CN221306064U - Solar earphone charging bin and earphone assembly - Google Patents

Abstract

The utility model relates to the technical field of earphone equipment, in particular to a solar earphone charging bin and an earphone assembly. The solar earphone charging bin comprises a charging bin and a solar charging assembly which are detachably connected, and the charging bin is also electrically connected with the solar charging assembly; one side of the solar charging assembly is provided with a solar receiving plate and a first fixing piece arranged at intervals with the solar receiving plate, the solar receiving plate is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece is used for fixing the solar charging assembly. The utility model solves the technical problem that the earphone charging bin in the prior art can only charge through common household electricity. The earphone assembly has the same beneficial effects as the solar earphone charging bin.

Description

Solar earphone charging bin and earphone assembly

[ Field of technology ]

The utility model relates to the technical field of earphone equipment, in particular to a solar earphone charging bin and an earphone assembly.

[ Background Art ]

With the continuous progress of modern society science and technology and the continuous improvement of the living standard of people, the T W S Bluetooth headset is continuously developed, and in daily life, the common use of the Bluetooth headset is a normal state.

Bluetooth technology is actually a short-range wireless communication technology. Bluetooth headset is applied to the hand-free earphone with bluetooth technique, because bluetooth headset has wireless transmission, characteristics such as small, the convenience of wearing, bluetooth headset can let the user avoid the stumbling of the annoying electric wire, is liked and used by vast consumer.

The existing T W S Bluetooth headset is charged by the headset charging bin only through common household electricity, the charging mode can be wired or wireless, the existing wireless charging is at the end, and the magnetic charging device or the wireless charging equipment is required to be used, so that various inconveniences exist. In view of the above, the present utility model provides a solar earphone charging bin and an earphone assembly, which can utilize solar energy and convert the solar energy into electric energy to charge the earphone bin and the Bluetooth earphone.

[ utility model ]

The utility model provides a solar earphone charging bin and an earphone assembly, which are used for solving the technical problem that an earphone charging bin in the prior art can only charge through common household electricity.

The technical scheme for solving the technical problem is to provide a solar earphone charging bin which comprises a charging bin and a solar charging assembly which are detachably connected, wherein the charging bin is also electrically connected with the solar charging assembly;

One side of the solar charging assembly is provided with a solar receiving plate and a first fixing piece which is arranged at intervals with the solar receiving plate, the solar receiving plate is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece is used for fixing the solar charging assembly.

Preferably, a first charging plate electrically connected with the solar receiving plate is arranged in the solar charging assembly, and a charging bin battery and a second charging plate electrically connected with the first charging plate are arranged in the charging bin; the solar receiving plate, the first charging plate and the second charging plate are matched, and at least the charging bin battery is charged.

Preferably, a control circuit board is further arranged in the charging bin, the control circuit board is electrically connected with the charging bin battery, and the control circuit board is far away from the solar charging assembly relative to the charging bin battery.

Preferably, the solar charging assembly and the charging bin are respectively provided with a first through hole and a second through hole, and the first through hole and the second through hole are correspondingly arranged on one surface of the solar charging assembly, which is connected with the charging bin; the first charging plate is electrically connected with the second charging plate after sequentially passing through the first through hole and the second through hole.

Preferably, a charging interface electrically connected with the control circuit board is further arranged on the charging bin, and the charging interface at least charges the battery of the charging bin through an external connection cable.

Preferably, a second fixing piece is arranged on one surface, facing away from the control circuit board, of the charging bin battery, and the charging bin battery is fixed on the inner wall of the charging bin by the second fixing piece.

Preferably, the solar charging assembly and the charging bin are respectively provided with a plurality of first magnetic attraction pieces and second magnetic attraction pieces, and the first magnetic attraction pieces are in magnetic attraction connection with at least part of the second magnetic attraction pieces.

Preferably, a first placing groove and a second placing groove are respectively arranged on the inner walls of the solar charging assembly and the charging bin, and the first placing groove is close to the second placing groove; the first magnetic attraction piece is fixed in the first placing groove, and the second magnetic attraction piece connected with the first magnetic attraction piece is fixed in the second placing groove.

The utility model solves the technical problem by providing an earphone assembly which comprises an earphone body and the solar earphone charging bin which are detachably connected, wherein the earphone body is a wireless Bluetooth earphone.

Preferably, an earphone slot matched with the earphone body in size is arranged on the charging bin and used for placing the earphone body.

Compared with the prior art, the solar earphone charging bin and the earphone assembly provided by the utility model have the following advantages:

1. the solar earphone charging bin comprises a charging bin and a solar charging assembly which are detachably connected, wherein the charging bin is also electrically connected with the solar charging assembly; one side of the solar charging assembly is provided with a solar receiving plate and a first fixing piece arranged at intervals with the solar receiving plate, the solar receiving plate is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece is used for fixing the solar charging assembly.

As can be appreciated, the solar energy receiving plate and the solar energy charging assembly electrically connected with the charging bin are arranged, wherein the solar energy receiving plate can absorb sunlight so as to convert solar energy into electric energy, and the charging bin is charged through the solar energy charging assembly; in addition, a first fixing piece is arranged on one surface of the solar charging assembly, and the first fixing piece and the solar receiving plate are arranged at intervals and can fix the solar charging assembly, so that the solar receiving plates arranged on the same surface can be fixed, and the solar receiving plates are generally placed at the position irradiated by sunlight so as to fully absorb sunlight; in particular, the solar energy receiving panel may be placed on window glass in a home or on automotive glass.

