not limited thereto.

Preferably, the first device 21 has a first charging port 210, and the second device 22 has a second charging port 220, wherein the first charging port 210 of the first device 21 is in contact connection with the first charging terminal 131 of the base 10, and the second charging port 220 of the second device 22 is in contact connection with the second charging terminal 132 of the base 10. The charging types of the first charging port 210 of the first device 21 and the second charging port 220 of the second device 22 are not limited herein, and may be designed according to specific situations.

Referring to fig. 1A and 1B, the first charging port 210 is disposed at the bottom of the first device 21, and the second charging port 220 is disposed at the bottom of the second device 22, which is not limited herein and may be specifically designed according to the types of the first device 21 and the second device 22.

It is worth mentioning that the housing power supply system is applied to the home environment, and the first device 21 and the second device 22 are applied to the home environment after being housed in the base 10. The type of the first device 21 and the second device 22 is not a limitation of the present invention.

When the accommodating power supply system is applied to a living room in the home environment, the accommodating power supply system may preferably be disposed at a certain height away from the ground so that a user may directly access at least two of the devices 20 accommodated in the accommodating power supply system, wherein the accommodating power supply system may be comfortably taken by the user. When the base 10 of the housing power supply system is placed on a tea table, the user can reach the equipment 20 housed in the housing power supply system.

Referring to fig. 2A of the drawings, a housing power supply system of a second preferred embodiment of the present invention is disclosed and explained in detail, the housing power supply system being adapted to be applied to the same type of the apparatus 20, and further, the housing power supply system being adapted to be applied to at least two cleaning apparatuses. The apparatus 20 includes a first cleaning apparatus 21A and a second cleaning apparatus 22A, at least a portion of the first cleaning apparatus 21A and the second cleaning apparatus 22A being commonly housed in the base 10.

The first cleaning device 21A is fully automatic and is always used for floor cleaning, so the base 10 is placed on the floor to facilitate the placement of the first cleaning device 21A for different surface cleaning.

Preferably, the first cleaning device 21A is received in the first receiving cavity 1210 of the first receiving body 121, and the second cleaning device 22A is received in the second receiving cavity 1220 of the second receiving body 122.

Preferably, the first cleaning device 21A is implemented as a sweeping robot 21B and the second cleaning device 22A is implemented as a vacuum cleaner 22B. The dust collector comprises a detachable holding part 221B and a dust collection main body 222B detachably connected to the holding part 221B, and the holding part 221B drives the dust collection main body 222B to collect dust. Preferably, the dust suction main body 222B and the grip 221B are detachably provided. The grip 221B of the vacuum cleaner 22B is detachably disposed in the second receiving chamber 1220.

The first cleaning device 21A is electrically connected to the first charging terminal 131 in a contact connection manner. The grip portion 221B of the second cleaning device 22A is electrically connected to the first charging terminal 131 in a contact connection manner.

Referring to fig. 2B of the drawings, the sweeping robot 21B is electrically connected to the first charging terminal 131 in a contact connection manner. The first charging end 131 is disposed toward the distal end surface 112 and disposed in the first accommodating cavity 1210, and is retained by the first charging end 131 in a limited manner during the movement of the cleaning robot 21B, so that the cleaning robot 21B can be attached to and absorbed by the floor in the movement process.

Preferably, the first charging terminal 131 is implemented as 2 contacts to be directly connected to a charging port of the sweeping robot 21B, and the first charging terminal 131 is disposed in a manner of being protruded from the surface defining the first accommodating cavity 1210, so that the first charging terminal 131 can be directly contacted by the sweeping robot 21B for charging.

Optionally, the first charging terminal 131 has certain magnetism, so that the sweeping robot 21B can be attracted to the first charging terminal 131 during the moving process.

The first receiving body 121 includes a first bottom 1211, a first sidewall 1212, and a first top surface 1213, wherein the first sidewall 1212 extends from the first bottom 1211 to the first top surface 1213 to define the first receiving cavity 1210.

Referring to fig. 2B of the drawings, the first charging terminal 131 is formed on the first bottom 1211 of the first accommodating main body 121, and when the sweeping robot 21B moves on the first bottom 1211, the first charging terminal 131 can be connected in a contact manner.

Preferably, the distance between the first charging terminal 131 and the first side wall 1212 is adapted to the distance between the peripheral wall of the sweeping robot 21B and the charging port of the sweeping robot 21B. Further, the first charging terminal 131 has a certain length to be suitable for the robots 211 of different sizes to be adaptively charged.

Referring to fig. 2C of the drawings, in an alternative embodiment of the present invention, the first charging terminal 131 is disposed on the first sidewall 1212 defining the first receiving cavity 1210. More optionally, the first charging terminal 131 is disposed to protrude from the first sidewall 1212 of the first housing body 121 so as to be suitable for a charging potential disposed on a peripheral wall of the sweeping robot 21B.

