CN219697314U - Hole filling equipment and power utilization system - Google Patents

Abstract

The utility model discloses hole filling equipment and an electric system. The hole filling equipment is suitable for being arranged on a containing part of an energy storage power supply, the containing part is suitable for detachably containing a battery unit, a charging part is arranged in the containing part to supply power to the battery unit, the battery unit is suitable for being detachably supplied with power to first electric equipment with the energy storage power supply, the hole filling equipment is suitable for being detachably contained in the containing part and comprises a third electric connecting part used for being in cordless electric connection with the charging part, the hole filling equipment further comprises a functional component electrically connected with the third electric connecting part, the functional component is far away from the third electric connecting part, so that when the third electric connecting part is electrically connected with the charging part, the functional component is exposed to an opening of the containing part, and the functional component is suitable for converting or transferring electric energy. According to the hole filling equipment, the accommodating part of the energy storage power supply can be fully utilized, and when the energy storage power supply is used outdoors, the hole filling equipment can be installed in the accommodating part to work while taking electricity.

Description

Hole filling equipment and power utilization system

Technical Field

The utility model relates to the field of energy storage, in particular to hole filling equipment and an electric system.

Background

The portable energy storage power supply is convenient to carry, and becomes an important electric quantity source for outdoor activities of people. In the patent with the publication number of CN113471997A, an energy storage power supply is disclosed, the shell comprises a containing part, the battery pack can be inserted into the containing part of the energy storage power supply for charging, and the battery pack can be separated from the energy storage power supply and is arranged on electric equipment for supplying power to the electric equipment after being fully charged, so that the electric equipment can be used far away from the energy storage power supply, and the electric equipment is cordless for supplying power by the battery pack, so that the use of electric wires is avoided, and the electric equipment is safer and more convenient.

The existing energy storage power supply has the following problems when in use: when the battery pack is installed on electric equipment for use, the corresponding accommodating part on the energy storage power supply is in an idle state, and the accommodating part is difficult to charge other equipment because the shape of the accommodating part is matched with that of the battery pack.

Disclosure of Invention

An object of the present utility model is to provide a hole filling apparatus for improving the utilization rate of an energy storage power supply housing part.

Another object of the present utility model is to provide an electricity utilization system based on an energy storage power source, so as to improve the utilization rate of the energy storage power source.

In order to achieve the above object, the present utility model provides a hole filling device, which is adapted to be mounted on a housing portion of an energy storage power source, the housing portion is adapted to detachably house a battery unit, a charging portion is disposed in the housing portion to supply power to the battery unit, the battery unit is adapted to separately supply power to a first electric device from the energy storage power source, the hole filling device is adapted to be detachably housed in the housing portion, the hole filling device includes a third electrical connection portion for being cordless and electrically connected to the charging portion, the hole filling device further includes a functional component electrically connected to the third electrical connection portion, the functional component is disposed away from the third electrical connection portion, such that when the third electrical connection portion is electrically connected to the charging portion, the functional component is exposed to an opening of the housing portion, and the functional component is adapted to convert or transfer electric energy.

Further, the functional component is an electricity utilization component or a switching component; the electricity utilization component is suitable for converting electric energy to emit light, generate heat, generate sound or do work; the switching component is suitable for detachably connecting third electric equipment with the hole filling equipment, and is also suitable for being in cordless electric connection with the third electric equipment, so that the switching component transfers electric energy to the third electric equipment, and the third electric equipment is suitable for utilizing electric energy to emit light, heat, sound or apply work.

Further, the hole filling apparatus includes a housing including a first end and a second end remote from the first end, the third electrical connection portion is disposed at the first end, the functional component is disposed at the second end, and the housing is adapted to be mounted in the housing portion such that the third electrical connection portion is electrically connected with the charging portion.

Further, the housing is elongated, and the first end and the second end are opposite ends of the housing along a length direction thereof.

Further, the third electric connection part comprises a fourth positive electrode terminal, a fourth negative electrode terminal and a fourth communication terminal, each terminal of the third electric connection part is electrically connected with each terminal of the charging part in one-to-one correspondence, and the hole filling equipment is suitable for carrying out communication identification with the energy storage power supply by utilizing the fourth communication terminal.

In some embodiments, the functional component is a switching component adapted to transfer electrical energy, the functional component includes a connection structure adapted to detachably connect a third powered device to the hole filling device, and a fourth electrical connection electrically connected to the third electrical connection, the fourth electrical connection adapted to electrically connect to the third powered device.