It should be noted that, charge storehouse and solar charging module can dismantle and be connected, charge the storehouse and have better convenience, can be when not needing to utilize solar energy to charge, with charge the storehouse alone accomodate in order to conveniently carry, and solar charging module and solar receiving panel can change both fixed positions through the first mounting of renewing.

According to the technical scheme, when the Bluetooth headset or the headset charging bin needs to be charged, the Bluetooth headset or the headset charging bin does not need to be charged through common household electricity, energy saving and charging can be achieved through solar energy, energy saving and emission reduction can be achieved through clean energy, and convenience in charging the headset charging bin is improved.

2. The solar earphone charging bin provided by the embodiment of the utility model is internally provided with a first charging plate electrically connected with a solar receiving plate, a charging bin battery and a second charging plate electrically connected with the first charging plate; the solar energy receiving plate, the first charging plate and the second charging plate are matched, and at least the battery in the charging bin is charged.

It should be noted that, the first charging plate is disposed in the solar charging assembly, the second charging plate is disposed in the charging bin, and the first charging plate is electrically connected to the solar receiving plate. The solar energy receiving plate absorbs sunlight, so that the solar energy is converted into electric energy, and the obtained electric energy is transferred to the first charging plate through electric connection; secondly, the electric energy on the first charging plate is transferred to a second charging plate in the charging bin through electric connection; and finally, the second charging plate charges the battery in the charging bin by utilizing the electric energy of the second charging plate.

It is further required to explain that the electric energy on the second charging plate can be used for charging the battery of the charging bin, and can also be used for directly charging the Bluetooth headset, and the electric quantity in the battery of the charging bin is used for charging the Bluetooth headset after the battery of the charging bin is not required to be charged.

It is to be appreciated that the solar energy receiving plate is configured to receive light energy from the sun, convert the solar energy into electrical energy, charge the charging bin battery to store the electrical energy in the charging bin battery, and directly charge the bluetooth headset.

3. The solar earphone charging bin is characterized in that a control circuit board is arranged in the charging bin and is electrically connected with a charging bin battery, and the control circuit board is far away from a solar charging assembly relative to the charging bin battery. It should be noted that, the electric energy stored in the battery of the charging bin can be used for charging the Bluetooth headset through the control circuit board; the control circuit board can also be electrically connected with the second charging plate, and the electric energy on the second charging plate is used for charging the battery in the charging bin through the control circuit board.

4. The solar earphone charging bin provided by the embodiment of the utility model is characterized in that a solar charging assembly and a charging bin are respectively provided with a first through hole and a second through hole, and the first through hole and the second through hole are correspondingly arranged on one surface of the solar charging assembly, which is connected with the charging bin; the first charging plate is electrically connected with the second charging plate after sequentially passing through the first through hole and the second through hole.

It should be noted that, the first through hole sets up on solar charging module, and the second through hole sets up on charging the storehouse, and first through hole sets up the one end of being connected with charging the storehouse at solar charging module, and the second through hole that corresponds also sets up the one end of being connected between them, and the projection of first through hole and second through hole on its respective plane has the partial coincidence at least, and the position of coincidence can supply P IN needle on the first charging plate to link to each other with the second charging plate after passing first through hole, second through hole IN proper order.

5. The solar earphone charging bin provided by the embodiment of the utility model is also provided with a charging interface which is electrically connected with the control circuit board, and the charging interface at least charges a battery of the charging bin through an external connection cable.

It can be understood that through setting up the interface that charges with control circuit board electric connection for charge the electric quantity that stores in the storehouse battery and both can charge after being converted into electric energy by solar energy, also can charge through charging interface and external cable and meet, the electric quantity that stores can charge for bluetooth headset, thereby makes bluetooth headset possess the condition of start-up use.

It should be noted that, the electric energy converted by solar energy is utilized to charge the battery of the charging bin, and then charge the Bluetooth headset, the charging is slower possibly due to certain factors, the current and the efficiency of the solar charging are high and low, besides the area and the power of the solar receiving plate and the intensity of sunlight irradiation are related to the parameters such as the temperature and the humidity of the environment, therefore, the charging interface is arranged on the charging bin, the charging wire is inserted on the charging interface to realize the rapid power supply of the charging bin, and through the design, the electric quantity is not enough when the user needs to use the Bluetooth headset in an emergency.

6. According to the solar earphone charging bin provided by the embodiment of the utility model, the second fixing piece is arranged on one surface of the charging bin battery, which is away from the control circuit board, and the second fixing piece is used for fixing the charging bin battery on the inner wall of the charging bin.

It can be understood that control circuit board and the storehouse battery that charges all set up in the inside of storehouse that charges, set up the second mounting in the one side that the storehouse battery deviates from control circuit board that charges, fix the storehouse battery that charges, avoid the storehouse battery that charges to remove in the storehouse that charges to lead to the circuit that the storehouse battery that charges to be connected not hard up, and then appear the condition that can't charge.