In a modified embodiment of the present invention, the first charging terminal 131 is disposed on the first top surface 1213 defining the first receiving cavity 1210. More alternatively, the first charging terminal 131 is disposed to protrude from the first top surface 1213 of the first housing body 121.

Referring to fig. 2D of the drawings, the grip portion 221B of the vacuum cleaner 22B is electrically connected to the second charging terminal 132 in a contact connection manner.

The second charging terminal 132 is disposed in the second receiving cavity 1220 of the second receiving body 122. The second receiving body 122 defines a second supporting surface 1221 and a second side wall 1221, wherein the second side wall 1221 axially extends from the second supporting surface 1221 to define the second receiving cavity 1220.

Preferably, the second charging terminal 132 is disposed on the second supporting surface 1221 to be electrically connected to the second cleaning device 22A supported by the second supporting surface 1221.

Referring to fig. 2E of the drawings, in a modified embodiment of the present invention, the second charging terminal 132 is disposed on the second sidewall 1221 and is electrically connected to the second cleaning device 22A in a manner of being attached to the second sidewall 1221.

Alternatively, the first cleaning device 21A and the second cleaning device 22A are electrically connected to the first charging terminal 131 in a socket and plug manner.

Alternatively, the first cleaning device 21A is electrically connected to the first charging terminal 131 in a non-contact connection manner. The second cleaning device 22A is electrically connected to the first charging terminal 131 by a non-contact connection manner, and further, the non-contact connection manner is selected from the group of types of electromagnetic induction, magnetic resonance, and microwave transmission, and the present invention is not limited in this respect.

The support body 111 has a proximal end and a distal end, the first receiving cavity 1210 of the receiving portion 12 is formed in a radial direction of the proximal end of the support body 111, and the first receiving cavity 1210 is formed at the lower end of the support body 111 in such a manner that at least one first opening 1210 is communicated with an external space.

It is worth mentioning that the distal end and the proximal end of the support body 111 are defined in a vertical extension direction of the support body 111, and the proximal end of the support body 111 is close to the ground with respect to the distal end.

Because the sweeping robot 21B is suitable for full-automatic cleaning on the ground, the sweeping robot 21B can automatically enter the first accommodating cavity 1210 and keep the sweeping robot 21B to have the sweeping robot charging end 2110, the charging port of the sweeping robot 21B and the first charging end 131 of the charging portion 13 are directly contacted, and then when the sweeping robot charging end 2110 and the first charging end 131 are directly contacted, the sweeping robot 21B is charged by the base 10.

The holding portion 221B is detachably disposed in the second receiving cavity 1220. Therefore, the second receiving cavity 1220 is formed at the distal end of the supporting body 111, and the holding portion 221B is hooked on the supporting body 111 and is limited to the second receiving cavity 1220.

It should be noted that the second receiving cavity 1220 is disposed in the radial direction of the supporting body 111 in an upward opening manner in such a manner that at least one second opening 1220 is communicated with the external space.

Preferably, the second receiving cavity 1220 and the first receiving cavity 1210 are respectively formed in a radial direction of the support main 111.

Referring to fig. 3A and 3B of the drawings of the specification, a second preferred embodiment of the present invention is disclosed and explained in detail, and unlike the first preferred embodiment, the housing power supply system includes a first cleaning apparatus 21A, a second cleaning apparatus 22A and a base 10, the first cleaning apparatus 21A is implemented as a sweeping robot 21B, the second cleaning apparatus 22A is implemented as an integral type dust collector 22C, the integral type dust collector 22C is integrally charged by the base 10, and the sweeping robot 21B is housed and charged by the base 10. Further, the single body cleaner 22C and the sweeping robot 21B are mounted to a radial sidewall of the base 10. In other words, the first receiving cavity 1210 and the second receiving cavity 1220 are oppositely formed at a radial sidewall of the support body 111. The first opening 1210 of the first receiving cavity 1210 is maintained in a radial direction of the support main body 111. The second opening 1220 of the second receiving cavity 1220 is maintained in the axial direction of the support body 111 and the second opening 1220 of the second receiving cavity 1220 is maintained upward.

Preferably, the second charging terminal 132 is formed at a sidewall of the base 10 so that the integrated vacuum cleaner 22C can be integrally attached to the second charging terminal 132 of the base 10 to be charged.

It should be noted that, alternatively, the base 10 may receive and charge at least one of the integrated vacuum cleaner 22C and the other devices 20, and the base 10 is held at a high position, so that when the charging port of the integrated vacuum cleaner 22C is formed at a grip portion 221C of the integrated vacuum cleaner 22C, the base 10 may be adapted to the height of the grip portion 221C of the integrated vacuum cleaner 22C and charge the same.