Further, the hole filling device comprises a housing, the housing comprises a first end and a second end far away from the first end, the third electric connection part is arranged at the first end, the connection structure and the fourth electric connection part are arranged at the second end, so that when the hole filling device is arranged at the containing part, the third electric equipment is connected to the hole filling device in a mode of not interfering with the energy storage power supply, and is in cordless electric connection with the fourth electric connection part.

Further, the hole filling device further comprises a control part, wherein the control part is used for controlling the operation of the functional component, and the control part is connected with the functional component in a wired or wireless mode, so that when the hole filling device is contained in the containing part, the control part is exposed to the opening of the containing part or can be operated by a user.

Further, the hole filling apparatus includes a housing including a first end and a second end remote from the first end, the third electrical connection is disposed at the first end, and the functional component and the control member are disposed at the second end.

The utility model also provides an electrical system comprising:

the energy storage power supply comprises a shell, wherein the shell comprises at least one accommodating part, and a charging part is arranged in the accommodating part;

at least one battery unit which is suitable for being detachably installed in the containing part and is electrically connected with the charging part to acquire the electric energy of the energy storage power supply, and is also suitable for being separately supplied to first electric equipment from the energy storage power supply;

at least one hole filling device.

Further, the housing includes a housing main body, the housing portion is disposed in the housing main body so as not to protrude from the housing main body, an opening of the housing portion is located on a surface of the housing main body, and the charging portion is disposed at a bottom of the housing portion opposite to the opening.

Further, the charging part comprises a first positive electrode terminal, a first negative electrode terminal and a first communication terminal, wherein the first communication terminal is used for being in communication connection with the battery unit or the hole filling equipment so as to realize the identification of the energy storage power supply to the battery unit or the hole filling equipment.

Further, the battery unit includes a first electrical connection part, which is identical to the third electrical connection part of the hole filling apparatus in type.

Further, the hole filling device further comprises a fourth electric connection part, the third electric connection part is electrically connected with the charging part when the hole filling device is installed in the containing part, the fourth electric connection part is exposed to the opening of the containing part, and the fourth electric connection part is suitable for cordless power supply to third electric equipment.

Further, the electricity utilization system further comprises at least one third electric device, and the third electric device is detachably connected with the hole filling device, so that when the hole filling device is installed on the containing portion, the third electric device is connected with the hole filling device in a mode of not interfering with the energy storage power supply, and is in cordless electrical connection with the fourth electrical connection portion.

Further, the battery unit is electrically connected with the charging part or the first electric equipment in a cordless mode.

Compared with the prior art, the utility model has the beneficial effects that: according to the hole filling equipment, the accommodating part of the energy storage power supply can be fully utilized, when the energy storage power supply is used outdoors, the hole filling equipment can be arranged in the accommodating part and can work while taking electricity, for example, the hole filling equipment can provide functions of illumination, music playing, mosquito repelling, fans and the like, and because the hole filling equipment is directly arranged on the energy storage power supply, wire connection is not needed, the hole filling equipment is convenient and safe, and is not easy to lose or damage. The hole filling equipment fully utilizes the existing space of the energy storage power supply, increases the function of the energy storage power supply, and improves the utilization rate of the energy storage power supply.

Drawings

FIG. 1 is a schematic diagram of one embodiment of an electrical system of the present utility model;

FIG. 2 is a schematic diagram of one embodiment of an energy storage power supply of the present utility model;

FIG. 3 is a schematic front view of one embodiment of the stored energy power supply of the present utility model;

FIG. 4 is an enlarged view of a portion of FIG. 3 showing a charging portion disposed within a receiving portion;

FIG. 5 is a schematic view of one embodiment of a battery cell of the present utility model, showing the front face thereof;

FIG. 6 is a schematic view of one embodiment of a battery cell of the present utility model, showing the back side thereof;

FIG. 7 is a schematic diagram of a battery unit of the present utility model applied to a first powered device;

FIG. 8 is a schematic view of a first embodiment of the hole-filling apparatus of the present utility model, showing the front face thereof;

FIG. 9 is a schematic view of a first embodiment of the hole-filling apparatus of the present utility model, showing the back side thereof;

FIG. 10 is a schematic view of a first embodiment of the hole filling apparatus of the present utility model, showing the functional assembly rotated;

FIG. 11 is a schematic view of a second embodiment of the hole-filling apparatus of the present utility model, showing the front face thereof;

FIG. 12 is a schematic view of a third embodiment of the hole filling apparatus of the present utility model, showing the back side thereof;

FIG. 13 is a schematic view of a fourth embodiment of the hole-filling apparatus of the present utility model, showing the front face thereof;

fig. 14 is a schematic view of a fifth embodiment of the hole-filling apparatus of the present utility model, showing the back side thereof.