7. The solar earphone charging bin is characterized in that a plurality of first magnetic attraction pieces and second magnetic attraction pieces are respectively arranged in the solar charging assembly and the charging bin, and the first magnetic attraction pieces are in magnetic attraction connection with at least part of the second magnetic attraction pieces.

It is understandable that solar charging module and charging bin can inhale the piece through a plurality of first magnetism and the piece is inhaled to the second magnetism, realizes that the magnetism is inhaled and is connected for charging bin has better convenience, can be with charging bin list accomodate, and it is very convenient to carry, and charging bin and solar module separation back, also can utilize the electric quantity of charging interface or charging bin battery on the charging bin when bluetooth headset needs to charge for bluetooth headset charges.

It is to be noted that, the second magnetism is inhaled a setting in the storehouse that charges, and at least part second magnetism is inhaled a and is inhaled a magnetism between the first magnetism and is inhaled a connection, and optionally, another part second magnetism is inhaled a setting that can be close to bluetooth headset, also sets up magnetism on bluetooth headset and inhale the subassembly for bluetooth headset also can realize magnetism with the storehouse that charges and inhale and be connected, avoid both damaging when the user carries storehouse and bluetooth headset that charges, improve the life of use.

In addition, solar charging assembly and storehouse that charges inhale the subassembly through magnetism and inhale the connection, and its connection structure is simple, the installation is dismantled conveniently, has still reduced the cost of dismantling, maintenance when having improved production efficiency.

8. The solar earphone charging bin provided by the embodiment of the utility model is characterized in that a first placing groove and a second placing groove are respectively arranged on the inner walls of a solar charging assembly and the charging bin, and the first placing groove is arranged close to the second placing groove; the first magnetic attraction piece is fixed in the first placing groove, and the second magnetic attraction piece connected with the first magnetic attraction piece is fixed in the second placing groove.

It is understandable that the first standing groove and the second standing groove are respectively fixed with a first magnetic attraction piece and a second magnetic attraction piece, at least part of the second magnetic attraction piece is connected with the first magnetic attraction piece in a magnetic attraction manner, wherein the two standing grooves are arranged close to each other, so that the magnetic force between the first magnetic attraction piece and the second magnetic attraction piece is stronger, the connection between the charging bin and the solar charging assembly is firmer, and further, the efficiency of charging the charging bin by utilizing electric energy converted by solar energy can be improved.

It should be noted that, when being close to the setting between two standing grooves, the first magnetism is inhaled a solar charging module that occupies respectively with the second magnetism and is charged the volume in the storehouse and will be reduced, through this design, can make the solar headset charge the total volume in storehouse and further reduce, corresponding weight also further lightens, more conveniently carries.

9. The earphone assembly provided by the embodiment of the utility model comprises the detachably connected earphone body and the solar earphone charging bin, wherein the earphone body is a wireless Bluetooth earphone.

The earphone assembly has the same beneficial effects as the solar earphone charging bin, and the description is omitted here.

[ Description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort to a person skilled in the art.

Fig. 1 is an exploded view of the overall structure of a solar earphone charging bin according to a first embodiment of the present utility model.

Fig. 2 is an exploded view of the overall structure of a solar earphone charging bin according to a first embodiment of the present utility model.

Fig. 3 is a schematic view of a solar charging assembly and an internal structure of a charging bin in a solar earphone charging bin according to a first embodiment of the utility model.

Fig. 4 is a schematic diagram of the overall structure of a charging bin in the solar earphone charging bin according to the first embodiment of the utility model.

Fig. 5 is a schematic diagram of the overall structure of a headset assembly according to a second embodiment of the utility model.

Fig. 6 is a schematic diagram of the overall structure of a charging bin of a solar headset charging bin in a headset assembly according to a second embodiment of the utility model.

The attached drawings are used for identifying and describing:

100. a solar earphone charging bin; 200. an earphone assembly;

1. A charging bin; 11. charging a bin battery; 12. a second charging plate; 13. a control circuit board; 14. a charging interface; 15. a second fixing member; 16. an earphone slot;

2. A solar charging assembly; 21. a first charging plate;

3. A solar energy receiving plate;

4.A first fixing member;

5. an earphone body;

61. A first through hole; 62. a second through hole;

71. A first magnetic attraction member; 72. a second magnetic attraction member;

81. a first placement groove; 82. and a second placing groove.

[ Detailed description ] of the invention

The present utility model will be described in further detail with reference to the accompanying drawings and examples of implementation in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

It should be noted that the terms "first" and "second" and the like in the description and the claims of the present utility model are used for distinguishing between different objects and not for describing a particular sequential order.

In the present utility model, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present utility model and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present utility model will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1, a first embodiment of the present utility model provides a solar earphone charging bin 100, which includes a charging bin 1 and a solar charging assembly 2 that are detachably connected, wherein the charging bin 1 is further electrically connected with the solar charging assembly 2;

One side of the solar charging assembly 2 is provided with a solar receiving plate 3 and a first fixing piece 4 which is arranged at intervals with the solar receiving plate 3, the solar receiving plate 3 is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece 4 is used for fixing the solar charging assembly 2.

As can be appreciated, the solar receiving panel 3 and the solar charging assembly 2 electrically connected with the charging bin 1 are provided, wherein the solar receiving panel 3 can absorb sunlight, so that solar energy is converted into electric energy, and the charging bin 1 is charged through the solar charging assembly 2.

