CN218335348U - Accommodating power supply system - Google Patents

Abstract

The utility model relates to an equipment accomodates the power supply field, especially relate to an accomodate power supply system, wherein the utility model discloses an accomodate power supply system, wherein power supply system is suitable for supplying power in at least one equipment, it includes a base and an at least charging equipment to accomodate power supply system, wherein the base includes a base main part, an at least portion of acceping and an at least portion of charging, wherein the portion of charging by circuit connection in the base main part, wherein the base main part by circuit connection in external circuit, the portion of charging set up in the portion of acceping, wherein the portion of acceping further includes an at least first portion of acceping and an at least second portion of acceping, for the equipment is acceptd in the portion of charging, wherein the charging equipment in order to be set up in the mode of second portion of acceping by circuit connection in the portion of charging, charging equipment is with the storage electric quantity and by at least one of them mode of base main part circuit connection keeps having an electricity throughout.

Description

Accommodating power supply system

Technical Field

The utility model relates to an equipment accomodates the power supply field, especially relates to an accomodate power supply system.

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, floor 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.

If the charger cannot be normally connected due to a charging potential or an external circuit failure, the smart device cannot be electrically connected to the charging head, which may affect the operation of the smart device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an accept power supply system, wherein, the sustainable power supply for equipment of base to remove user's the charging wire of charging for the process that equipment charges and the searching adaptation from the pressure of the first charging seat of charging.

Another object of the present invention is to provide a power supply system, wherein the base can continuously supply power to at least two devices to reduce the load of the household charging seat, and effectively reduce the problem of tension of the charging seat caused by the increase of the electric devices.

Another object of the present invention is to provide an accommodating power supply system, wherein, the accommodating power supply system can provide the external battery for the device to use alternately, the replaceable external battery can prolong the service time of the device, and prevent the problem that the electric capacity of the electric device is insufficient and the electric device cannot be continuously cleaned.

Another object of the utility model is to provide an accept power supply system, wherein, the base charges in external battery, can reduce effectively because the battery damages the problem that causes the unable long-time operation of electrical equipment, has reduced the cost that electrical equipment changed, has improved electrical equipment's life, has reduced electrical equipment's fortune dimension cost.

Another object of the present invention is to provide an accommodating power supply system, wherein the accommodating power supply system realizes the exchange of external batteries between devices of different types.

Another object of the present invention is to provide a system for containing and supplying power, wherein the base can continuously supply power to at least one cleaning device and at least one charging device, wherein the cleaning device and the base are communicatively connected, whereby the base is electrically connected to the charging device, even if the base is not electrically connected to an external circuit, the base can still be connected to the cleaning device to prevent the base from being communicatively connected to the cleaning device in case of power failure.

It is another object of the present invention to provide a system for containing power, wherein the device can be powered wirelessly by the base, so that the device can be electrically connected to the base by just placing the device in the one motion.

Another object of the present invention is to provide a power supply system, wherein, the other device can be wirelessly powered by the wireless charging portion of the device connected to the base through the circuit, that is, the base does not need to reserve the accommodating space with the size of the adaptive size, and does not need to adapt to the charging port of the device, and the other device can be wirelessly powered by the device connected to the base through the circuit.

Another object of the present invention is to provide a storage power supply system, wherein the external wireless charging port is not only reduced for the base

Another object of the present invention is to provide a housing power supply system, wherein the base houses the cleaning device, when the base and the cleaning device are communicatively connected, the cleaning device can perform self-cleaning.

Another object of the present invention is to provide a storage power supply system, wherein the base is always connected to the chongnian device and the external circuit.

Another object of the present invention is to provide a power supply system, wherein the base is connected to the other devices through communication.

Another object of the present invention is to provide an accommodating power supply system, wherein the accommodating power supply system supplies power to other devices all the time.

Another object of the present invention is to provide a power supply accommodating system, wherein the cleaning device includes and is not limited to a floor sweeping robot, a vacuum cleaner, and a floor cleaning machine.

Other advantages and features of the invention will become more fully apparent from the following detailed description and appended claims, taken in conjunction with the accompanying drawings, which are particularly pointed out in the appended claims.