In the figure: 100. an energy storage power supply; 110. a housing; 111. a case main body; 112. a housing part; 1120. an opening; 120. a charging section; 121. a first positive terminal; 122. a first negative terminal; 123. a first communication terminal; 200. a battery unit; 210. a first electrical connection; 211. a second positive terminal; 212. a second negative terminal; 213. a second communication terminal; 220. a second electrical connection; 300/300A/300B, hole filling equipment; 310. a housing; 3101. a first end; 3102. a second end; 320. a third electrical connection; 321. a fourth positive terminal; 322. a fourth negative terminal; 323. a fourth communication terminal; 330/330A/330B, functional components; 331B, connection structure; 3310. a groove; 332B, fourth electrical connection; 3301. a control part; 3302. an LED lamp; 401. the first electric equipment.

Detailed Description

The present utility model will be further described with reference to the following specific embodiments, and it should be noted that, on the premise of no conflict, new embodiments may be formed by any combination of the embodiments or technical features described below.

In the description of the present utility model, it should be noted that, for the azimuth words such as terms "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, it is merely for convenience of describing the present utility model and simplifying the description, and it is not to be construed as limiting the specific scope of protection of the present utility model that the device or element referred to must have a specific azimuth configuration and operation.

It should be noted that the terms "first," "second," and the like in the description and in the claims are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order.

As shown in FIG. 1, the utility model provides an energy storage power supply-based power utilization system to improve the utilization rate of an energy storage power supply. The power consumption system includes: the battery pack comprises an energy storage power supply 100, a battery unit 200 and a hole filling device 300.

As shown in fig. 1-4, the stored energy power source 100 includes a housing 110, the housing 110 includes at least one accommodating portion 112, the accommodating portion 112 is adapted to detachably accommodate the battery unit 200, and the charging portion 120 is disposed in the accommodating portion 112 to supply power to the battery unit 200.

As shown in fig. 7, the battery unit 200 is adapted to supply power to the first powered device 401 separately from the stored energy power source 100.

The hole filling apparatus 300 is adapted to be detachably received in the receiving portion 112 and electrically connected with the charging portion 120 to obtain electric power. That is, when the battery cell 200 is taken out for use after charging, the hole filling apparatus 300 may be mounted in the housing 112 to take out electricity.

According to the utility model, the hole filling equipment 300 is provided, so that the accommodating part 112 of the energy storage power supply 100 can be fully utilized, the hole filling equipment 300 can be installed in the accommodating part 112 when the energy storage power supply 100 is used outdoors, and the hole filling equipment 300 can work while taking electricity, for example, the hole filling equipment 300 can provide functions of illumination, music playing and the like, and the hole filling equipment 300 is directly installed on the energy storage power supply 100 without wire connection, so that the energy storage power supply is convenient and safe, and the hole filling equipment 300 is not easy to lose or damage.

In one embodiment, the hole-filling apparatus 300A is an electrical device, i.e. electrical energy obtained from the energy storage power source 100 is used by the hole-filling apparatus 300A itself, and the hole-filling apparatus 300A is adapted to emit light, generate heat, produce sound, perform work, etc. using the electrical energy, as in the embodiment shown in fig. 8-10, or as in the embodiment shown in fig. 11, 12.

In another embodiment, the hole filling device 300B is a switching device, that is, the electric energy obtained from the energy storage power supply 100 is supplied to the third electric device, which is, in the embodiment shown in fig. 13 and 14, that is, the third electric device obtains the electric energy from the energy storage power supply 100 through the switching of the hole filling device 300B, and the third electric device is adapted to emit light, generate heat, generate sound, perform work, and the like by using the electric energy.

As shown in fig. 1 to 4, the energy storage power supply 100 includes two storage portions 112, the two storage portions 112 can charge the two battery units 200, when one battery unit 200 is used for the first electric device 401, the other battery unit 200 can be used as a standby battery, meanwhile, one storage portion 112 on the energy storage power supply 100 is empty, the hole filling device 300 can be installed in the storage portion 112 and takes electricity from the energy storage power supply 100, the existing space of the energy storage power supply 100 is fully utilized by the arrangement of the hole filling device 300, the functions of the energy storage power supply 100 are increased, and the utilization rate of the energy storage power supply 100 is also improved.

