CN213126414U - Bluetooth headset storehouse of charging - Google Patents

Abstract

The utility model discloses a bluetooth headset storehouse of charging, bluetooth headset storehouse of charging includes first charging assembly and second charging assembly, and first charging assembly includes first charging shell, first charging source and first bluetooth headset, first charging source set up in the first charging shell, the concave first charging groove that is equipped with the first bluetooth headset of holding of first charging shell's surface, first charging source are equipped with two outputs, and wherein, a first charging source's an output is connected to the position department of first charging groove to when first bluetooth headset is placed in first charging groove, first charging source is from first bluetooth headset electric connection, and first charging source constitutes a complete first power supply system with first bluetooth headset. The utility model discloses technical scheme has kept bluetooth headset's the technique of charging promptly, has still increased the independence that every bluetooth headset charges, has increased the agility that two bluetooth headset charging bin can dismantle the amalgamation again.

Description

Bluetooth headset storehouse of charging

Technical Field

The utility model relates to an intelligence electronic equipment technical field, in particular to bluetooth headset storehouse of charging.

Background

In the prior art, the bluetooth headset charging boxes are all integrated and internally provided with a charging source, however, the integrated bluetooth headset charging boxes limit the capacity of the built-in charging source, the capacity of the charging source determines the size of the volume of the charging source, if the capacity of the charging source is increased, the volume of the charging source is increased, if the capacity of the charging source is reduced, two bluetooth headsets share one charging source, and when the bluetooth headset goes out for a long time, the cruising ability of the charging source is not enough to support the long-time use electric quantity, so that the use of a user is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a bluetooth headset storehouse of charging aims at solving integral type bluetooth headset's awkward problem.

In order to achieve the above purpose, the bluetooth headset charging bin provided by the utility model comprises a first charging assembly and a second charging assembly,

the first charging assembly comprises a first charging shell, a first charging power supply and a first Bluetooth headset, the first charging power supply is arranged in the first charging shell, a first charging groove for accommodating the first Bluetooth headset is concavely arranged on the outer surface of the first charging shell, the first charging power supply is provided with two output ends, wherein one output end of the first charging power supply is connected to the position of the first charging groove, so that when the first Bluetooth headset is arranged in the first charging groove, the first charging power supply is electrically connected with the first Bluetooth headset;

the second charging assembly comprises a second charging shell, a second charging power supply and a second Bluetooth headset, the second charging power supply is arranged in the second charging shell, a second charging groove for accommodating the second Bluetooth headset is concavely arranged on the outer surface of the second charging shell, the second charging power supply is provided with two output ends, one output end of the second charging power supply is connected to the position of the second charging groove, so that when the second Bluetooth headset is arranged in the second charging groove, the second charging power supply is electrically connected with the second Bluetooth headset;

the other output end of the first charging power supply is electrically connected with the other output end of the second charging power supply.

Optionally, the first charging slot is provided with a first transmitting electrical contact, the first bluetooth headset is provided with a first receiving electrical contact corresponding to the first transmitting electrical contact, and when the first transmitting electrical contact abuts against the first receiving electrical contact, electrical signals of the first transmitting electrical contact and the first receiving electrical contact are conducted;

the second charging groove is provided with a second transmitting electric contact, the second Bluetooth headset is provided with a second receiving electric contact corresponding to the second transmitting electric contact, and when the second transmitting electric contact is abutted to the second receiving electric contact, electric signals of the second transmitting electric contact and the second receiving electric contact are conducted.

Optionally, the contact material of the first transmitting electrical contact, the first receiving electrical contact, the second transmitting electrical contact and the second receiving electrical contact may be spring contacts and/or dome contacts.

Optionally, the first bluetooth headset and the second bluetooth headset may be selected as in-ear headsets or semi-in-ear headsets.

Optionally, the first charging assembly includes a first external interface, and the first external interface is electrically connected to an output end of the first charging power supply;

the second charging assembly comprises a second external interface, and the second external interface is electrically connected with the output end of the second charging power supply.

Optionally, the first external interface is a USB a-type interface.

Optionally, the first external interface is one of a Micro USB socket, a Type-C socket and a Lightning interface extending from the first charging component.