In addition, the first fixing piece 4 is arranged on one surface of the solar charging assembly 2, the first fixing piece 4 and the solar receiving plate 3 are arranged at intervals, and the solar charging assembly 2 can be fixed, so that the solar receiving plate 3 arranged on the same surface can be fixed, and the solar receiving plate 3 is generally placed at a position irradiated by sunlight so as to fully absorb sunlight.

In particular, the solar energy receiving panel 3 may be placed on window glass in the home or on automotive glass.

It should be noted that, charging bin 1 is detachably connected with solar charging assembly 2, and charging bin 1 has better convenience, can be when not needing to utilize solar energy to charge, accomodate in order conveniently to carry with charging bin 1 alone, and solar charging assembly 2 and solar receiving panel 3 can change the fixed position of both through the new first mounting 4 of change.

According to the technical scheme, when the Bluetooth headset or the headset charging bin needs to be charged, the Bluetooth headset or the headset charging bin does not need to be charged through common household electricity, energy saving and charging can be achieved through solar energy, energy saving and emission reduction can be achieved through clean energy, and convenience in charging the headset charging bin is improved.

Further, referring to fig. 1 and 2, a first charging plate 21 electrically connected to the solar receiving plate 3 is disposed in the solar charging assembly 2, and a charging bin battery 11 and a second charging plate 12 electrically connected to the first charging plate 21 are disposed in the charging bin 1; the solar receiving panel 3, the first charging panel 21 and the second charging panel 12 cooperate to charge at least the charging bin battery 11.

It should be noted that, the first charging plate 21 is disposed in the solar charging assembly 2, the second charging plate 12 is disposed in the charging bin 1, the first charging plate 21 is electrically connected to the solar receiving plate 3, and at the same time, the first charging plate 21 is electrically connected to the second charging plate 12. The specific coordination of the solar energy receiving plate 3, the first charging plate 21 and the second charging plate 12 is that firstly, the solar energy receiving plate 3 absorbs sunlight so as to convert the solar energy into electric energy, and the obtained electric energy is transferred to the first charging plate 21 through electric connection; secondly, the electric energy on the first charging plate 21 is transferred to the second charging plate 12 in the charging bin 1 through electric connection; finally, the second charging plate 12 charges the charging bin battery 11 by using the electric energy thereof.

It should be further noted that, the electric energy on the second charging board 12 can charge the charging bin battery 11, and can also directly charge the bluetooth headset, without waiting for the charging bin battery 11 to charge, and then the electric quantity in the charging bin battery 11 charges the bluetooth headset.

It will be appreciated that the solar energy receiving board 3 is configured to receive light energy from the sun, by converting solar energy into electrical energy, the charging bin battery 11 can be charged to store electrical energy in the charging bin battery 11, and also the bluetooth headset can be directly charged.

Optionally, a first charging management I C may be disposed in the solar charging assembly 2, where the first charging management I C may detect current and voltage in real time and control the charging process of the charging bin battery 11, and may also set an automatic power-off unit, so that after the electric quantity of the charging bin battery 11 is full, the operation of the solar charging assembly 2 and the solar receiving panel 3 is automatically stopped, and by this design, the service lives of the solar receiving panel 3 and the charging bin 1 may be prolonged, and dangerous situations such as fire and explosion caused by too high temperature of internal elements of the charging bin 1 may also be avoided.

According to the charging bin 1 provided by the first embodiment of the utility model, the temperature range for charging the charging bin battery 11 is-5 ℃ to 60 ℃, and the high temperature resistance of the charging bin battery 11 can reach 85 ℃, namely, the charging bin battery 11 can be stored for at most 6 hours to 8 hours in an environment of 85 ℃, and therefore, the charging temperature range is controlled to be within-5 ℃ to 60 ℃, so that the use safety can be greatly improved.

Specifically, referring to fig. 1 and 2, a control circuit board 13 is further disposed in the charging bin 1, the control circuit board 13 is electrically connected with the charging bin battery 11, and the control circuit board 13 is far away from the solar charging assembly 2 relative to the charging bin battery 11.

It should be noted that, the electric energy stored in the battery 11 in the charging bin can be used to charge the bluetooth headset through the control circuit board 13.

Optionally, the control circuit board 13 may be electrically connected to the second charging board 12, and the electric energy on the second charging board 12 charges the charging bin battery 11 through the control circuit board 13.

As an alternative embodiment, referring to fig. 1 to 3, a first through hole 61 and a second through hole 62 are respectively provided on the solar charging assembly 2 and the charging bin 1, and the first through hole 61 and the second through hole 62 are correspondingly provided on a surface where the solar charging assembly 2 and the charging bin 1 are connected; the first charging plate 21 is electrically connected to the second charging plate 12 after passing through the first through hole 61 and the second through hole 62 in sequence.

It should be noted that, the first through hole 61 is disposed on the solar charging assembly 2, the second through hole 62 is disposed on the charging bin 1, the first through hole 61 is disposed at one end of the solar charging assembly 2 connected to the charging bin 1, the corresponding second through hole 62 is also disposed at one end of the connection between the two through holes, the projections of the first through hole 61 and the second through hole 62 on their respective planes are at least partially overlapped, and the P IN needle on the first charging plate 21 can be connected to the second charging plate 12 after passing through the first through hole 61 and the second through hole 62 IN sequence.