The housing of the energy storage power supply 100 includes a housing main body 111, a receiving portion 112 is provided in the housing main body 111 so as not to protrude from the housing main body 111, and an opening 1120 of the receiving portion 112 is located on a surface of the housing main body 111. In other words, the housing 112 forms a hole in the housing of the energy storage power source 100, the battery unit 200 is inserted into the hole formed in the housing 112 when being charged, and the hole filling device 300 can be installed into the hole formed in the housing 112 after the battery unit 200 is taken out, so that the hole filling device 300 does not occupy additional space.

Preferably, the charging portion 120 is disposed at the bottom of the housing portion 112 opposite to the opening 1120. The battery unit 200 is directly inserted into the accommodating portion 112 from the opening 1120, and when the bottom of the battery unit 200 abuts against the bottom of the accommodating portion 112, the battery unit 200 is just electrically connected with the charging portion 120.

It will be appreciated by those skilled in the art that an ejector mechanism may be provided within the receptacle 112 for holding the battery unit 200 within the receptacle 112 or ejecting the receptacle 112, the ejector mechanism being switchable between different states by the battery unit 200 squeezing the ejector mechanism. The setting of the ejecting mechanism can refer to the prior art, and the utility model is not repeated.

The energy storage power source 100 further includes a battery pack disposed in the case main body 112 for storing electric energy, an inverter for performing direct current to alternating current conversion, and a BMS circuit board for protecting a circuit, which are compactly disposed in the case main body 111 with the receiving portion 112 to fully utilize the inner space of the case main body 111.

The energy storage power supply 100 further includes an output unit disposed on a surface of the housing main body 112, the output unit is configured to output the electric energy stored in the power supply main body, and different electric devices are adapted to be electrically connected to each output unit to obtain the electric energy from the energy storage power supply 100. The output unit has a plurality of different types of interfaces, each adapted to output a different type and magnitude of current, the output unit may comprise the following types of interfaces: in USB interface, type-C interface, lightning interface, cigar lighter interface, two hole sockets, three hole sockets.

The battery unit 200 may be various kinds of storage batteries, battery packs, mobile power sources, and the like. In some embodiments, the battery cell 200 is a lithium ion battery pack. Preferably, the battery unit 200 is electrically connected to the charging portion 120 in a cordless manner, and the battery unit 200 is further adapted to be electrically connected to the first powered device 401 in a cordless manner.

In some embodiments, as shown in fig. 5 and 6, the battery unit 200 includes a first electrical connection portion 210, and the first electrical connection portion 210 is adapted to electrically connect with the charging portion 120 to obtain electrical energy. In some preferred embodiments, the first electrical connection 210 is further adapted to electrically connect with a power interface of the first powered device 401 to supply power, i.e. the first electrical connection 210 may be used for both inputting and outputting electrical energy.

Preferably, as shown in fig. 4, the charging unit 120 of the energy storage power supply 100 includes a first positive electrode terminal 121, a first negative electrode terminal 122, and a first communication terminal 123, and as shown in fig. 6, the first electrical connection unit 210 of the battery unit 200 includes a second positive electrode terminal 211, a second negative electrode terminal 212, and a second communication terminal 213, and each terminal of the first electrical connection unit 210 is electrically connected to each terminal of the charging unit 120 in one-to-one correspondence, and is charged through the positive electrode terminal and the negative electrode terminal after communication identification by the communication terminal.

Further, the power interface of the first electric device 401 includes a third positive terminal, a third negative terminal and a third communication terminal, where each terminal of the power interface of the first electric device 401 is electrically connected to each terminal of the first electrical connection portion 210 of the battery unit 200 in a one-to-one correspondence manner, and after communication identification is performed by using the communication terminal, power is supplied through the positive terminal and the negative terminal.

In some embodiments, the battery unit 200 further includes a second electrical connection 220, as shown in fig. 5, where the second electrical connection 220 is adapted to supply power to the second powered device, for example, the second electrical connection 220 is a USB interface, a Type-C interface, which may supply power to the second powered device through a power line. By arranging the first electric connection part 210 and the second electric connection part 220 on the battery unit 200, the battery unit 200 can supply power to various electric devices in different modes, and the practicability of the battery unit 200 is improved.

