CN115459397A - Charging equipment - Google Patents

Abstract

The application discloses battery charging outfit relates to battery charging outfit technical field. This battery charging outfit is including the storehouse of charging, and the storehouse of charging is used for placing the centre form of different grade type, and wherein, the inner structure of the centre form of different grade type is different, and the inner structure of the centre form of every type agrees with the appearance of the wireless earphone that this type corresponds. Install first shell fragment on the internal surface in storehouse of charging, when the storehouse of charging is placed in the storehouse of charging to any type's centre form, first shell fragment contacts with the second shell fragment on the surface of centre form, and the storehouse of charging charges for the wireless earphone in the centre form through first shell fragment, second shell fragment. So, realized not changing under the condition in storehouse of charging, charge the wireless earphone of different grade type.

Description

Charging equipment

Technical Field

The application relates to the technical field of charging equipment, in particular to charging equipment.

Background

According to the appearance and charging contact position of a True Wireless Stereo (TWS) headset, a charging chamber of the existing TWS headset must correspond to the TWS headset. If the charging bin is lost, the earphones are useless because the charging cannot be carried out, the charging bins of the TWS earphones of different brands or models are completely incompatible, and even if a new TWS earphone is bought and a new charging bin is configured, the charging cannot be carried out because the new charging bin is different from the brand or model of the old TWS earphone.

Therefore, how to charge different types of TWS earphones without replacing the charging bin is an urgent problem to be solved.

Disclosure of Invention

The application provides a charging device for charging different types of TWS earphones.

This battery charging outfit is including the storehouse of charging, and the storehouse of charging is used for placing the centre form of different grade type, and wherein, the inner structure of the centre form of different grade type is different, and the inner structure of the centre form of every type agrees with the appearance of the wireless earphone that this type corresponds. Install first shell fragment on the internal surface in storehouse of charging, when the storehouse of charging is placed in the storehouse of charging to any type's centre form, first shell fragment contacts with the second shell fragment on the surface of centre form, and the storehouse of charging charges for the wireless earphone in the centre form through first shell fragment, second shell fragment.

Among the above-mentioned technical scheme, the storehouse of charging is used for placing the centre form of different grade type, and the inner structure of the centre form of every type agrees with mutually with the appearance of the wireless earphone that this type corresponds, and when the centre form of arbitrary type was placed in the storehouse of charging, the storehouse of charging can be charged for the wireless earphone in the centre form through first shell fragment, second shell fragment. So, realized not changing under the condition in storehouse of charging, charge the wireless earphone of different grade type.

In one possible design, the charging chamber includes a battery, and when the first elastic sheet contacts the second elastic sheet, the battery is used for charging the wireless earphone in the internal mold.

Among the above-mentioned technical scheme, including the battery in the storehouse of charging, when realizing placing in the storehouse of charging at the centre form of different grade type, the battery all can charge for the wireless earphone in the centre form, promptly, the wireless earphone of different grade type all can charge through this storehouse of charging.

In one possible design, two first elastic sheets are mounted on the inner surface of the charging bin, and the two first elastic sheets are respectively connected with the positive pole and the negative pole of the battery.

Among the above-mentioned technical scheme, installed two first shell fragments that are connected with the positive and negative poles of battery respectively on the internal surface in the storehouse of charging, it is corresponding, install respectively with two second shell fragments that two first shell fragments are corresponding on the surface of centre form, when these two first shell fragments contact with these two second shell fragments, the battery can be through these two first shell fragments and two second shell fragments of mutual contact, give the wireless earphone in the centre form with the electric energy transmission to the realization charges to the wireless earphone in the centre form. In addition, in this application, communicate through the only protocol of charging between storehouse and the terminal of charging, and the storehouse of charging realizes charging the wireless earphone in the centre form through direct contact with the centre form, avoids because there is different protocols of charging between different storehouse of charging and the terminal, leads to the problem that can't charge.