According to an aspect of the present invention, the aforementioned object and other objects and advantages can be achieved by an accommodating power supply system, wherein the power supply system is adapted to supply power to at least one device, comprising:

a base, wherein the base comprises a base body, at least one receiving portion, and at least one charging portion, wherein the charging portion is electrically connected to the base body, wherein the base body is electrically connected to an external circuit, and the charging portion is disposed in the receiving portion, wherein the receiving portion further comprises at least one first receiving portion and at least one second receiving portion for the device to be received in the charging portion; and

at least one charging device, wherein the charging device is electrically connected to the charging unit in a manner of being disposed in the second housing unit, and is maintained in a state of being at least one of charged and electrically connected to the base main body.

According to an embodiment of the utility model, by battery charging outfit quilt all the time base circuit connects, other the equipment with direct contact battery charging outfit's mode circuit connect in battery charging outfit.

According to an embodiment of the present invention, the charging device includes at least one charging device wireless charging portion, wherein the charging device wireless charging portion is held in a manner of being oriented to an external space, and the other devices are electrically connected to the charging device wireless charging portion in a manner of being placed in the charging device.

According to an embodiment of the present invention, the charging device further comprises at least two replaceable pluggable batteries, wherein the plugging direction of the charging device and the wireless charging portion of the charging device are maintained homolaterally.

According to the utility model discloses an embodiment, by the battery charging outfit circuit connect in the battery, the battery charging outfit is all the time with the storage electric quantity, by but at least one of them mode among base main part circuit connection's the mode and the replacement plug battery remains the electricity all the time.

According to the utility model discloses an embodiment, charging equipment further includes two at least pluggable batteries, wherein the extending direction and the battery plug direction of the wireless portion of charging equipment are radially set up.

According to an embodiment of the present invention, the manner in which the charging apparatus is detachably exposed to the base is accommodated by the base.

According to an embodiment of the present invention, the base main body has a near end portion and a far end portion with respect to a near ground, and the second housing portion is formed at the far end portion, wherein the charging device housed in the second housing portion and the far end portion of the base are kept flush.

According to an embodiment of the present invention, the base main body has a near end portion and a far end portion relative to the ground, the second receiving portion is formed at the far end portion, wherein the charging device received in the second receiving portion is supported by the end surface of the base defined by the far end portion.

According to an embodiment of the present invention, the base body has a proximal end portion close to the ground, a distal end portion and a radial sidewall from the proximal end portion and the distal end portion, the second receiving portion is formed in the radial sidewall of the base, and the charging device is placed in the radial sidewall and is held flush with the radial sidewall of the base.

According to an embodiment of the present invention, the accommodating portion includes at least one third accommodating portion, and the other devices are accommodated in the third accommodating portion in a manner of being connected to the charging device wirelessly.

According to an embodiment of the invention, the accommodation portion includes at least a third accommodation portion, and the other of the apparatus and the charging apparatus are jointly accommodated in the mode radio connection of the accommodation portion.

According to an embodiment of the invention, the other type of the device is selected from at least one of the group consisting of a cleaning device, a power supply device, an intelligent device, a mobile device, a communication device, and a cooking device.

According to an embodiment of the invention, the other said devices are mobile devices of a type selected from at least one of a combination cell phone, ipad, game console, AR device, entertainment electric device and entertainment electric device.

According to an embodiment of the present invention, the type of the charging device is selected from a group consisting of a battery, a battery pack for accommodating at least two batteries, an intelligent battery, at least one intelligent battery pack, and a wirelessly chargeable battery pack.

According to another aspect of the present invention, the present invention provides an accommodating power supply system, including:

a base, wherein said base comprises a base body, at least one receiving portion and at least one charging portion, wherein said charging portion is electrically connected to said base body, wherein said base body is electrically connected to an external circuit, said charging portion is disposed in said receiving portion, wherein said receiving portion further comprises at least one first receiving portion and at least one second receiving portion;

at least one first device, wherein the first device is received in the first receiving portion, an

At least one charging device, wherein the charging device is electrically connected to the charging unit in a manner of being disposed in the second housing unit, and is maintained in a state of being at least one of charged and electrically connected to the base main body.

According to an embodiment of the present invention, the first device is electrically connected to the base main body in a manner of being accommodated in the first accommodation portion, and the first device and the charging device are independently powered by the base main body.