The battery unit 200 may supply power to various types of first electric consumers 401, and the first electric consumers 401 may be, but are not limited to, electric fans, cleaning devices, walking devices, garden devices, exercise devices, projection devices, communication devices providing a local area network, AC/DC outdoor air conditioners, drinkers, sounds, etc.

In some embodiments, the hole filling apparatus 300 includes a housing 310, and a third electrical connection 320 and a functional component 330 disposed on the housing 310, the third electrical connection 320 being adapted to be electrically connected to the charging portion 120 in a cordless manner to draw power from the stored energy power source 100, the functional component 330 being electrically connected to the third electrical connection 320, the housing 310 of the hole filling apparatus 300 being adapted to be inserted into the receptacle 112 and such that the third electrical connection 320 is electrically connected to the charging portion 120, the functional component 330 being exposed to the opening 1120 of the receptacle 112 when the third electrical connection 320 is electrically connected to the charging portion 120.

The functional component 330 is adapted to convert electrical energy or transfer electrical energy. It should be noted that, the conversion of electric energy refers to the direct use of electricity by the functional component 330, and the conversion of electric energy into other forms of energy, such as thermal energy or mechanical energy. The term "transferring power" as used herein refers to the function unit 330 not consuming power, but rather supplying power to other devices.

It should be noted that, when the hole filling apparatus 300 is installed in the accommodating portion 112, the functional component 330 may not protrude from the opening 1120 of the accommodating portion 112, but may also protrude from the opening 1120, and of course, the portion of the functional component 330 protruding from the opening 1120 is not easy to be too much, otherwise the overall balance of the energy storage power supply 100 is damaged, or inconvenience is brought to the user.

In some embodiments, the housing 310 includes a first end 3101 and a second end 3102 remote from the first end 3101, the third electrical connection 320 is disposed at the first end 3101, and the functional component 330 is disposed at the second end 3102, i.e., the third electrical connection 320 is remote from the functional component 330. When the housing 310 is integrally inserted into the accommodating portion 112 and the first end 3101 abuts against the bottom of the accommodating portion 112, the third electrical connection portion 320 is electrically connected to the charging portion 120, and the second end 3102 is close to the opening 1120 and exposes the functional component 330 to the opening 1120.

In some preferred embodiments, the third electrical connection 320 does not protrude from the first end 3101 of the housing 310.

Further, the third electrical connection portion 320 includes a fourth positive terminal 321, a fourth negative terminal 322, and a fourth communication terminal 323, and each terminal of the third electrical connection portion 320 of the hole filling apparatus 300 is electrically connected to each terminal of the charging portion 120 of the energy storage power source 100 in one-to-one correspondence, and after communication identification is performed by using the communication terminal, power is supplied from the energy storage power source 100 to the hole filling apparatus 300 through the positive terminal and the negative terminal.

In some embodiments, the hole-filling apparatus 300 includes a battery cell disposed within the housing 310, the battery cell being capable of storing electrical energy such that electrical energy captured by the third electrical connection 320 is stored in the battery cell, the electrical energy in the battery cell being controllably provided to the functional component 330. In other embodiments, the hole-filling apparatus 300 may not include a battery cell.

In some embodiments, the hole filling apparatus 300A is an electrical device, the functional component 330A is an electrical component, for example, the functional component 330A is a lighting component, a fan component, a mosquito repellent component, an acoustic component, etc.

In other embodiments, the hole filling apparatus 300B is a switching apparatus, the functional component 330B is a switching component, and the functional component includes a connection structure 331B and a fourth electrical connection portion 332B, where the connection structure 331B is adapted to detachably connect the third electrical device to the hole filling apparatus 300B, the fourth electrical connection portion 332B is electrically connected to the third electrical connection portion 320, and the fourth electrical connection portion 332B is used to be electrically connected to the third electrical device in a cordless manner, so as to provide the third electrical device with the electrical energy obtained from the energy storage power source 100.

Those skilled in the art will appreciate that the connection 331B may be, but is not limited to, a snap connection, a threaded connection, a magnetic connection, a sleeve connection.

The fourth electrical connection 332B may be, but is not limited to, a USB interface, a Type-C interface, a wireless charging portion, a contact charging portion, etc.

The hole filling apparatus 300 further includes a control part for controlling the operation of the functional module 330. For example, the control component may control the switching of the functional component 330; or when the functional component 330 is a lighting component, the control part may control the color temperature, brightness, etc. of the lighting component; or when the functional component 330 is an acoustic component, the control part may control the volume of the acoustic component.