In one possible design, the charging chamber includes a bluetooth chip therein, which is used for communication between the charging chamber and the terminal. In one possible design, when the bluetooth chip is used for performing bluetooth communication between the charging bin and the terminal, the bluetooth chip is specifically configured to: receiving a first query request from a terminal, and responding to the first query request to send the residual electric quantity of the charging bin to the terminal; and/or receiving a second query request from the terminal, and responding to the second query request, and sending the charging progress of the wireless earphone placed in the internal model in the charging bin to the terminal.

Among the above-mentioned technical scheme, the storehouse of charging communicates through the bluetooth chip at the bluetooth chip in the storehouse of charging and the bluetooth chip at terminal, so, the storehouse of charging can be with the residual capacity in storehouse of charging, and/or, the charge progress of the wireless headset in the centre form in the storehouse of charging sends to the terminal, promptly, the terminal can acquire the residual capacity in storehouse of charging in real time, and/or, the charge progress of wireless headset, and show this residual capacity and/or charge progress for the user. In addition, including the bluetooth chip in the storehouse of charging, when the realization was placed in the storehouse of charging at the centre form of different grade type, the bluetooth chip can all confirm in the centre form wireless headset's the progress of charging to charge progress transmission to terminal.

In one possible design, the charging bin includes a charging chip, and the charging chip is configured to: controlling the batteries in the charging bin to store electric energy, and determining that the charging of the batteries in the charging bin is finished when the electric energy stored by the batteries in the charging bin is determined to reach a preset condition; and/or determining whether charging of the wireless earphone in the internal mold in the charging bin is completed. Wherein the preset conditions are as follows: when the electric energy stored by the battery in the charging bin reaches 100%, the charging chip in the charging bin determines that the charging of the battery in the charging bin is completed.

Among the above-mentioned technical scheme, place the chip that charges in the storehouse of charging, when the centre form of realizing the different grade type is placed in the storehouse of charging, the storehouse of charging all can be under the control of the chip of charging, charge to wireless earphone in the centre form.

In one possible design, the charging device further includes a plurality of internal molds of different types, and the positions of the second elastic pieces mounted on the outer surfaces of the internal molds of different types are the same.

Among the above-mentioned technical scheme, including the centre form of a plurality of different grade types in the battery charging outfit, and the position homogeneous phase of the second shell fragment of installation on the surface of the centre form of different grade type is the same, so, when can guarantee to place the centre form of different grade type in the storehouse of charging in the battery charging outfit, second shell fragment on the surface of centre form can with the first shell fragment in close contact with of storehouse internal surface that charges.

In a possible design, to any type of centre form, install the contact that charges on the internal surface of centre form, the second shell fragment on the surface of centre form and the contact intercommunication that charges on the internal surface of centre form, when the wireless headset that the centre form corresponds is placed in the centre form, the contact that charges on the internal surface of centre form and the contact that charges on the wireless headset to make the centre form will acquire the electric energy transfer from charging the storehouse and give wireless headset.

Among the above-mentioned technical scheme, place the centre form of any type in battery charging outfit's the storehouse that charges, at this moment, the second shell fragment on the surface of centre form contacts with the first shell fragment on the internal surface in storehouse of charging, and the second shell fragment on the surface of centre form is linked together with the contact that charges on the internal surface of centre form, place the wireless earphone of the type that corresponds with the centre form type in the centre form, the contact that charges on the internal surface of centre form contacts with the contact that charges on the wireless earphone, thereby make the centre form acquire the electric energy in the battery that charges through the contact that charges, second shell fragment and first shell fragment, and then pass through the contact that charges with the electric energy of acquireing, transmit for wireless earphone, in order to realize charging the wireless earphone in this centre form.

In one possible design, the wireless headset is a TWS headset.

Drawings

In order to more clearly illustrate the technical solutions of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a charging device provided in the present application;

fig. 2 is a schematic structural view of different types of inner molds provided herein;

fig. 3 is a diagram of a charging system architecture according to the present application;

fig. 4 is a diagram of another charging system architecture provided herein;

fig. 5 is a schematic diagram of still another charging system provided in the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application clearer, the present application will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 exemplarily shows a structural schematic diagram of a charging device provided by the present application, as shown in fig. 1, the charging device includes a charging chamber 100 and an inner mold 200, wherein two first elastic sheets 101 are installed on an inner surface of the charging chamber 100, the charging chamber 100 includes a battery 102, a bluetooth chip 103 and a charging chip 104, two second elastic sheets 201 are installed on an outer surface of the inner mold 200, and two charging contacts 202 are installed on an inner surface of the inner mold 200.