According to an embodiment of the invention, the first device is a cleaning device, the type of the cleaning device is selected from the group of types consisting of a sweeping robot, a sweeping and mopping integrated vacuum cleaner, and a floor cleaning machine.

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 for accommodating a power supply system according to a first preferred embodiment of the present invention in a state where the base and a device are separated.

Fig. 1B is a perspective view of the power supply system according to the above preferred embodiment of the present invention, in a state where the power supply system is accommodated by the base.

Fig. 2A is a perspective view of a power supply accommodating system according to a second preferred embodiment of the present invention.

Fig. 2B is a perspective view of the accommodating power supply system according to the above preferred embodiment of the present invention.

Fig. 2C is a perspective view of the accommodating power supply system according to the above preferred embodiment of the present invention.

Fig. 3A is a three-dimensional schematic perspective view of a power supply system according to a third preferred embodiment of the present invention.

Fig. 3B is another perspective view of the accommodating power supply system according to the above preferred embodiment of the present invention.

Fig. 3C is another perspective view of the accommodating power supply system according to the above preferred embodiment of the present invention.

Fig. 3D is a perspective view of the accommodating power supply system according to the modified embodiment of the preferred embodiment of the present invention.

Detailed Description

The following description is provided 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 a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

Referring to fig. 1 of the drawings, a power supply accommodating system according to a first preferred embodiment of the present invention is disclosed and explained in detail, wherein the power supply accommodating system includes at least one base 10, wherein the base 10 accommodates at least one device 20, the base 10 includes a base body 11, an accommodating portion 12 and defines at least one accommodating space 120, wherein the charging portion 13 is disposed on the base body 11 to define the accommodating space 120, and when the device 20 is disposed in the accommodating portion 12, the device 20 is accommodated in the accommodating space 120 of the accommodating portion 12, so that at least one device 20 is accommodated by the power supply accommodating 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 is worth mentioning that, in other variant embodiments of the present invention, the base 10 can accommodate at least three devices 20, and the present invention is not limited thereto.

In other variant embodiments of the invention, the base 10 can be charged in at least three of the devices 20, without any restriction.

Referring to the first preferred embodiment of the present invention, when 2 devices 20 are commonly disposed at 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 seats occupied by different charging heads of the devices 20.

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 electrical connection manner in which the first charging terminal 131 of the charging unit 13 is electrically connected to the first device 21 and the electrical connection manner in which the second charging terminal 132 is electrically connected to the second device 22 may be the same or different, 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 may be implemented as a contact connection and a non-contact connection, 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 embodied, for example, as at least one of a sweeping robot, a vacuum cleaner, a floor 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 other modified embodiments 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 to the first device 21 in a direct contact manner.

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

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 communicably connected to other devices 20, and the present 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, and the present invention is not limited thereto, 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 does not limit 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 to 2C of the drawings of the specification, a housing power supply system of a second preferred embodiment of the present invention is disclosed and explained in detail, said housing power supply system being different from the first preferred embodiment in that said power supply housing means of said power supply housing system comprises a base 10 and at least two different types of said apparatuses 20. Preferably, the devices 20 are at least one cleaning device implemented as cleaning device 22A and at least one charging device 24A, respectively. Further, the cleaning device 22A is the grip portion 221C of the vacuum cleaner 22C. The base 10 houses and powers the cleaning device 22A and the charging device 24A, wherein the charging device 24A can be used for the cleaning device 22A after being moved away from the base 10, the charging device 24A preferably being adapted to the cleaning device 22A for continuously powering the cleaning device 22A.

It should be noted that the supporting body 111 includes a far end 1001 and a near end 1002, wherein the near end 1002 and the far end 1001 are respectively defined in a vertical extending direction of the supporting body 111, and the near end 1002 of the supporting body 111 is close to the ground with respect to the far end 1001. Preferably, the charging device 24A is exposed to the distal end face 1001 of the support body 111.