The control member may be connected to the functional unit 330 by a wire or wirelessly, so that the control member may be operated by a user when the hole filling apparatus 300 is accommodated in the accommodating portion 112.

In some embodiments, the hole filling apparatus 300 includes a housing 310, the housing 310 includes a first end 3101 and a second end 3102 remote from the first end 3101, a third electrical connection 320 is provided at the first end 31010, a functional component 330 and a control member are provided at the second end 3102, the functional component 330 is wired to the control member, and when the hole filling apparatus 300 is received in the receiving portion 112, both the functional component 330 and the control member are exposed at an opening 1120 of the receiving portion 112, so that the control member can be operated by a user, and the functional component 330 can act on the outside through the opening 1120.

In other embodiments, the control component is wirelessly connected to the functional module 330, and the control component may be a remote controller or an intelligent electronic device, and when the hole filling apparatus 300 is received in the receiving portion 112, the control component may be kept outside the receiving portion 112 for convenient operation of a user.

[ example 1 ]

Fig. 8, 9, 10 show a first embodiment of a hole filling apparatus 300A, the hole filling apparatus 300A comprising a housing 310, a third electrical connection 320, and a functional component 330A. The housing 310 is in a strip shape, two ends along the length direction of the housing 310 are a first end 3101 and a second end 3102, the third electrical connection portion 320 is disposed at the first end 3101, the third electrical connection portion 320 does not protrude from the first end 3101, and the functional component 330A is rotatably disposed at the second end 3102.

The third electrical connection 320 includes a fourth positive terminal 321, a fourth negative terminal 322, and a fourth communication terminal 323, and the third electrical connection 320 is adapted to be electrically connected to the charging portion 120 in a cordless manner. The hole filling apparatus 300A is provided therein with a cell for storing electric energy, the third electrical connection portion 320 is electrically connected with the cell, and the functional module 330A is electrically connected with the cell.

The functional component 330A is an LED lamp 3302, and the hole filling apparatus 300A further includes a control part 3301, and the control part 3301 is used for controlling the switching of the LED lamp 3302. The control unit 3301 is wired to the LED lamp 3302.

The first end 3101 of the hole filling device 300A is installed into the accommodating portion 112 of the energy storage power supply 100, so that the third electrical connection portion 320 is electrically connected with the charging portion 120, the fourth communication terminal 323 is connected with the first communication terminal 123, the energy storage power supply 100 identifies the hole filling device 300A, after the identification is successful, the energy storage power supply 100 charges the hole filling device 300A, and the electrical energy is stored in the electrical core of the hole filling device 300A.

The user can operate the control part 3301 to turn on or off the LED lamp 3302 while the hole filling apparatus 300A is charged. The hole filling device 300A may be taken out from the housing 112 after the completion of charging and then used.

As shown in fig. 10, the functional component 330A is rotatably mounted at the second end 3102 of the housing 310, and when the hole filling apparatus 300A is mounted in the housing 112 of the stored energy power source 100, the functional component 330A protrudes out of the opening 1120, such that the rotation of the functional component 330A relative to the housing 310 is not interfered by the housing 110. The user can adjust the illumination angle by rotating the functional assembly 330A so that the usability of the hole filling apparatus 300A is better.

[ example 2 ]

Fig. 11 and 12 show a second embodiment of a hole filling apparatus 300A, the hole filling apparatus 300A comprising a housing 310, a third electrical connection 320 and a functional component 330A. The housing 310 is in a strip shape, two ends along the length direction of the housing 310 are a first end 3101 and a second end 3102, the third electrical connection portion 320 is disposed at the first end 3101, the third electrical connection portion 320 does not protrude from the first end 3101, the functional component 330A is disposed at the second end 3102, and the functional component 330A does not protrude from the second end 3102.

The third electrical connection 320 includes a fourth positive terminal 321, a fourth negative terminal 322, and a fourth communication terminal 323, and the third electrical connection 320 is adapted to be electrically connected to the charging portion 120 in a cordless manner. The hole filling apparatus 300A is provided therein with a cell for storing electric energy, the third electrical connection portion 320 is electrically connected with the cell, and the functional module 330A is electrically connected with the cell.

The functional component 330A is an acoustic component, which is disposed in the housing 310, and has an acoustic outlet at the end face of the second end 3102, and the acoustic component is electrically connected to the electrical core. The sound component can be a Bluetooth sound, and the sound component can be controlled by mobile equipment such as a mobile phone.