In the charging device, the charging chamber 100 is used for placing the inner mold 200, wherein the inner structure of the inner mold 200 is different according to the type of the inner mold 200, the inner structure thereof is also different, and the inner structure of each type of the inner mold 200 is matched with the shape of the wireless earphone corresponding to the type of the inner mold 200, that is, each type of the inner mold 200 is used for placing the wireless earphone corresponding to the type of the inner mold 200.

The positive and negative poles of the battery 102 in the charging bin 100 are respectively connected with the two first elastic sheets 101 on the inner surface of the charging bin 100, when the inner mold 200 is placed in the charging bin 100, the first elastic sheets 101 on the inner surface of the charging bin 100 are in contact with the second elastic sheets 201 on the outer surface of the inner mold 200, the second elastic sheets 201 on the outer surface of the inner mold 200 are communicated with the charging contacts 202 on the inner surface of the inner mold 200, and when a wireless earphone corresponding to the type of the inner mold 200 is placed in the inner mold 200, the charging contacts 202 on the inner surface of the inner mold 200 are in contact with the charging contacts in the wireless earphone, so that the wireless earphone is charged.

With continued reference to fig. 1, specifically, the charging device includes a charging chamber 100, and the charging chamber 100 is used for placing different types of internal molds 200, wherein the internal structures of the different types of internal molds 200 are different, and the internal structure of each type of internal mold 200 is matched with the external shape of the corresponding type of wireless earphone. Two first elastic sheets 101 are installed on the inner surface of the charging bin 100, when any type of internal mold 200 is placed in the charging bin 100, the two first elastic sheets 101 in the charging bin 100 are respectively contacted with the two second elastic sheets 201 on the outer surface of the internal mold 200, and the charging bin 100 charges the wireless earphone in the internal mold 200 through the two first elastic sheets 101 and the two second elastic sheets 201. Illustratively, the wireless headset is a TWS headset.

In one example, the type of the internal mold in the charging device is a, the type of the internal mold is used for placing the type a wireless headset, and the internal structure of the type a internal mold is matched with the external shape of the type a wireless headset. The user can place the wireless earphone that the type is A in the centre form that the type is A, and the centre form that will place the wireless earphone that the type is A again places in the storehouse of charging, and at this moment, the second shell fragment on the first shell fragment on the internal surface in storehouse of charging and the surface of centre form contacts, and the storehouse of charging charges through the wireless earphone in first shell fragment and the second shell fragment for the centre form.

Illustratively, the charging equipment further comprises a plurality of internal molds of different types, and the positions of the second elastic sheets mounted on the external surfaces of the internal molds of different types are the same.

Based on the above technical solution, fig. 2 exemplarily shows two inner molds 200, and the two inner molds 200 are respectively denoted as an inner mold 200a and an inner mold 200b according to the types of the two inner molds 200, as shown in fig. 2, two second elastic sheets 201a are installed at the bottom of the outer surface of the inner mold 200a, and two charging contacts 202a are installed at the inner surface of the inner mold 200a, wherein the distance between the two second elastic sheets 201a installed at the bottom of the outer surface of the inner mold 200a is X. Similarly, two second elastic pieces 201b are mounted at the bottom of the outer surface of the inner mold 200b, and two charging contacts 202b are mounted on the inner surface of the inner mold 200b, wherein the distance between the two second elastic pieces 201b mounted at the bottom of the outer surface of the inner mold 200b is also X.

For any type of inner mold, two charging contacts are mounted on the inner surface of the inner mold, and two second elastic pieces on the outer surface of the inner mold are respectively communicated with the two charging contacts on the inner surface of the inner mold. When the wireless earphone corresponding to the internal mold is placed in the internal mold, the two charging contacts on the inner surface of the internal mold are respectively contacted with the two charging contacts on the wireless earphone, so that the internal mold can acquire electric energy from the charging bin and transmit the electric energy to the wireless earphone.