The support body 111 further has a radial sidewall 1003 connecting the proximal end 1002 and the distal end 1001. Preferably, the holding portion 221C is laterally received in the base 10. That is, the first receiving body 121 is formed at the radial sidewall 1003 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 cleaning device 22A. That is, the charging device 24A is directly charged by the base 10, so that the cleaning device 22A can be replaced by replacing the charging device 24A in real time, and thus the cleaning device 22A can be used for a long time, and further, during the cleaning process of the cleaning device 22A required to treat a large area, the cleaning device 22A can be in standby operation for a long time without the need of suspending charging due to the limited battery capacity, which increases the cleaning need when a user needs to clean a surface urgently.

Preferably, the charging device 24A is a battery pack 24C that houses 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 removed to supply power to other devices 20 individually. The battery pack 24C may integrally power the other devices 20. The battery pack 24C can be mounted directly to the cleaning device 22A, and the battery pack 24C is electrically connected to the cleaning device 22A to provide power to the 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 cleaning device 22A to provide power to the cleaning device 22A.

Further, the battery pack 24C further includes a charging device wireless charging portion 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 charging device wireless charging portion 240C of the battery pack 24C in a contact manner. The charging device wireless charging section 240C is formed at the bottom of the battery pack 24C so that the battery pack 24C housing the battery 24B can be placed on the base main body 111 for charging.

Alternatively, the cleaning device 22A is implemented as a sweeping robot, a mite removing device or other cleaning device,

here, the present invention is not limited at all. It is worth mentioning that the cleaning device 22A refers to a device for surface cleaning or deep cleaning, which may be used for other multi-functional purposes, and the present invention is not limited to the type of the cleaning device 22A.

The battery pack 24C may be externally provided to at least one of the cleaner 22C and the all-in-one cleaner 22C'. The battery pack 24C can be plugged into different devices 20 in real time after being charged by the base 10 to directly supply power to the devices, and the battery pack 24C can improve the running time of the devices 20, so that the endurance time of the devices 20 is longer.

Since the battery pack 24C is electrically connected to the three batteries 24B accommodated therein, the capacity of the battery pack 24C is increased, and the capacity of the three batteries 24B is increased. Since the battery pack 24C itself has batteries, that is, when all three batteries 24B are taken out, the battery pack 24C can supply power, but the capacity of the capacitor is relatively small.

When the battery pack 24C containing at least three batteries 24B is connected to other devices 20 by a circuit, the battery pack 24C has a longer duration for supplying power to the devices 20, and is suitable for some devices 20 with larger power and longer service time, thereby improving the use experience of users.

The second receiving portion 122 is formed at a distal end 1001, wherein an end surface of the charging device 24A received in the second receiving portion 122 and the distal end 1001 of the base 10 are kept flush. In other words, the charging device 24A accommodated in the second accommodating portion 122 is held so as to protrude from an end surface of the distal end portion 1001 of the base 10.

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 first receiving cavity 1210 of the first receiving portion 121 is formed on the radial side 1003 of the support body 111 in the radial direction, and the second receiving cavity 1220 of the second receiving portion 122 is formed on an end surface defined by the distal end 1001 of the support body 111 in the axial direction. The battery pack 24C is supported by the support body 111 in such a manner as to protrude from the end surface defined by the distal end 1001 of the support body 111.

Further, the receiving portion 12 further includes at least one third receiving portion 123, wherein the third receiving portion 123 is disposed adjacent to the first receiving portion 122, and the mobile device 25A can be received in the third receiving portion 123, so that the battery pack 24C received in the second receiving portion 122 and the mobile device 25A are attached, and then the mobile device 25A can be wirelessly charged by the battery pack 24C.

The charging unit 13 further includes a third charging terminal 131, and the mobile device 25A is electrically connected to the third charging terminal 131 in a manner of being inserted into the third receiving unit 123. Preferably, the charging device 25A is inserted and pulled in a direction that is a circuit connection interface setting direction.

Alternatively, the plugging direction of the mobile device 25A and the circuit connection interface setting direction are maintained in a staggered manner. The mobile apparatus 25A is wirelessly electrically connected with the third charging end 131.