Referring to fig. 2 and 4, a charging interface 14 electrically connected to the control circuit board 13 is further disposed on the charging bin 1, and the charging interface 14 at least charges the charging bin battery 11 through an external connection cable.

It can be understood that, through setting up the interface 14 that charges with control circuit board 13 electric connection for charge the electric quantity that stores in storehouse battery 11 both can charge after being converted into electric energy by solar energy, also can charge through interface 14 and external cable being connected, the electric quantity that stores can charge for bluetooth headset, thereby makes bluetooth headset possess the condition of start-up use.

It should be noted that, the electric energy converted by solar energy is utilized to charge the charging bin battery 11, so as to charge the bluetooth headset, the charging is slower possibly due to certain factors, the current and efficiency of the solar charging are high and low, and besides the area size, the power size and the intensity of sunlight irradiation of the solar receiving plate 3 are related to parameters such as temperature and humidity of the environment, therefore, the charging interface 14 is arranged on the charging bin 1, the charging wire is inserted on the charging interface 14 to realize rapid power supply to the charging bin 1, and through the design, the shortage of electric quantity of a user when the bluetooth headset needs emergency use can be avoided.

Optionally, a second charging management I C may be set in the charging bin 1, and the second charging management I C may detect current and voltage in real time and control the current and voltage in the charging process, and may also be provided with a temperature sensor unit for monitoring the temperature during charging to avoid the short service life of the bluetooth headset caused by long-time charging, so that the charging bin 1 charges the bluetooth headset in an optimal state.

Specifically, the second charging management I C is disposed on the control circuit board 13, and a charging head is further disposed on the control circuit board 13, and is fixed on the control circuit board 13 by spot welding, and the control circuit board 13 is connected IN series with the charging bin battery 11, wherein the charging head actually comprises two P O GO P IN needles.

Optionally, the control circuit board 13 has a short-circuit protection function, and the short-circuit protection is implemented by under-voltage protection I C, and the module is an existing integrated module, so that details are not repeated here.

It should be noted that the types of the charging interface 14 include, but are not limited to, LI GHTNING interfaces, type-C interfaces, and Mi cro interfaces, and may be specifically set according to the actual structure, which is not limited herein.

Further, referring to fig. 1 and 2, a second fixing member 15 is disposed on a side of the charging bin battery 11 facing away from the control circuit board 13, and the second fixing member 15 fixes the charging bin battery 11 on the inner wall of the charging bin 1.

It can be understood that the control circuit board 13 and the charging bin battery 11 are both arranged in the charging bin 1, and the second fixing piece 15 is arranged on one surface of the charging bin battery 11, which is away from the control circuit board 13, so that the charging bin battery 11 is fixed, the charging bin battery 11 is prevented from shifting in the charging bin 1, the circuit connected with the charging bin battery 11 is loose, and the condition that charging cannot be performed is further caused.

As an alternative embodiment, with continued reference to fig. 1 and 2, a plurality of first magnetic attraction members 71 and second magnetic attraction members 72 are respectively provided in the solar charging assembly 2 and the charging bin 1, and the first magnetic attraction members 71 are magnetically attracted to at least a portion of the second magnetic attraction members 72.

It can be understood that solar charging assembly 2 and charging bin 1 can inhale piece 71 and second magnetism through a plurality of first magnetism and inhale piece 72, realize magnetism and inhale the connection for charging bin 1 has better convenience, can accomodate charging bin 1 alone, and it is very convenient to carry, and charging bin 1 and solar charging assembly 2 separation back, also can utilize the electric quantity of charging interface 14 or charging bin battery 11 on charging bin 1 to charge for bluetooth headset when bluetooth headset needs to charge.

It should be noted that, the second magnetic attraction piece 72 is disposed in the charging bin 1, at least part of the second magnetic attraction piece 72 is magnetically attracted with the first magnetic attraction piece 71, and optionally, the second magnetic attraction piece 72 of another part can be disposed close to the bluetooth headset, and the magnetic attraction component is also disposed on the bluetooth headset, so that the bluetooth headset and the charging bin 1 can be magnetically attracted and connected, damage to the charging bin 1 and the bluetooth headset when a user carries the charging bin is avoided, and service life is prolonged.

In addition, solar charging assembly 2 and charging bin 1 inhale the subassembly through magnetism and inhale the magnetism and connect, and its connection structure is simple, the installation is dismantled conveniently, has still reduced the cost of dismantling, maintenance when having improved production efficiency.

Further, referring to fig. 1 to 3, a first placement groove 81 and a second placement groove 82 are respectively provided on the inner walls of the solar charging assembly 2 and the charging bin 1, and the first placement groove 81 is disposed close to the second placement groove 82; the first magnetic attraction piece 71 is fixed to the first placement groove 81, and the second magnetic attraction piece 72 magnetically connected to the first magnetic attraction piece 71 is fixed to the second placement groove 82.