Alternatively, the first receiving cavity 1210 and the second receiving cavity 1220 are oppositely formed in a radial direction of the support main 111. Further, the first receiving cavity 1210 and the second receiving cavity 1220 are adjacently formed at a radial sidewall of the support body 111. The first opening 1210 of the first receiving cavity 1210 is maintained in a radial direction of the support main body 111. The second opening 1220 of the second receiving cavity 1220 is maintained in the axial direction of the support body 111 and the second opening 1220 of the second receiving cavity 1220 is maintained upward.

Referring to fig. 4 of the drawings, a third preferred embodiment of the present invention is disclosed in detail and explained, which differs from the second preferred embodiment in that the housing power supply system includes at least one second cleaning device 22A and at least one communication device 23A and a base 10, and the second cleaning device 22A is implemented as the grip portion 221C of the integral cleaner 22C. The first receiving cavity 1210 and the second receiving cavity 1220 are formed in an axial direction of the distal end of the support main 111. In other words, the second receiving cavity 1220 is formed at an axial end surface of the supporting main body 111 to support the second cleaning device 22A in a vertically supported manner, and the grip portion 221C of the single body cleaner 22C can be held in a supported manner by the supporting main body 111.

The communication device 23A is preferably implemented as a lan signal expander, wherein the communication device 23A is continuously charged by the base 10 when the communication device 23A can be connected to a lan within a short distance to provide a lan signal to the device 20 that remains within a certain distance.

It is worth mentioning that the communication device 23A has its own battery, and the communication device 23A can be taken to another location so that the communication device 23A is moved to another location to provide a local area network signal.

Alternatively, the communication device 23A may be implemented as a 4G/5G mobile signal device, and the communication device 23A may provide local area network signals for the devices 20 within a certain distance. More optionally, the communication device 23A is self-contained with a battery, such that the communication device 23A can be moved to other areas for providing a local area network.

In other variations, the battery of the communication device 23A may be rechargeable to a mobile device, and the communication device 23A may continuously provide lan and power.

Alternatively, the first receiving cavity 1210 is formed at the ground proximal end of the supporting main body 111, and the first receiving cavity 1210 is formed at a radial sidewall of the supporting main body 111, so that the second cleaning device 22A adapted to automatically walk is received.

In other variant embodiments of the invention, the base 10 can be kept at a height away from the ground, such as a wall surface set at a height or placed on a support surface at a height, such as a table, a cabinet, etc. Alternatively, the second receiving cavity 1220 and the first receiving cavity 1210 are respectively formed at the proximal end of the support main body 111, and the second receiving cavity 1220 and the first receiving cavity 1210 are disposed at intervals on the radial sidewall of the support main body 111. The shapes of the first receiving cavity 1210 and the second receiving cavity 1220 are not limited by the present invention, and those skilled in the art should understand and know.

Referring to fig. 5B and 5C of the drawings, in a fourth preferred embodiment of the present invention, the housing power supply system includes the base 10 and at least two pieces of the equipment 20 continuously supplied with power from the base 10.

Preferably, the housing power supply system comprises the base 10 and at least three of the devices 20 continuously powered by the base 10.

The housing power supply system includes at least a second cleaning device 22A, the communication device 23A and the base 10. The second cleaning device 22A and the communication device 23A are collectively housed in the base 10 and charged by the base 10. The second cleaning device 22A handles the water and the base 10 can charge the second cleaning device 22A and the communication device 23A in the presence of water.

The second cleaning device 22A is always used for floor cleaning by the first receiving cavity 1210 of the first receiving body 121, and thus the base 10 is placed on the floor so that the second cleaning device 22A is placed.

The base 10 further has a third receiving body 123 and a third receiving cavity 1230, and the device 20 is implemented as a charging device 24A, and the charging device 24A is received in the third receiving cavity 1230. The third housing body 123 and the second housing body 122 are held by the distal end surface of the base body 111. That is, the third receiving body 123 and the second receiving body 122 are formed on the top surface of the base body 111.

Preferably, the charging device 24A is implemented as at least two batteries 24B, and the batteries 24B are held above the base main body 111 in such a manner as to be supported by the third housing main body 123. The battery 24B may be directly accessible and the battery 24B may be used to power other of the devices 20 individually.

Preferably, the battery 24B is embedded to be charged by the base 10.

More preferably, the second housing body 122 is provided with an ejection mechanism so that the battery 24B can be ejected by a key.

Alternatively, at least two of the batteries 24B may be simultaneously one-key ejected.

The second cleaning device 22A is implemented as a scrubber 22D, and the scrubber 22D is held by the first storage body 121 in a position-limited manner.

Referring to fig. 5A of the drawings, the first housing body 121 of the base 10 is vertically disposed upward. Preferably, the first receiving body 121 is disposed at one side of the base body 111 away from the base body 111 so that the scrubber 22D can be supported by the base 10, and the first power supply terminal 131 is formed at a sidewall of the base body 111 and is adapted to be directly contacted to charge a charging port of the scrubber 22D.