The battery pack 24C is housed in the base 10 so as to be supported by the end surface defined by the distal end surface 1001 of the base 10. In other words, the battery pack 24C is contact-connected to the base 10 in such a manner as to be placed on the end surface of the base 10, and since the mobile device 25A is held in a manner perpendicular to the end surface defined by the distal end surface 1001 of the base 10, the side wall of the mobile device 25A and the mobile device 25A can be snugly held above the end surface of the base 10. The battery pack 24C and the mobile device 25A are operably wirelessly electrically connected. By the battery pack 24A being always powered in a manner of replacing at least one of the batteries 24B, being electrically connected by the base 10, and storing power, the mobile device 25A can always be electrically connected to the battery pack 24C in a manner of being keyed into the base 10.

Optionally, the position of the battery pack 24C may be relatively movable, so that the mobile device 25A being restrained may be attached by the battery pack 24C by movement of the position of the battery pack 24C. The battery pack 24C and the mobile device 25A are operably wirelessly electrically connected, wherein the cell phone 25B can always be electrically connected by the battery pack 24C such that the cell phone 25B is always powered.

Referring to fig. 3A to 3C of the drawings of the specification, a housing power supply system of a second preferred embodiment of the present invention is disclosed and explained in detail, which differs from the first 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 at the remote end 1001 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 support body 111 has the proximal end 1002 and the distal end 1001 relatively close to the ground, the distal end 1001 and the proximal end 1002 of the support body 111 are defined in a vertical extension direction of the support body 111, and the proximal end 1002 of the support body 111 is close to the ground with respect to the distal end 1001.

Preferably, at least two of the charging device 24A and the communication device 23A are respectively disposed at the remote end 1001 of the base main body 111, and the charging device 24A and the communication device 23A are supported by the base main body 111 in an upward facing manner, so that the charging device 24A and the communication device 23A are easily inserted and removed.

Since the communication device 23A may be implemented as a gateway providing a local area network signal amplifier, it may also be implemented as a gateway providing a local area network. The communication device 23A may be a router, a modem, or a device integrating a router and a modem, and the present invention is not limited thereto.

Preferably, the power supply system further comprises a mobile device 25A, wherein the mobile device 25A and the charging device 24A are jointly accommodated in the base 10 in a fitting manner. The charging device 24A is electrically connected to the charging unit 12 or stores the amount of electricity. The mobile device 25A is continuously charged by the charging device 24A all the time. That is, the mobile device 25A may be wirelessly charged by the charging device 24A disposed on the base 10, or may be wirelessly charged by the charging device 24A disposed away from the base 10. The charging device 24A always holds power in a stored power amount or in a circuit connection with the base main body 10.

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. When the battery pack 24C is held in the base 10, the battery 24B can be used for other devices 20 after being separately taken out from the battery pack 24C.

Preferably, the battery pack 24C accommodates at least three batteries 24B. Each of the batteries 24B is held at intervals, and the battery pack 24C has at least three battery receiving cavities, and the three batteries 24B are received in the same side from one insertion and extraction surface of the battery pack 24C in an insertable and extractable manner. That is, the battery 24B can be taken out for use, wherein the battery 24B and the battery pack 24C can be electrically connected, so that a plurality of batteries 24B are electrically connected to the battery pack 24C to expand the capacity of the battery pack 24C into a larger capacity, and the battery pack 24C can still store the electric quantity for other electric quantities after the battery 24B is taken out from the battery pack 24C.

The battery pack 24C is always kept charged in a manner of storing electric power, being electrically connected to the base body 10, and replacing at least one of the pluggable batteries 24B, so that the battery pack 24C is always supplied with power to the mobile phone 25B.

Since the battery pack 24C is a wirelessly chargeable battery pack 24C, when the base 10 is electrically connected to an external circuit, the battery pack 24C is charged and discharged to wirelessly charge the other devices 20, and when the base 10 is not electrically connected to the external circuit, the battery pack 24C is only discharged to wirelessly charge the other devices 20. That is, the other devices 20 can always be wirelessly charged by the battery pack 24C, even without the power supply of the external circuit, the charging requirements of the other devices 20 are secured, preventing the wireless charging requirements of the devices 20 in an emergency situation where there is no power. In addition, the battery 24B of the battery pack 24C may be electrically connected to the device 20 in such a manner that the battery 24B can be taken out of the battery pack 24C, so that the device 20 may be charged in such a manner that the device is placed on the base 10, or in such a manner that the battery 24B is taken out and then is charged away from the base 10, so that the charging manner of the device 20 is more flexible.