Optionally, the bluetooth headset charging bin is provided with at least one switch, and the switch controls the first charging assembly and the second charging assembly simultaneously, or the switch controls the first charging assembly or the switch controls the second charging assembly.

The utility model discloses technical scheme is divided into first subassembly and the second subassembly that charges through bluetooth headset storehouse of charging, first subassembly and the second subassembly that charges are equipped with independent shell/power bluetooth headset etc. respectively, make every bluetooth headset can enjoy independent charging system, the charging technology of bluetooth headset has been kept promptly, still increase the independence that bluetooth headset charges, make bluetooth headset be full of more soon, also increase the power capacity in bluetooth headset storehouse of charging, increase the convenience, in order to solve the continuation of the journey problem in bluetooth headset storehouse of charging.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic diagram of a forward structure of a charging chamber of a bluetooth headset;

fig. 2 is a schematic side view of a charging chamber of a bluetooth headset;

FIG. 3 is a schematic structural diagram of a Bluetooth headset;

fig. 4 is an exploded view of a bluetooth headset charging bay.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1	Bluetooth headset storehouse of charging	112	First charging power supply
2	Display screen	122	Second charging power supply
				3	First Bluetooth earphone	113	First emitting electrical contact
4	Second Bluetooth earphone	123	Second transmitting electrical contact
				11	First charging assembly
12	Second charging assembly

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as up, down, left, right, front, and back) are provided in the embodiments of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1-4, a bluetooth headset charging chamber 1, the bluetooth headset charging chamber 1 includes a first charging assembly 11 and a second charging assembly 12,

the first charging assembly 11 comprises a first charging housing, a first charging power supply 112 and a first bluetooth headset 3, wherein the first charging power supply 112 is arranged in the first charging housing, a first charging slot for accommodating the first bluetooth headset 3 is concavely arranged on the outer surface of the first charging housing, the first charging power supply 112 is provided with two output ends, wherein one output end of the first charging power supply 112 is connected to the position of the first charging slot, so that when the first bluetooth headset 3 is arranged in the first charging slot, the first charging power supply 112 is electrically connected with the first bluetooth headset 3;

the second charging assembly 12 includes a second charging housing, a second charging source 122 and a second bluetooth headset 4, the second charging source 122 is disposed in the second charging housing, a second charging slot for accommodating the second bluetooth headset 4 is concavely disposed on an outer surface of the second charging housing, the second charging source 122 has two output ends, wherein one output end of the second charging source 122 is connected to the second charging slot, so that when the second bluetooth headset 4 is disposed in the second charging slot, the second charging source 122 is electrically connected to the second bluetooth headset 4;

the other output terminal of the first charging power supply 112 is electrically connected to the other output terminal of the second charging power supply 122.

Specifically, the first charging assembly 11 includes a first charging housing, a first charging source 112 and a first bluetooth headset 3, the first charging source 112 is disposed in the first charging housing, a first charging slot for accommodating the first bluetooth headset 3 is concavely disposed on an outer surface of the first charging housing, the first charging source 112 has two output ends, wherein one output end of the first charging source 112 is connected to the first charging slot, so that when the first bluetooth headset 3 is disposed in the first charging slot, the first charging source 112 is electrically connected to the first bluetooth headset 3; similarly, the second charging assembly 12 includes a second charging housing, a second charging source 122 and a second bluetooth headset 4, the second charging source 122 is disposed in the second charging housing, a second charging slot for accommodating the second bluetooth headset 4 is concavely disposed on an outer surface of the second charging housing, the second charging source 122 has two output ends, wherein one output end of the second charging source 122 is connected to the second charging slot, so that when the second bluetooth headset 4 is disposed in the second charging slot, the second charging source 122 is electrically connected to the second bluetooth headset 4; it should be noted that the other output terminal of the first charging power supply 112 is electrically connected to the other output terminal of the second charging power supply 122. The first bluetooth headset 3 and the second bluetooth headset 4 can be selected to be in-ear headsets or semi-in-ear headsets.