The scrubber 22D may partially retain the sewage in the first receiving body 121, and the base body 111 may supply power to the communication device 23A and the charging device 24A while the first receiving body 121 receives the water.

In a modified embodiment of this embodiment, the scrubber 22D may be self-cleaning in the first receiving body 121, and the first receiving body 121 collects the liquid flowing out of the scrubber 22D to prevent the sewage of the scrubber 22D from polluting the ground.

More optionally, the first housing body 121 is provided with a corresponding self-cleaning assembly to assist the floor washing machine 22D in cleaning.

Referring to fig. 5A of the drawings, when the first cleaning apparatus 21A is implemented as a floor washing machine, preferably, the base 10 further includes an auxiliary cleaning portion 14, wherein the auxiliary cleaning portion 14 is disposed in the first receiving cavity 1210, wherein the auxiliary cleaning portion 14 is adapted to clean a working head 220D of the floor washing machine 22D, so that the base 10 cleans the floor washing machine 22D without human intervention. Further, the charging device 24A is received in the second receiving cavity 1220, and the base 10 may continue to charge the charging device 24A and the scrubber 22D while the scrubber 22D is self-cleaned by the base 10.

It is worth mentioning that the auxiliary cleaning part 14 is formed in the first receiving cavity 1210. Further, the receiving portion 12 further has a supporting surface 123 and at least one extending surface 124, wherein the supporting surface 123 and the extending surface 124 define the first receiving cavity 1210, wherein the auxiliary cleaning portion 14 is formed on the supporting surface 123, when the cleaning device 21 is received in the first receiving cavity 1210 of the receiving portion 12, the floor washing machine 22D is supported by the supporting surface 123, and the floor washing machine 22D is radially limited by the extending surface 124, so that the working head 220D of the floor washing machine 22D is snugly supported by the supporting surface 123, when the working head 220D is self-cleaned, the first receiving cavity 1210 defined by the extending surface 124 and the supporting surface 123 can carry outflow water and dirt, which are prevented from flowing out from the cleaning device 21 and being stained to the ground, further, the auxiliary cleaning portion 14 is preferably disposed on the supporting surface 123, further, when the working head 220D is driven to rotate for cleaning, the auxiliary cleaning portion 14 may be adapted to the working head for self-cleaning.

Preferably, the auxiliary cleaning part 14 is a triangular protrusion formed on the supporting surface 123, so that the working head 220D can better discharge sewage and dirt when rotating.

It should be noted that the auxiliary cleaning portion 14 may also be an automatic rolling brush, so as to cooperate with the working head 220D to rotate and roll relatively, so as to drive the working head 220D to drain water and discharge sewage. The auxiliary cleaning part 14 may be electrically connected by the charging part 13, which should be understood and known to those skilled in the art herein. In addition, the auxiliary cleaning part 14 may be implemented as a type group selected from various forms of grooves, gears, automatic vibration elements, and automatic rolling brush elements, and the present invention is not limited thereto.

Referring to fig. 6A to 6B of the drawings of the specification, a power supply housing system of a fifth preferred embodiment of the present invention is disclosed in detail and explained, the power supply housing means of the power supply housing system includes a base 10 and at least two different types of the devices 20. Preferably, the devices 20 are at least one cleaning device implemented as a second cleaning device 22A and at least one charging device 24A, respectively. Further, the second cleaning apparatus 22A is the grip portion 221B of the vacuum cleaner 22B. The base 10 houses and powers the second cleaning device 22A and the charging device 24A, wherein the charging device 24A can be used for the second cleaning device 22A after being moved away from the base 10, the charging device 24A preferably being adapted to the second cleaning device 22A for continuously powering the second cleaning device 22A.

The grip portion 221B is housed in the base 10 by a side portion. That is, the first receiving body 121 is formed at a radial sidewall of the base 10.

It is worth mentioning that the charging device 24A of the power supply housing system is implemented as a battery and/or a battery pack. The charging device 24A can be charged by the base 10 for alternately powering the second cleaning device 22A. That is, the charging device 24A is directly charged by the base 10, so that the second cleaning device 22A can realize alternate power exchange by replacing the charging device 24A in real time, and then the second cleaning device 22A can be used for a long time, and further, during the cleaning process of the second cleaning device 22A, which is required to treat a large area, the second cleaning device 22A can stand by for a long time without needing to suspend charging due to the limited battery capacity, thereby increasing the cleaning requirement when a user urgently needs to clean a surface.