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 separately.

Preferably, the battery 24B is embedded to be charged by the base 10. When the base body 11 is powered, the battery 24B is powered by the base body 11, and when the base body 11 is not connected to an external circuit, the base body 11 is powered by the battery 24B in a reverse manner, that is, the base body 11 is always powered by the battery 24B and/or the external circuit, so as to prevent the other devices 20 powered by the base body 11 from being unable to be powered and unable to operate normally. That is, the communication device 23A can be always kept in the powered base 10, so as to keep the communication device 23A always providing a local area network, thereby effectively keeping the network security of the user.

Preferably, the base 10 is provided with an ejection mechanism so that the battery 24B can be ejected by a key. The base 10 is provided with an ejection mechanism so that the battery pack 24C can be ejected by a key.

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

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. 3A of the drawings, the battery pack 24C has at least one wireless charging unit 240C, and the wireless charging unit 240C of the battery pack 24C and the insertion/extraction surface of the battery 24B are held in a staggered manner. In other words, the exposed surfaces of the wireless charging section 240C and the battery 24B of the battery pack 24C are held in a staggered manner.

Preferably, the battery pack 24C is held at one side of the base 10 such that at least two surfaces of the battery pack 24C received in the base 10 are exposed to an external space. The battery pack 24C can be accommodated in the second accommodating cavity 122 by being pushed in from one side of the base 10. Optionally, the battery pack 24C is accommodated in the second accommodating cavity 122 by being inserted from above the base 10, and the present invention is not limited thereto.

Further, the battery 24B and the wireless charging section 240C are exposed to the outside space. Preferably, the wireless charging section 240C is horizontally placed to be held on the upper surface of the base 10, and thus when the other devices 20 are placed on the upper surface of the base 10, only one action is required to place the devices 20 and the wireless charging section 240C in electrical connection. That is, as long as the device 20 is held at the position of the base 10 corresponding to the battery pack 24C, the battery pack 24C can be used for wireless charging, thereby reducing the use of various charging wires.

Alternatively, the battery pack 24C is supported by the base 10. That is, the battery pack 24C is held above the base 10. Further, the device 20 may be held above the battery pack 24C to be wirelessly charged by the battery pack 24C.

Referring to fig. 3C of the drawings, when the base 10 is connected to an external circuit, the battery pack 24C is electrically connected to the base 10, and the device 20 is wirelessly charged by the battery pack 24C. When the base 10 is not connected to an external circuit or the external circuit is not powered, the battery pack 24C can not only supply power to the base 10, but also charge the device 20 wirelessly, so that a user can still stably use the battery pack 24C for charging even when the mains supply has a power failure, and troubles caused by the power failure are reduced.

Preferably, the device 20 is implemented as the mobile device 25A. Further, the smart device 25A includes, but is not limited to, the cell phone 25B, ipad, a game device, and a smart watch. The type of the device 20 is not subject to any limitation of the present invention.

Preferably, the smart device 25A is implemented as a mobile phone 25B, the battery pack 24C is electrically connected to the base 10 at all times, and the mobile phone 25B is electrically connected to the battery pack 24C in direct contact with the battery pack 24C. Further, the charging device wireless charging section 240C of the battery pack 24C is held so as to face the external space, the cell phone 25B is electrically connected to the charging device wireless charging section 240C so as to be placed in the charging device, and the cell phone 25B is held at the remote end 1001 of the base 10.

Referring to fig. 3D of the drawings, in a variation of the above preferred embodiment of the present invention, the battery pack 24C is supported on the base 10. That is, the battery pack 24C is held above the base 10. Further, the device 20 may be held above the battery pack 24C to be wirelessly charged by the battery pack 24C.