In one example, two charging contacts are mounted on the inner surface of the inner die, the two charging contacts mounted on the inner surface of the inner die are respectively communicated with the two second elastic pieces on the outer surface of the inner die, and the wireless earphone corresponding to the inner die is also provided with two charging contacts. When the wireless earphone corresponding to the internal mold is placed in the internal mold, the two charging contacts on the inner surface of the internal mold are respectively contacted with the two charging contacts on the wireless earphone, and then the internal mold is enabled to acquire electric energy from the charging bin and transmit the electric energy to the wireless earphone.

Among the above-mentioned technical scheme, the storehouse of charging is used for placing the centre form of different grade type, and the inner structure of the centre form of every type agrees with mutually with the appearance of the wireless earphone that this type corresponds, and when the centre form of arbitrary type was placed in the storehouse of charging, the storehouse of charging can charge for the wireless earphone in the centre form through first shell fragment, second shell fragment. So, realized not changing under the condition in storehouse of charging, charged the wireless earphone of different grade type.

In this application, in order to realize that the storehouse of charging charges to the wireless earphone in the centre form of different grade type, can install the module that the function of charging corresponds in the storehouse of charging. In one possible approach, one or more of a battery, a bluetooth chip, and a charging chip are included in the charging bin.

The battery, the bluetooth chip, and the charging chip are explained as follows, respectively.

1. The charging bin comprises a battery.

When the first elastic sheet is contacted with the second elastic sheet, the battery is used for charging the wireless earphone in the inner die. For example, the wireless earphone is placed in the internal mold corresponding to the earphone, and then the internal mold for placing the wireless earphone is placed in the charging bin, so that the two first elastic pieces of the inner surface of the charging bin are respectively contacted with the two second elastic pieces of the outer surface of the internal mold, and when the two first elastic pieces of the inner surface of the charging bin are respectively contacted with the two second elastic pieces of the outer surface of the internal mold, the battery in the charging bin charges the wireless earphone in the internal mold.

Illustratively, two first elastic sheets are mounted on the inner surface of the charging bin, and the two first elastic sheets are respectively connected with the positive pole and the negative pole of the battery. For example, when the wireless earphone in the storehouse for charging for the centre form charges, specifically, two first shell fragments on the internal surface in storehouse of charging are connected with the positive and negative two poles of the battery in the storehouse of charging respectively, when placing the centre form in the storehouse of charging, two first shell fragments on the internal surface in storehouse of charging contact with two second shell fragments on the surface of centre form respectively, and, two second shell fragments on the surface of centre form still communicate in two charging contacts on the internal surface with the centre form respectively, consequently, the centre form acquires the electric energy from the battery in the storehouse of charging through two second shell fragments and two first shell fragments, transmit the electric energy of acquireing again for the wireless earphone in the centre form through two charging contacts, and then realize that the wireless earphone in the storehouse of charging charges to the centre form.

Among the above-mentioned technical scheme, including the battery in the storehouse of charging, when realizing placing in the storehouse of charging at the centre form of different grade type, the battery all can charge for the wireless earphone in the centre form, also promptly, the wireless earphone of different grade type all can charge through this storehouse of charging.

2. The charging bin comprises a Bluetooth chip.

The bluetooth chip in the storehouse of charging can communicate with the bluetooth chip at terminal. That is, the bluetooth chip is arranged in the storehouse of charging to carry out bluetooth communication with the terminal.

Based on the above technical solution, fig. 3 exemplarily shows a charging system architecture diagram, as shown in fig. 3, the charging system includes a charging bin 100 and a terminal 300, the charging bin 100 includes a bluetooth chip, the terminal 300 also includes a bluetooth chip, the charging bin 100 is connected with the bluetooth chip in the terminal 300 through the bluetooth chip, and after the charging bin 100 is successfully connected with the bluetooth chip in the terminal 300 through the bluetooth chip, the charging bin 100 and the terminal 300 can perform bluetooth communication.