Preferably, the charging device 24A is a battery pack 24C having at least two batteries 24B, and the battery pack 24C is held above the base main body 111 in such a manner as to be supported by the second housing main body 122. The battery 24B housed in the battery pack 24C can be taken out and independently supply power to the other devices 20. The battery pack 24C may integrally power the other devices 20. The battery pack 24C can be mounted directly to the second cleaning device 22A, and the battery pack 24C is electrically connected to the second cleaning device 22A to provide power to the second cleaning device 22A. The battery pack 24C includes at least one battery 24B such that the battery removed from the battery pack 24C can be mounted to the second cleaning device 22A to provide power to the second cleaning device 22A.

Further, the battery pack 24C further includes a battery pack charging port 240C, and the second charging terminal 132 is formed on the second receiving body 122, wherein the second charging terminal 132 is connected to the battery pack charging port 240C of the battery pack 24C in a contact manner. The battery pack charging port 240C is formed at the bottom of the battery pack 24C so that the battery pack 24C receiving the battery 24B can be placed in the base body 111 for charging.

Alternatively, the second cleaning device 22A may be implemented as a sweeping robot, a mite removing device, or other cleaning devices, and the invention is not limited thereto. It is worth mentioning that the second cleaning device 22A refers to a device for surface cleaning or deep cleaning, which may be used for other various functions, and the invention is not limited to the type of the second cleaning device 22A.

Referring to fig. 7A and 7B of the drawings, in another modified embodiment of the fifth preferred embodiment of the present invention, the charging device 24A is implemented as the battery 24B, two batteries 24B are separately held in the two receiving portions 122, and the battery 24B is insertedly charged by the base 10. Preferably, the second housing body 122 is provided with an ejection mechanism so that the battery 24B can be ejected by one key.

Referring to fig. 7C of the drawings, the battery 24B may be externally disposed on at least one of the vacuum cleaner 22B and the other appliance 20, and the battery 24B is replaced in real time.

The battery 24B may be external to at least one of the vacuum cleaner 22B and the all-in-one vacuum cleaner 22C. The battery 24B can be plugged into at least one of the vacuum cleaner 22B and the all-in-one vacuum cleaner 22C in real time after being charged by the base 10, and the battery 24B can improve the operation time of the device 20, so that the endurance time of the device 20 is longer.

Referring to fig. 8A to 8D of the drawings of the specification, a base-based housing power supply system according to a sixth preferred embodiment of the present invention is disclosed and explained in detail, and the housing power supply system is different from the fifth preferred embodiment in that the housing power supply system further includes the base 10 and at least two charging devices 24A and the communication device 23A. The communication device 23A and at least two of the charging devices 24A are provided on the remote end surface of the base main body 111. That is, the communication device 23A and at least two of the charging devices 24A are provided on the top surface of the base main body 111.

Two of the charging devices 24A are implemented as the battery pack 24C accommodating at least two of the batteries 24B and at least two of the batteries 24B.

Preferably, the receiving portion 12 of the base 10 further includes the first receiving body 121, the second receiving body 122, a third receiving body 123, the fourth receiving body 124, and the fifth receiving body 125. The sweeping robot 21B is accommodated in the first accommodating body 121, the holding portion 221B of the vacuum cleaner 22B is accommodated in the second accommodating body 122, the communication device 23A is accommodated in the third accommodating body 123, the battery pack 24C is accommodated in the fourth accommodating body 124, and the battery 24B is accommodated in the fifth accommodating body 125.

It is worth mentioning that the battery 24B is held above the base main body 111 in a supporting manner. The battery 24B may be directly accessible and the battery 24B may be used to power other of the devices 20 individually.

Preferably, the battery 24B is embedded to be charged by the base 10.

Preferably, the fourth housing body 124 is provided with an eject mechanism so that the battery 24B can be ejected by one key. The fifth accommodating body 125 is provided with an eject mechanism so that the battery pack 24C can be ejected by one key.

The communication device 23A is implemented as a 4G/5G signal device or as a local area network signal expansion device so that the communication device 23A can provide a local area network to different devices 20 having network signals. More preferably, the device 20 housing the charging device may be provided for communication under a local area network.

Referring to fig. 9A of the drawings of the specification, a seventh preferred embodiment of the present invention is disclosed and explained in detail, and the housed power supply system is different from the sixth preferred embodiment in that the housed power supply system further includes the base 10 and at least two charging devices 24A and the communication device 23A. The communication device 23A and at least one of the charging devices 24A are provided at the remote end surface of the base main body 111. That is, the communication device 23A and at least one of the charging devices 24A are provided on the top surface of the base main body 111.

The charging device 24A is implemented as at least two of the batteries 24B.

The mobile device 25A is selected from the group of types of mobile phones, tablet computers, entertainment devices, gaming devices, displays, smart bands, smart watches, smart robots, the invention is not limited in any way herein.