The first end 3101 of the hole filling device 300A is installed into the accommodating portion 112 of the energy storage power supply 100, so that the third electrical connection portion 320 is electrically connected with the charging portion 120, the fourth communication terminal 323 is connected with the first communication terminal 123, the energy storage power supply 100 identifies the hole filling device 300A, after the identification is successful, the energy storage power supply 100 charges the hole filling device 300A, and the electrical energy is stored in the electrical core of the hole filling device 300A. When the hole filling apparatus 300A is disposed in the accommodating portion 112, the functional component 330A does not protrude from the opening 1120.

The user can control the operation of the sound assembly through bluetooth when the hole filling apparatus 300A is charged or after the charging is completed. The hole filling apparatus 300A can be taken out from the housing 112 and used.

[ example 3 ]

Fig. 13 and 14 show a third embodiment of a hole filling apparatus 300B, the hole filling apparatus 300B comprising a housing 310, a third electrical connection 320 and a functional component 330B. The housing 310 is in a strip shape, two ends along the length direction of the housing 310 are a first end 3101 and a second end 3102, the third electrical connection portion 320 is disposed at the first end 3101, the third electrical connection portion 320 does not protrude from the first end 3101, and the functional module 330B is disposed at the second end 3102.

The functional component 330B includes a connection structure 331B and a fourth electrical connection 332B. The connection structure 331B is a sleeve disposed on an end surface of the second end 3102, and defines a recess 3310, and a bottom surface of the recess 3310 is the end surface of the second end 3102. A third powered device (not shown) is adapted to be inserted into recess 3310 for removable connection with hole-filling apparatus 300B. Magnetic attraction devices may be provided on the inner wall of the recess 3310 and the outer wall of the third powered device, or on the end surface of the second end 3102 and the bottom surface of the third powered device, so as to further hold the third powered device in the recess 3310 by magnetic force. The third powered device may be a lighting device that is contoured to fit the recess 3310.

The fourth electrical connection 332B is disposed at a bottom surface of the recess 3310, i.e., an end surface of the second end 3102, and is adapted to electrically connect with a third powered device. The fourth electric connection portion 332B is a contact charging portion, the third electric device is provided with a contact charging portion matched with the fourth connection portion 332B, when the third electric device is mounted in the groove 3310, the third electric device is conducted with the fourth electric connection portion, and the structure of the fourth electric connection portion 332B and the structure of the third electric device can be effectively simplified through the electric connection mode.

A battery cell for storing electric energy is provided in the housing 310 of the hole filling apparatus 300B, the third electric connection portion 320 is electrically connected to the battery cell, and the battery cell is electrically connected to the fourth electric connection portion 332B.

The first end 3101 of the hole filling device 300B is installed into the accommodating portion 112 of the energy storage power supply 100, so that the third electrical connection portion 320 is electrically connected with the charging portion 120, the fourth communication terminal 323 is connected with the first communication terminal 123, the energy storage power supply 100 identifies the hole filling device 300B, after the identification is successful, the energy storage power supply 100 supplies power to the hole filling device 300B, and the electrical energy is stored in the electrical core of the hole filling device 300B. The third powered device may be cordless connected to the hole filling apparatus 300B such that the battery cells of the hole filling apparatus 300B supply power to the third powered device.

In this embodiment, the hole filling device 300B as the switching device may be matched with a third electric device with different functions to meet the user's need, for example, the third electric device may be a lighting device, a mosquito repellent device, etc. matched with the groove 3310 of the hole filling device 300B.

The foregoing has outlined the basic principles, features, and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (16)

1. The utility model provides a hole filling equipment, its is suitable for to install in the acceping portion of an energy storage power supply, acceping portion is suitable for detachably accomodate a battery unit, set up charging portion in acceping portion in order to supply power to the battery unit, the battery unit is suitable for with energy storage power supply separately supplies power in first consumer, its characterized in that:

the hole filling equipment is suitable for being detachably contained in the containing part, the hole filling equipment comprises a third electric connecting part used for being in wireless electric connection with the charging part, the hole filling equipment further comprises a functional component which is electrically connected with the third electric connecting part, the functional component is far away from the third electric connecting part, so that when the third electric connecting part is electrically connected with the charging part, the functional component is exposed to an opening of the containing part, and the functional component is suitable for converting electric energy or transferring electric energy.