It will be appreciated that the first placing groove 81 and the second placing groove 82 are respectively fixed with the first magnetic attraction piece 71 and the second magnetic attraction piece 72, at least part of the second magnetic attraction piece 72 is magnetically attracted with the first magnetic attraction piece 71, and the two placing grooves are arranged close to each other, so that the magnetic force between the first magnetic attraction piece 71 and the second magnetic attraction piece 72 is stronger, the connection between the charging bin 1 and the solar charging assembly 2 is firmer, and further, the efficiency of charging the charging bin 1 by using electric energy converted by solar energy can be improved.

It should be noted that, when the two placing grooves are close to each other, the volumes of the solar charging assembly 2 and the charging bin 1 occupied by the first magnetic attraction piece 71 and the second magnetic attraction piece 72 respectively will be reduced, and by this design, the total volume of the solar earphone charging bin 100 can be further reduced, and the corresponding weight is further reduced, so that the portable earphone charging bin is more convenient to carry.

Referring to fig. 5, the second embodiment of the present utility model further provides an earphone assembly 200, where the earphone assembly 200 includes an earphone body 5 and the solar earphone charging bin 100, and the earphone body 5 is a wireless bluetooth earphone.

It should be noted that, referring to the above embodiment for the specific structure of the solar earphone charging bin 100, since all the technical solutions of all the embodiments are adopted by the solar earphone charging bin 100 in the earphone assembly 200, the solar earphone charging bin at least has the beneficial effects brought by the technical solution of the first embodiment, and will not be repeated herein.

Further, referring to fig. 5 and 6, the charging bin 1 is provided with an earphone slot 16 matching with the earphone body 5 in size for placing the earphone body 5, and it can be understood that the charging bin 1 is provided with a concave earphone slot 16, so that the earphone body 5 can be better protected.

Optionally, when the earphone assembly 200 is applied to the inside of the automobile, the earphone assembly 200 may further include a vibration sensing module and a control circuit module, wherein the vibration sensing module may be separately disposed in a sensor, and the control circuit module may be disposed in the charging bin 1 and/or the earphone body 5.

It should be noted that, when the automobile is closed, the vibration sensing module in the sensor can detect the vibration generated by the closing of the automobile, and then the signal for controlling the earphone body is sent to the control circuit module, the signal received by the control circuit module can be the signal for starting up the earphone body 5, or the signal converted into the signal for starting up the earphone body 5 by the control signal, the signal is sent to the earphone body 5 by the control circuit module, and the earphone body 5 completes starting up after receiving the signal, so as to realize Bluetooth connection with the electronic equipment.

The first connection between the electronic device and the earphone body 5 is not needed to be connected in the mode, and only the connection is needed to be completed according to the existing bluetooth connection mode, namely, the first connection needs to use the traditional connection mode, and the subsequent connection only needs to be realized through the vibration sensing module and the control circuit module.

Further, the sensitivity of vibration monitoring by using the vibration sensing module is 2g/4g/8g/16g, and the effective range is 0g-2g, wherein the gravity acceleration is 1 g=9.8 m/s.

As can be appreciated, when the vibration sensing module is used for monitoring the vibration generated by closing the door of the automobile, the vibration sensing module outputs a signal only after the intensity of the vibration reaches a certain value, and the control circuit module sends a starting signal to the earphone body; when the monitored vibration intensity is within the effective range, carrying out subsequent signal transmission so as to control the starting-up of the earphone; specifically, after setting for sensitivity and effective scope of vibrations monitoring, the user can place the earphone in the car for a long time, neither need frequently get put it charge, also can more convenient, swift when needs use the earphone, utilize solar energy to charge, more energy-concerving and environment-protective, close the automatic start of car door earphone, realize being connected with electronic equipment's bluetooth, can promote the travelling comfort of using the earphone greatly.

With the development of wireless bluetooth headset and the continuous improvement of living standard, use bluetooth headset to answer the phone when driving has become the normality, through this design, can make when driving use earphone to answer the phone or listen the music more convenient, richened user's experience sense.

Compared with the prior art, the solar earphone charging bin and the earphone assembly provided by the utility model have the following advantages:

1. the solar earphone charging bin comprises a charging bin and a solar charging assembly which are detachably connected, wherein the charging bin is also electrically connected with the solar charging assembly; one side of the solar charging assembly is provided with a solar receiving plate and a first fixing piece arranged at intervals with the solar receiving plate, the solar receiving plate is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece is used for fixing the solar charging assembly.

As can be appreciated, the solar energy receiving plate and the solar energy charging assembly electrically connected with the charging bin are arranged, wherein the solar energy receiving plate can absorb sunlight so as to convert solar energy into electric energy, and the charging bin is charged through the solar energy charging assembly; in addition, a first fixing piece is arranged on one surface of the solar charging assembly, and the first fixing piece and the solar receiving plate are arranged at intervals and can fix the solar charging assembly, so that the solar receiving plates arranged on the same surface can be fixed, and the solar receiving plates are generally placed at the position irradiated by sunlight so as to fully absorb sunlight; in particular, the solar energy receiving panel may be placed on window glass in a home or on automotive glass.

It should be noted that, charge storehouse and solar charging module can dismantle and be connected, charge the storehouse and have better convenience, can be when not needing to utilize solar energy to charge, with charge the storehouse alone accomodate in order to conveniently carry, and solar charging module and solar receiving panel can change both fixed positions through the first mounting of renewing.