The charging device 24A can be powered by the sub-base 10 in different devices such as the mobile device 25A or other cleaning devices 21, since the electrical connection of the charging device 24A can be implemented as a contact connection, further the charging device 24A can be powered by a contact or a plug contact, for example, the plug contact can be implemented as a USB interface, a TYPE C interface, or a Lightning interface, for example. The charging device 24A may also be powered to the other devices 20 by a contactless connection, including electromagnetic induction, magnetic resonance, microwave transmission, for example, as will be understood and appreciated by those skilled in the art.

The charging device 24A may be powered by different types of different powers of the device 20. More preferably, the charging device 24A may select the power and voltage output by the charging device 24A based on the type of device 20, such that the charging device 24A may be powered by different types of devices 20 of different power.

Preferably, the receiving portion 12 of the base 10 further includes the first receiving body 121, the second receiving body 122, a third receiving body 123, the fourth receiving body 124, and the fifth receiving body 125.

The tablet computer 25C is accommodated in the first accommodating cavity 1210 of the accommodating portion 12, and the tablet computer 25C is disposed in the second accommodating cavity 1220 of the accommodating portion 12. The first receiving cavity 1210 and the second receiving cavity 1220 of the receiving portion 12 are formed at the distal end portion of the support main body 111, and the cellular phone 25B and the charging device 24A are preferably held in a direction away from the ground.

The battery 24B is housed in the second housing body 122, the third housing body 123 can be used to house other devices, the communication device 23A is housed in the fourth housing body 124, and the mobile phone 25B is housed in the fifth housing body 125.

Preferably, the tablet computer 25C, the battery 24B, the communication device 25B, and the communication device 23A are accommodated by the base 10 for power supply. Further, the base 10 may be provided with a predetermined receiving space, not used for supplying power, and may be used for a user to receive articles.

Referring to fig. 9B of the drawings of the specification, a modified embodiment of the present preferred embodiment is disclosed in detail, and the accommodating power supply system further includes the base 10 and at least one charging device 24A and the communication device 23A. The communication device 23A and at least one of the charging devices 24A are provided at the remote end surface of the base main body 111. That is, the communication device 23A and at least one of the charging devices 24A are provided on the top surface of the base main body 111.

The charging device 24A is implemented as at least two of the batteries 24B.

Preferably, the receiving portion 12 of the base 10 further includes the first receiving body 121, the second receiving body 122, a third receiving body 123, the fourth receiving body 124, and the fifth receiving body 125. The mobile device 25C is housed in the first housing body 121. More preferably, a tablet computer 25C is housed in the first housing body 121, the battery pack 24C is housed in the second housing body 122, the communication device 23A is housed in the third housing body 123, and a mobile phone 25B is housed in the fourth housing body 124.

Preferably, the tablet computer 25C, the battery pack 24C, the communication device 25B, and the communication device 23A are accommodated by the base 10 for power supply.

Referring to fig. 9C of the drawings of the specification, in a modified embodiment of the present preferred embodiment, the power receiving system further includes the base 10, at least two charging devices 24A and the communication device 23A. The communication device 23A and at least two of the charging devices 24A are provided on the remote end surface of the base main body 111. That is, the communication device 23A and at least two of the charging devices 24A are provided on the top surface of the base main body 111.

The battery 24B is housed in the second housing body 122, the battery pack 24C is housed in the third housing body 123, the communication device 23A is housed in the fourth housing body 124, and the mobile phone 25B is housed in the fifth housing body 125.

Referring to fig. 10A of the drawings, the housing power supply system according to the eighth preferred embodiment of the present invention is disclosed and explained in detail, and different from the first preferred embodiment, the base 10 of the housing power supply system includes at least one processing module 14, wherein the processing module 14 includes at least one interaction unit 141, a control unit 142 and a communication unit 143, wherein the interaction unit 141 and the communication unit 143 are controlled by the control unit, wherein the interaction unit 141 obtains the user's instruction and transmits the user's instruction to the control unit 142 and the communication unit 143, wherein the communication unit 143 is communicably connected to other household devices, such as the devices 20 required by different households, such as an air conditioner 200, a television 200B, and the like, wherein when the user sends an instruction to control different devices 20, the interaction unit 141 of the base 10 receives the user's control instruction and transmits the user's instruction to the control unit 142, wherein the control unit 142 processes and analyzes a control command for controlling the device 20 and sends the control command to the communication unit 143 for controlling the device 20, so that the communication unit 143 is communicatively connected to a communication part (not shown) of different devices 20, wherein the devices 20 are controlled to the condition required by the user.

Referring to fig. 11A of the drawings, when the user is in the living room space, the user issues a voice command for adjusting the air conditioner 200A to a specified temperature (e.g., 26 ℃), the interaction unit 141 of the processing module 14 of the base 10 receives the voice command and transmits the voice command to the control unit 142, the control unit 142 processes and analyzes the voice command to adjust the air conditioner 200A to the specified temperature (e.g., 26 ℃), and the communication unit 143 receives the control command for adjusting the air conditioner 200 to the specified temperature (e.g., 26 ℃) from the control unit 142 and transmits the control command to the air conditioner 200A, so that the air conditioner 200A is adjusted to the specified temperature (e.g., 26 ℃).