Preferably, the battery pack 24C further includes at least two replaceable batteries 24B, wherein the insertion and extraction direction of the battery pack 24C and the charging device wireless charging unit 240C are held on the same side. In other words, when the mobile phone 24B is placed in the wireless circuit of the battery pack 24C and connected to the charging apparatus wireless charging section 240C, the mobile phone 24B covers the battery 24B.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (17)

1. A housed power supply system, wherein the power supply system is adapted to supply power to at least one device, comprising:

a base, wherein the base comprises a base body, at least one receiving portion, and at least one charging portion, wherein the charging portion is electrically connected to the base body, wherein the base body is electrically connected to an external circuit, and the charging portion is disposed in the receiving portion, wherein the receiving portion further comprises at least one first receiving portion and at least one second receiving portion for the equipment to be received in the charging portion; and

and at least one charging device, wherein the charging device is electrically connected to the charging unit in a manner of being disposed in the second receiving portion, and the charging device is always kept electrically charged in a manner of at least one of storing electric energy and being electrically connected to the base main body.

2. The system of claim 1, wherein the charging device is electrically connected to the base at all times, and the other devices are electrically connected to the charging device in direct contact with the charging device.

3. The storage power supply system according to claim 2, wherein the charging device includes at least one charging device wireless charging portion, wherein the charging device wireless charging portion of the charging device is held so as to face an external space, and the other devices are electrically connected to the charging device wireless charging portion in such a manner as to be placed in the charging device.

4. The housed power supply system of claim 1 wherein the charging device further comprises at least two pluggable batteries that are replaceable, wherein the plugging direction of the charging device and the wireless charging portion of the charging device are maintained on the same side.

5. The housed power supply system of claim 4 wherein the charging device is electrically connected to the battery by a charging device circuit, the charging device always maintaining power in at least one of a stored charge, a circuit connection to the base body, and a replacement pluggable battery.

6. The housed power supply system of claim 2 wherein the charging device further comprises at least two pluggable batteries, wherein the extension direction of the wireless charging portion of the charging device and the battery plugging direction are radially disposed.

7. The containment power supply system of claim 2 wherein the charging device is contained by the base in a manner that is removably exposed to the base.

8. The containment power supply system of claim 4 wherein the base body has a proximal end and a distal end relative to the ground proximate thereto, the second containment portion being formed at the distal end, wherein the charging device contained in the second containment portion is flush with the distal end of the base.

9. The containment power supply system of claim 4 wherein the base body has a proximal end and a distal end relative to the ground proximate, the second containment portion being formed at the distal end, wherein the charging device contained in the second containment portion is supported by the end surface defined by the distal end of the base.

10. The housed power supply system of claim 6 or 7 wherein the base body has a proximal end near the ground, a distal end, and radial sidewalls from the proximal and distal ends, the second housing being formed in the radial sidewalls of the base, the charging device being positioned on the radial sidewalls and being maintained flush with the radial sidewalls of the base.

11. The system according to claim 6 or 7, wherein the receiving portion comprises at least a third receiving portion, and the other devices are wirelessly connected by the charging device in a manner of being received in the third receiving portion.

12. The system of claim 2, wherein the other devices are of a type selected from a group consisting of a cleaning device, a power supply device, an intelligent device, a mobile device, a communication device, and a cooking device.

13. A housing power supply system according to claim 2, wherein the other of said devices are mobile devices of a type selected from at least one of combination cell phones, ipads, game consoles, AR devices, entertainment power devices and entertainment power devices.

14. The system of claim 1, wherein the charging device is of a type selected from the group consisting of a battery, a battery pack containing at least two batteries, a smart battery, at least one smart battery pack, and a wirelessly rechargeable battery pack.

15. A contained power supply system as claimed in any one of claims 1 to 14, including:

a base, wherein said base comprises a base body, at least one receiving portion and at least one charging portion, wherein said charging portion is electrically connected to said base body, wherein said base body is electrically connected to an external circuit, said charging portion is disposed in said receiving portion, wherein said receiving portion further comprises at least one first receiving portion and at least one second receiving portion;

at least one first device, wherein the first device is received in the first receiving portion, an

At least one charging device, wherein the charging device is electrically connected to the charging unit in a manner of being disposed in the second housing unit, and is maintained in a state of being at least one of charged and electrically connected to the base main body.

16. The housing power supply system according to claim 15, wherein the first device is electrically connected to the base body in a manner of being housed in the first housing portion, and the first device and the charging device are independently supplied with power by the base body.

17. The containment power supply system of claim 15 wherein the first appliance is a cleaning appliance and the type of cleaning appliance is selected from the group consisting of a sweeping robot, a sweeping and mopping vacuum cleaner, and a floor scrubber.

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