According to the technical scheme, when the Bluetooth headset or the headset charging bin needs to be charged, the Bluetooth headset or the headset charging bin does not need to be charged through common household electricity, energy saving and charging can be achieved through solar energy, energy saving and emission reduction can be achieved through clean energy, and convenience in charging the headset charging bin is improved.

2. The solar earphone charging bin provided by the embodiment of the utility model is internally provided with a first charging plate electrically connected with a solar receiving plate, a charging bin battery and a second charging plate electrically connected with the first charging plate; the solar energy receiving plate, the first charging plate and the second charging plate are matched, and at least the battery in the charging bin is charged.

It should be noted that, the first charging plate is disposed in the solar charging assembly, the second charging plate is disposed in the charging bin, and the first charging plate is electrically connected to the solar receiving plate. The solar energy receiving plate absorbs sunlight, so that the solar energy is converted into electric energy, and the obtained electric energy is transferred to the first charging plate through electric connection; secondly, the electric energy on the first charging plate is transferred to a second charging plate in the charging bin through electric connection; and finally, the second charging plate charges the battery in the charging bin by utilizing the electric energy of the second charging plate.

It is further required to explain that the electric energy on the second charging plate can be used for charging the battery of the charging bin, and can also be used for directly charging the Bluetooth headset, and the electric quantity in the battery of the charging bin is used for charging the Bluetooth headset after the battery of the charging bin is not required to be charged.

It is to be appreciated that the solar energy receiving plate is configured to receive light energy from the sun, convert the solar energy into electrical energy, charge the charging bin battery to store the electrical energy in the charging bin battery, and directly charge the bluetooth headset.

3. The solar earphone charging bin is characterized in that a control circuit board is arranged in the charging bin and is electrically connected with a charging bin battery, and the control circuit board is far away from a solar charging assembly relative to the charging bin battery. It should be noted that, the electric energy stored in the battery of the charging bin can be used for charging the Bluetooth headset through the control circuit board; the control circuit board can also be electrically connected with the second charging plate, and the electric energy on the second charging plate is used for charging the battery in the charging bin through the control circuit board.

4. The solar earphone charging bin provided by the embodiment of the utility model is characterized in that a solar charging assembly and a charging bin are respectively provided with a first through hole and a second through hole, and the first through hole and the second through hole are correspondingly arranged on one surface of the solar charging assembly, which is connected with the charging bin; the first charging plate is electrically connected with the second charging plate after sequentially passing through the first through hole and the second through hole.

It should be noted that, the first through hole sets up on solar charging module, and the second through hole sets up on charging the storehouse, and first through hole sets up the one end of being connected with charging the storehouse at solar charging module, and the second through hole that corresponds also sets up the one end of being connected between them, and the projection of first through hole and second through hole on its respective plane has the partial coincidence at least, and the position of coincidence can supply P IN needle on the first charging plate to link to each other with the second charging plate after passing first through hole, second through hole IN proper order.

5. The solar earphone charging bin provided by the embodiment of the utility model is also provided with a charging interface which is electrically connected with the control circuit board, and the charging interface at least charges a battery of the charging bin through an external connection cable.

It can be understood that through setting up the interface that charges with control circuit board electric connection for charge the electric quantity that stores in the storehouse battery and both can charge after being converted into electric energy by solar energy, also can charge through charging interface and external cable and meet, the electric quantity that stores can charge for bluetooth headset, thereby makes bluetooth headset possess the condition of start-up use.

It should be noted that, the electric energy converted by solar energy is utilized to charge the battery of the charging bin, and then charge the Bluetooth headset, the charging is slower possibly due to certain factors, the current and the efficiency of the solar charging are high and low, besides the area and the power of the solar receiving plate and the intensity of sunlight irradiation are related to the parameters such as the temperature and the humidity of the environment, therefore, the charging interface is arranged on the charging bin, the charging wire is inserted on the charging interface to realize the rapid power supply of the charging bin, and through the design, the electric quantity is not enough when the user needs to use the Bluetooth headset in an emergency.

6. According to the solar earphone charging bin provided by the embodiment of the utility model, the second fixing piece is arranged on one surface of the charging bin battery, which is away from the control circuit board, and the second fixing piece is used for fixing the charging bin battery on the inner wall of the charging bin.

It can be understood that control circuit board and the storehouse battery that charges all set up in the inside of storehouse that charges, set up the second mounting in the one side that the storehouse battery deviates from control circuit board that charges, fix the storehouse battery that charges, avoid the storehouse battery that charges to remove in the storehouse that charges to lead to the circuit that the storehouse battery that charges to be connected not hard up, and then appear the condition that can't charge.

7. The solar earphone charging bin is characterized in that a plurality of first magnetic attraction pieces and second magnetic attraction pieces are respectively arranged in the solar charging assembly and the charging bin, and the first magnetic attraction pieces are in magnetic attraction connection with at least part of the second magnetic attraction pieces.

It is understandable that solar charging module and charging bin can inhale the piece through a plurality of first magnetism and the piece is inhaled to the second magnetism, realizes that the magnetism is inhaled and is connected for charging bin has better convenience, can be with charging bin list accomodate, and it is very convenient to carry, and charging bin and solar module separation back, also can utilize the electric quantity of charging interface or charging bin battery on the charging bin when bluetooth headset needs to charge for bluetooth headset charges.