Referring to fig. 11B of the accompanying drawings, when the user is located in a living room space, the user sends a voice instruction for playing a movie, the interaction unit 141 of the processing module 14 of the base 10 receives the voice instruction and then sends the voice instruction to the control unit 142, the control unit 142 processes and analyzes the voice instruction to obtain the regulation and control instruction for controlling the television 200B to play the movie, and the communication unit 143 receives the regulation and control instruction for controlling the television 200B to play the movie and then sends the regulation and control instruction to the television 200B, so that the television 200B plays the movie.

Referring to fig. 11C of the drawings of the specification, when the user is in a kitchen space, the user sends a voice instruction for playing music, the interaction unit 141 of the processing module 14 of the base 10 receives the voice instruction and sends the voice instruction to the control unit 142, the control unit 142 processes and analyzes the voice instruction to obtain the interaction instruction for directly playing the music and processes playing the music, and the interaction unit 141 converts an electrical signal for playing the music into an acoustic signal, so that the base 10 plays the music.

Referring to fig. 11D of the accompanying drawings of the specification, when the user is located in the living room space, the user sends a voice instruction for cleaning a specific area, the interaction unit 141 of the processing module 14 of the base 10 receives the voice instruction and then sends the voice instruction to the control unit 142, the control unit 142 processes and analyzes the voice instruction to obtain the regulation and control instruction for controlling the cleaning specific area (e.g., secondary lying) of the cleaning robot 200C, and the communication unit 143 receives the regulation and control instruction for controlling the cleaning specific area (e.g., secondary lying) of the cleaning robot 200C from the control unit 142 and then sends the regulation and control instruction to the cleaning robot 200C, so that the cleaning robot 200C cleans the specific area (e.g., secondary lying).

Referring to fig. 11E of the drawings of the specification, when the user is in the living room space, the user sends a voice instruction for cleaning the whole room, the interaction unit 141 of the processing module 14 of the base 10 receives the voice instruction and then sends the voice instruction to the control unit 142, the control unit 142 processes and analyzes the voice instruction to obtain the regulation and control instruction for controlling the cleaning whole room of the sweeping robot 200C, and the communication unit 143 receives the regulation and control instruction for controlling the cleaning whole room of the sweeping robot 200C from the control unit 142 and then sends the regulation and control instruction to the sweeping robot 200C, so that the sweeping robot 200C cleans the whole room.

The housed power supply system may be used to intelligently service a user.

Referring to fig. 11F and 11G of the drawings of the specification, when the user is in a kitchen space, the user sends a voice command to purchase an article, such as purchasing a set of filter elements of a sweeping robot, the interaction unit 141 of the processing module 14 of the base 10 receives the voice command and sends the voice command to the control unit 142, the control unit 142 processes and analyzes the voice command to obtain a shopping command, and feeds back purchase information and identification information of a shopping cart to the interaction unit 141, wherein the interaction unit 141 sends an identification code of the authorization received from the user and sends the identification code to the processing module 14 to complete the purchase, the interaction unit 141 sends "order placement is successful, delivery time is, and order details are requested to be referred to the user by using a mobile device".

It should be noted that the interaction unit 141 can convert the electric signal into an acoustic signal, an optical signal and other interaction signals, and the invention is not limited thereto. The interaction unit 141 may actively acquire information such as voice, light, fingerprint, etc., without any limitation, and those skilled in the art should understand and know.

Referring to fig. 12A of the drawings of the specification, the housing power supply system of the modified embodiment of the eighth preferred embodiment of the present invention is disclosed and explained in detail, and unlike the eighth preferred embodiment, the processing module 14 of the base 10 may be provided to the equipment 20. The devices 20 are communicatively connected to other of the devices 20 and interact with a user. The device 20 has a device processing module 211, and the device processing module 211 is communicatively connected to other devices 20 and interacts with a user.

The device processing module 211 of the device 20 is communicatively coupled to other of the devices 20 to control the other of the devices 20.

Referring to fig. 12B of the drawings of the specification, the housing power supply system of the modified embodiment of the eighth preferred embodiment of the present invention is disclosed and explained in detail, and unlike the eighth preferred embodiment, the processing module 14 of the base 10 may be provided to the equipment 20. The devices 20 are communicatively connected to other of the devices 20 and interact with a user. The device 20 has a device processing module 211, and the device processing module 211 is communicatively connected to other devices 20 and interacts with a user.

Further, the base 10 houses a plurality of the devices 20 that are powered, wherein the charging device 24A is communicatively connected to the other devices 20.

The housing power supply system further includes the base 10 and at least two charging devices 24A and the communication device 23A. The communication device 23A and at least two of the charging devices 24A are provided on the remote end surface of the base main body 111. That is, the communication device 23A and at least two of the charging devices 24A are provided on the top surface of the base main body 111.