The first charging slot is provided with a first transmitting electrical contact 113, the first bluetooth headset 3 is provided with a first receiving electrical contact corresponding to the first transmitting electrical contact 113, and when the first transmitting electrical contact 113 is abutted against the first receiving electrical contact, the first transmitting electrical contact and the first receiving electrical contact are conducted through electrical signals; the second charging slot is provided with a second transmitting electric contact 123, the second bluetooth headset 4 is provided with a second receiving electric contact corresponding to the second transmitting electric contact 123, and when the second transmitting electric contact 123 is abutted against the second receiving electric contact, the second transmitting electric contact 123 and the second receiving electric contact are conducted through electric signals; the first transmitting electrical contact 113 may be a spring contact and/or a dome contact, and the second transmitting electrical contact 123 may be a spring contact and/or a dome contact.

The first charging source 112 and the second charging source 122 both include a battery for storing power, a charging and discharging circuit board, a charging interface and two power output interfaces, wherein one power output interface is used for electrically connecting with the first bluetooth headset 3 or the second bluetooth headset 4, the other power output interface is used for electrically connecting the first charging source 112 and the second charging source 122, the charging interface is an interface for connecting an external data line for charging the battery, the charging interface can be a Micro USB socket, a Type-C socket and a Lightning interface, the first charging interface is arranged on the first charging and discharging circuit board, a line of the first charging interface is connected into the first charging and discharging circuit board, a positive electrode and a negative electrode of the first battery are electrically connected into the first charging and discharging circuit board, the first emitting electrical contact 113 on the power output interface is electrically connected into the first charging and discharging circuit board, the first charging and discharging circuit board controls the conduction of electric energy to the first transmitting electric contact 113; the second charging interface is arranged on the second charging and discharging circuit board, a line of the second charging interface is connected into the second charging and discharging circuit board, the positive electrode and the negative electrode of a second battery are electrically connected into the second charging and discharging circuit board, the second transmitting electrical contact 123 on the power output interface is electrically connected into the second charging and discharging circuit board, and the second charging and discharging circuit board controls to lead out electric energy to the second transmitting electrical contact 123; for the power consumption of the first bluetooth headset 3 and the second bluetooth headset 4; the battery can be designed into a size according to the stored energy consumption.

Bluetooth headset storehouse 1 of charging still includes display screen 2, display screen 2 set up in first subassembly 11 and/or the surface of second subassembly 12 that charges, display screen 2 in first charging source 112 and/or second charging source 122 electric connection is used for showing first charging source 112 and/or second charging source 122 electric quantity size.

The bluetooth headset storehouse 1 that charges is provided with at least one switch, the switch simultaneous control first subassembly 11 that charges with the second subassembly 12 that charges, or switch control first subassembly 11 that charges or switch control the second subassembly 12 that charges. When the switch simultaneously controls the first charging assembly 11 and the second charging assembly 12, the power conducting line of the first charging assembly 11 and the power conducting line of the second charging assembly 12 are connected in parallel to the switch; when the switch controls the first charging assembly 11 or the switch controls the second charging assembly 12, the first charging assembly 11 is provided with one of the switch and the switch is connected in series to the power supply conducting circuit of the first charging assembly 11, the second charging assembly 12 is provided with the other of the switch and the switch is connected in series to the power supply conducting circuit of the second charging assembly 12.

In order to increase the practicability and diversity of the bluetooth headset charging bin 1, the bluetooth headset charging bin 1 is provided with a function of a charger, that is, the first charging assembly 11 includes a first external interface, the first external interface is electrically connected with the output end of the first charging power supply 112, and the first charging assembly 11 can transmit power by using an external device through the first external interface, so that the first charging assembly 11 supplies power to the external device; the second charging assembly 12 includes a second external interface, the second external interface is electrically connected to the output end of the second charging power supply 122, and the second charging assembly 12 can transmit power to an external device through the second external interface, so that the second charging assembly 12 supplies power to the external device. The first external interface is a USB A-type interface. First external interface is for following in Micro USB socket, Type-C socket and the Lightning interface that first subassembly 11 extends of charging.