It is to be noted that, the second magnetism is inhaled a setting in the storehouse that charges, and at least part second magnetism is inhaled a and is inhaled a magnetism between the first magnetism and is inhaled a connection, and optionally, another part second magnetism is inhaled a setting that can be close to bluetooth headset, also sets up magnetism on bluetooth headset and inhale the subassembly for bluetooth headset also can realize magnetism with the storehouse that charges and inhale and be connected, avoid both damaging when the user carries storehouse and bluetooth headset that charges, improve the life of use.

In addition, solar charging assembly and storehouse that charges inhale the subassembly through magnetism and inhale the connection, and its connection structure is simple, the installation is dismantled conveniently, has still reduced the cost of dismantling, maintenance when having improved production efficiency.

8. The solar earphone charging bin provided by the embodiment of the utility model is characterized in that a first placing groove and a second placing groove are respectively arranged on the inner walls of a solar charging assembly and the charging bin, and the first placing groove is arranged close to the second placing groove; the first magnetic attraction piece is fixed in the first placing groove, and the second magnetic attraction piece connected with the first magnetic attraction piece is fixed in the second placing groove.

It is understandable that the first standing groove and the second standing groove are respectively fixed with a first magnetic attraction piece and a second magnetic attraction piece, at least part of the second magnetic attraction piece is connected with the first magnetic attraction piece in a magnetic attraction manner, wherein the two standing grooves are arranged close to each other, so that the magnetic force between the first magnetic attraction piece and the second magnetic attraction piece is stronger, the connection between the charging bin and the solar charging assembly is firmer, and further, the efficiency of charging the charging bin by utilizing electric energy converted by solar energy can be improved.

It should be noted that, when being close to the setting between two standing grooves, the first magnetism is inhaled a solar charging module that occupies respectively with the second magnetism and is charged the volume in the storehouse and will be reduced, through this design, can make the solar headset charge the total volume in storehouse and further reduce, corresponding weight also further lightens, more conveniently carries.

9. The earphone assembly provided by the embodiment of the utility model comprises the detachably connected earphone body and the solar earphone charging bin, wherein the earphone body is a wireless Bluetooth earphone.

The earphone assembly has the same beneficial effects as the solar earphone charging bin, and the description is omitted here.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the utility model, but any modifications, equivalents, improvements, etc. within the principles of the present utility model should be included in the scope of the present utility model.

Claims (10)

1. A solar earphone charging bin, comprising:

the charging bin is also electrically connected with the solar charging assembly;

One side of the solar charging assembly is provided with a solar receiving plate and a first fixing piece which is arranged at intervals with the solar receiving plate, the solar receiving plate is used for receiving solar energy and converting the solar energy into electric energy, and the first fixing piece is used for fixing the solar charging assembly.

2. The solar headset charging bin of claim 1, wherein:

A first charging plate electrically connected with the solar receiving plate is arranged in the solar charging assembly, and a charging bin battery and a second charging plate electrically connected with the first charging plate are arranged in the charging bin;

The solar receiving plate, the first charging plate and the second charging plate are matched, and at least the charging bin battery is charged.

3. The solar headset charging bin of claim 2, wherein:

Still be equipped with control circuit board in the storehouse that charges, control circuit board with the storehouse battery electric connection charges, control circuit board for the storehouse battery that charges is kept away from solar charging module.

4. The solar headset charging bin of claim 3, wherein:

The solar charging assembly and the charging bin are respectively provided with a first through hole and a second through hole, and the first through hole and the second through hole are correspondingly arranged on one surface of the solar charging assembly, which is connected with the charging bin;

The first charging plate is electrically connected with the second charging plate after sequentially passing through the first through hole and the second through hole.

5. The solar headset charging bin of claim 3, wherein:

the charging bin is also provided with a charging interface electrically connected with the control circuit board, and the charging interface at least charges the battery in the charging bin through an external connection cable.

6. The solar headset charging bin of claim 3, wherein:

The one side that charges storehouse battery and deviate from control circuit board is equipped with the second mounting, the second mounting will charge storehouse battery and fix the inner wall in storehouse that charges.

7. The solar headset charging bin of claim 1, wherein:

the solar charging assembly and the charging bin are respectively provided with a plurality of first magnetic attraction pieces and second magnetic attraction pieces, and the first magnetic attraction pieces are connected with at least part of the second magnetic attraction pieces in a magnetic attraction manner.

8. The solar headset charging bin of claim 7, wherein:

The solar charging assembly and the inner wall of the charging bin are respectively provided with a first placing groove and a second placing groove, and the first placing groove is close to the second placing groove;

The first magnetic attraction piece is fixed in the first placing groove, and the second magnetic attraction piece connected with the first magnetic attraction piece is fixed in the second placing groove.

9. An earphone assembly, characterized in that:

The earphone assembly comprises an earphone body and the solar earphone charging bin, wherein the earphone body is detachably connected with the solar earphone charging bin, and the earphone body is a wireless Bluetooth earphone.

10. The earphone assembly of claim 9, wherein:

and the charging bin is provided with an earphone groove matched with the earphone body in size and used for placing the earphone body.