Preferably, the receiving portion 12 of the base 10 further includes the first receiving body 121, the second receiving body 122, a third receiving body 123, the fourth receiving body 124, and the fifth receiving body 125. The sweeping robot 21B is accommodated in the first accommodating body 121, the holding portion 221B of the vacuum cleaner 22B is accommodated in the second accommodating body 122, the communication device 23A is accommodated in the third accommodating body 123, the battery pack 24C is accommodated in the fourth accommodating body 124, and the batteries 24B are respectively accommodated in the fifth accommodating body 125.

Preferably, the battery 24B is communicatively connected to the other devices 20. When the battery 24B is placed in a different device 20, the battery 24B may receive regulatory commands to the device 20, and the device 20 may then be intelligently controlled. Further, the devices 20 inside the home can be communicatively connected by adapting the battery 24B to constitute a home control system.

The battery 24B has a battery processing module 241B, the battery processing module 241B communicatively coupled to the other devices 20 and interacting with the user. The embodiments of the various embodiments can be freely combined, and the invention is not limited in any way in this respect.

Referring to fig. 12C of the drawings of the specification, the housing power supply system according to another variation of the eighth preferred embodiment of the present invention is disclosed and explained in detail, and unlike the first variation of the eighth preferred embodiment, the device 20 having a communication function is implemented as the battery pack 24C having at least two batteries 24B, and the battery pack 24C is implemented as an intelligent device. Not only can communication be enabled with different ones of the devices 20, but also interaction with a user through the device 24C.

The battery pack 24C has a battery pack processing module 241C, wherein the battery pack processing module 241C is communicatively coupled to the other devices 20 and interacts with the user. It is worth mentioning that the communication mode is not limited in any way in the present invention, and those skilled in the art should understand and know.

In other modified embodiments of the present embodiment, the battery pack 24C may also control the device 20 charged by the battery 24B through the battery 24B, and the type of the device 20 is not limited herein. The battery pack 24C can be used as an intelligent control device to facilitate the life of a user.

Referring to fig. 12D of the drawings of the specification, the housing power supply system according to another modified embodiment of the eighth preferred embodiment of the present invention is disclosed and explained in detail, and unlike the first modified embodiment of the eighth preferred embodiment, the device 20 having a communication function is implemented as the communication device 23A, the communication device 23A is communicably connected to the different device 20, and the battery pack 24C is implemented as an intelligent device. Not only can communication be enabled with different ones of the devices 20, but also interaction with a user through the device 24C.

The communication device 23A may be implemented as a 4G/5G mobile signal device and/or a local area network signal expansion device, and the communication device 23A may provide local area network signals for the devices 20 within a certain distance. More optionally, the communication device 23A is self-contained with a battery, such that the communication device 23A can be moved to other areas for providing a local area network.

The communication device 23A has a communication processing module 231A, wherein the communication processing module 231A is communicably connected to the other devices 20 and interacts with the user.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims

1. A base-based contained power supply system, comprising:

at least one first device; and

2. The susceptor-based receiving power supply system of claim 1, wherein the receiving portion includes at least a first receiving body and a second receiving body, the first device being received in the first receiving body, wherein the second device is received in the second receiving body, wherein the first device and the second device are commonly received.

3. The base-based housing power supply system of claim 2, wherein the power supply portion comprises at least a first charging terminal, a second charging terminal, and a power supply terminal, wherein the first charging terminal and the second charging terminal are conductively connected to the power supply terminal, wherein the first charging terminal is formed at the first housing body, wherein the second charging terminal is formed at the second housing body, and wherein the power supply terminal is powered by the base body.

4. The base based housed power supply system of independent claim 1 wherein the first device is of a type selected from at least one of a combination cleaning device, a mobile device, a cooking device, wherein the second device is of a type selected from at least one of a combination cleaning device, a mobile device, a cooking device.

5. The base based housed power supply system of independent claim 4, wherein the cleaning device is selected from at least one of a combination sweeping robot, a vacuum cleaner, a floor scrubber, the mobile device is selected from at least one of a combination cell phone, ipad, a game console, an AR device, an entertainment electric device, and the cooking device is selected from at least one of a combination automatic cooker, a roaster, a thermo jug, and a kettle.

6. A base-based contained power supply system, comprising:

7. The base based housed power supply system of claim 6 wherein the type of device is selected from at least one of a combination cleaning device, a mobile device, a cooking device.

8. A base-based contained power supply system, comprising:

9. The base-based housed power supply system of claim 8 wherein the charging device is a battery or the battery pack is provided with at least two removable batteries.

10. The base-based housed power supply system of independent claim 8, further comprising at least one device, wherein the device and the charging device are commonly housed by the base for power supply.