This application is divided into first subassembly 11 and the second subassembly 12 that charges through bluetooth headset storehouse 1 that charges, first subassembly 11 and the second subassembly 12 that charges are equipped with independent shell/power bluetooth headset etc. respectively, make every bluetooth headset can enjoy independent charging system, the charging technology of bluetooth headset has been kept promptly, the independence that bluetooth headset charges still increases, make bluetooth headset be full of more soon, also increase bluetooth headset storehouse 1's that charges power capacity, increase the convenience, in order to solve bluetooth headset storehouse 1's continuation of the journey problem.

The above only is the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (9)

1. A Bluetooth headset charging bin is characterized in that the Bluetooth headset charging bin comprises a first charging assembly and a second charging assembly,

the first charging assembly comprises a first charging shell, a first charging power supply and a first Bluetooth headset, the first charging power supply is arranged in the first charging shell, a first charging groove for accommodating the first Bluetooth headset is concavely arranged on the outer surface of the first charging shell, the first charging power supply is provided with two output ends, one output end of the first charging power supply is connected to the position of the first charging groove, so that when the first Bluetooth headset is arranged in the first charging groove, the first charging power supply is electrically connected with the first Bluetooth headset, and the first charging power supply and the first Bluetooth headset form a complete first power supply system;

the second charging assembly comprises a second charging shell, a second charging power supply and a second Bluetooth earphone, the second charging power supply is arranged in the second charging shell, a second charging groove for accommodating the second Bluetooth earphone is concavely arranged on the outer surface of the second charging shell, the second charging power supply is provided with two output ends, one output end of the second charging power supply is connected to the position of the second charging groove, so that when the second Bluetooth earphone is arranged in the second charging groove, the second charging power supply is electrically connected with the second Bluetooth earphone, and the second charging power supply and the second Bluetooth earphone form a complete second power supply system;

the first charging assembly and the second charging assembly are independent charging devices respectively, the first charging assembly and the second charging assembly can be detachably connected to form a complete Bluetooth headset charging bin, and the other output end of the first charging power supply is electrically connected with the other output end of the second charging power supply.

2. The bluetooth headset charging chamber according to claim 1, wherein the first charging assembly includes a first external interface electrically connected to an output terminal of the first charging power supply;

the second charging assembly comprises a second external interface, and the second external interface is electrically connected with the output end of the second charging power supply.

3. The bluetooth headset charging chamber according to claim 2, wherein the first external interface and the second external interface may be USB type a interfaces.

4. The bluetooth headset charging bin of claim 1 wherein the first charging assembly further comprises a first input interface, the first input interface being electrically connected to the input of the first charging power supply;

the second charging assembly comprises a second input interface, and the second input interface is electrically connected with the input end of the second charging power supply.

5. The bluetooth headset charging bin of claim 4 wherein the first input interface is one of a MicroUSB jack, a Type-C jack, and a Lightning interface extending from the first charging assembly; the second input interface is followed the second charges one of the MicroUSB socket, Type-C socket and the Lightning interface that the subassembly extends.

6. The bluetooth headset charging chamber according to claim 1, wherein the first charging slot is provided with a first transmitting electrical contact, the first bluetooth headset is provided with a first receiving electrical contact corresponding to the first transmitting electrical contact, and when the first transmitting electrical contact abuts against the first receiving electrical contact, the first transmitting electrical contact and the first receiving electrical contact are electrically conducted;

the second charging groove is provided with a second transmitting electric contact, the second Bluetooth headset is provided with a second receiving electric contact corresponding to the second transmitting electric contact, and when the second transmitting electric contact is abutted to the second receiving electric contact, electric signals of the second transmitting electric contact and the second receiving electric contact are conducted.

7. The bluetooth headset charging chamber of claim 6, wherein the contact material of the first transmitting electrical contact, the first receiving electrical contact, the second transmitting electrical contact and the second receiving electrical contact may be spring contacts and/or dome contacts.

8. The bluetooth headset charging bin of claim 1 wherein the first bluetooth headset and the second bluetooth headset are selected from an in-ear headset and a semi-in-ear headset.

9. The bluetooth headset charging bin of claim 1, wherein the bluetooth headset charging bin is provided with at least one switch, the switch controlling the first charging assembly and the second charging assembly simultaneously, or the switch controlling the first charging assembly or the switch controlling the second charging assembly.

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