2. The hole filling apparatus according to claim 1, wherein the functional component is an electricity-consuming component or a switching component;

the electricity utilization component is suitable for converting electric energy to emit light, generate heat, generate sound or do work;

the switching component is suitable for detachably connecting third electric equipment with the hole filling equipment, and is also suitable for being electrically connected with the third electric equipment, so that the switching component transfers electric energy to the third electric equipment, and the third electric equipment is suitable for utilizing electric energy to emit light, heat, sound or do work.

3. The hole filling apparatus according to claim 1, wherein the hole filling apparatus comprises a housing including a first end and a second end remote from the first end, the third electrical connection being provided at the first end, the functional component being provided at the second end, the housing being adapted to be mounted into the receptacle such that the third electrical connection is electrically connected to the charging portion.

4. A hole filling apparatus according to claim 3, wherein the housing is elongate, and the first and second ends are opposite ends of the housing along a length thereof.

5. The hole filling apparatus according to claim 1, wherein the third electrical connection portion includes a fourth positive terminal, a fourth negative terminal, and a fourth communication terminal, each terminal of the third electrical connection portion being electrically connected to each terminal of the charging portion in one-to-one correspondence, the hole filling apparatus being adapted to perform communication identification with the stored energy power source using the fourth communication terminal.

6. The hole filling apparatus according to any one of claims 1-5, wherein the functional component is a transfer component adapted to transfer electrical energy, the functional component comprising a connection structure adapted to detachably connect a third powered device to the hole filling apparatus, and a fourth electrical connection electrically connected to the third electrical connection, the fourth electrical connection adapted to electrically connect to the third powered device.

7. The hole filling apparatus according to claim 6, wherein the hole filling apparatus comprises a housing including a first end and a second end remote from the first end, the third electrical connection portion is disposed at the first end, the connection structure and the fourth electrical connection portion are disposed at the second end, such that when the hole filling apparatus is mounted in the housing portion, the third electrical device is connected to the hole filling apparatus in a manner not interfering with the energy storage power source, and is electrically connected to the fourth electrical connection portion in a cordless manner.

8. The hole filling apparatus according to any one of claims 1-5, further comprising a control member for controlling the operation of the functional assembly, the control member being wired or wirelessly connected to the functional assembly such that the control member is exposed to the receptacle opening or operable by a user when the hole filling apparatus is received in the receptacle.

9. The hole filling apparatus of claim 8, comprising a housing including a first end and a second end remote from the first end, the third electrical connection being disposed at the first end, the functional component and the control member being disposed at the second end.

10. An electrical power consumption system, comprising:

the energy storage power supply comprises a shell, wherein the shell comprises at least one accommodating part, and a charging part is arranged in the accommodating part;

at least one battery unit which is suitable for being detachably installed in the containing part and is electrically connected with the charging part to acquire the electric energy of the energy storage power supply, and is also suitable for being separately supplied to first electric equipment from the energy storage power supply;

at least one hole filling device according to any of claims 1-9.

11. The electrical system according to claim 10, wherein the housing includes a housing main body, the housing portion is provided in the housing main body so as not to protrude from the housing main body, an opening of the housing portion is located on a surface of the housing main body, and the charging portion is provided at a bottom of the housing portion opposite to the opening.

12. The electrical power consumption system of claim 11, wherein the charging portion comprises a first positive terminal, a first negative terminal, and a first communication terminal for communication connection with the battery cell or the hole-filling device to enable identification of the battery cell or the hole-filling device by the stored energy power source.

13. The electrical power consumption system according to any one of claims 10-12, wherein the battery unit comprises a first electrical connection part, the first electrical connection part being the same model as the third electrical connection part of the hole filling apparatus.

14. The electrical power consumption system according to any one of claims 10-12, wherein the hole filling apparatus further comprises a fourth electrical connection portion, the third electrical connection portion being electrically connected to the charging portion when the hole filling apparatus is installed in the housing portion, the fourth electrical connection portion being exposed to an opening of the housing portion, the fourth electrical connection portion being adapted to wirelessly power a third electrical consumer.

15. The power system of claim 14, further comprising at least a third powered device detachably connected to the hole-filling device such that when the hole-filling device is mounted to the housing, the third powered device is connected to the hole-filling device in a manner that does not interfere with the stored energy power source and is electrically connected to the fourth electrical connection portion in a cordless manner.

16. The power utilization system of any of claims 10-12, wherein the battery unit is electrically connected to the charging portion or the first powered device in a cordless manner.