Optionally, when the bluetooth chip in the charging bin 100 is used for the charging bin 100 and the terminal 300 to communicate, specifically, the bluetooth chip in the terminal 300 sends a first query request to the bluetooth chip in the charging bin 100, and accordingly, after receiving the first query request from the terminal 300, the bluetooth chip in the charging bin 100 sends the remaining capacity of the charging bin 100 to the terminal 300 in response to the received first query request, so that the terminal 300 can obtain the remaining capacity of the charging bin 100 in real time and show the remaining capacity to the user, and/or the bluetooth chip in the terminal 300 sends a second query request to the bluetooth chip in the charging bin 100, and accordingly, after receiving the second query request from the terminal 300, the bluetooth chip in the charging bin 100 sends the charging progress of the wireless headset placed in the internal module in the charging bin 100 to the terminal 300 in response to the received second query request, so that the terminal 300 can obtain the charging progress of the wireless headset in the charging bin 100 in real time and show the charging progress of the wireless headset to the user.

Based on the above technical solution, fig. 4 exemplarily shows another architecture diagram of a charging system provided by the present application, as shown in fig. 4, the charging system includes a charging chamber 100, an internal mold 200, a terminal 300, and a wireless headset 400, where the charging chamber 100 includes a battery 102, a bluetooth chip 103, and a charging chip 104. The wireless earphone 400 is placed in the inner mold 200, and then the inner mold 200 with the wireless earphone 400 placed therein is placed in the charging chamber 100. When the bluetooth chip 103 in the charging bin 100 is used for bluetooth communication between the charging bin 100 and the terminal 300, a specific communication mode may be one of the following:

a. the bluetooth chip in the terminal 300 sends the first inquiry request to the bluetooth 103 chip in the charging bin 100, and accordingly, after the bluetooth chip 103 in the charging bin 100 receives the first inquiry request from the terminal 300, the charging bin 100 sends the remaining power of the charging bin 100 to the terminal 300 in response to the received first inquiry request, and the terminal 300 can obtain the remaining power of the charging bin 100 in real time and display the remaining power to the user.

b. The bluetooth chip in the terminal 300 sends the second inquiry request to the bluetooth chip in the charging bin 100, and accordingly, after the bluetooth chip 103 in the charging bin 100 receives the second inquiry request from the terminal 300, the charging bin 100 responds to the received second inquiry request, and sends the charging progress of the wireless headset 400 placed in the internal model 200 in the charging bin 100 to the terminal 300, and the terminal 300 can obtain the charging progress of the wireless headset 400 in the charging bin 100 in real time and display the charging progress of the wireless headset 400 to the user.

c. The bluetooth chip in the terminal 300 sends a first query request to the bluetooth 103 chip in the charging bin 100, correspondingly, after the bluetooth chip 103 in the charging bin 100 receives the first query request from the terminal 300, the charging bin 100 sends the remaining capacity of the charging bin 100 to the terminal 300 in response to the received first query request, and the bluetooth chip in the terminal 300 sends a second query request to the bluetooth chip in the charging bin 100, correspondingly, after the bluetooth chip 103 in the charging bin 100 receives the second query request from the terminal 300, the charging bin 100 sends the charging progress of the wireless headset 400 placed in the internal model 200 in the charging bin 100 to the terminal in response to the received second query request, so that the terminal 300 can obtain the remaining capacity of the charging bin 100 and the charging progress of the wireless headset 400 in the charging bin 100 in real time, and show the obtained remaining capacity of the charging bin 100 and the charging progress of the wireless headset 400 to a user.

Among the above-mentioned technical scheme, the storehouse of charging communicates with the bluetooth chip in the terminal through the bluetooth chip in the storehouse of charging, so, the storehouse of charging can with the residual capacity in storehouse of charging, and/or, the charge progress of the wireless headset in the centre form in the storehouse of charging sends to the terminal, promptly, the terminal can acquire the residual capacity in storehouse of charging in real time, and/or, the charge progress of wireless headset, and show this residual capacity and/or charge progress for the user. In addition, including the bluetooth chip in the storehouse of charging, when the realization was placed in the storehouse of charging at the centre form of different grade type, the bluetooth chip can all confirm in the centre form wireless headset's the progress of charging to charge progress transmission to terminal.

3. The charging bin comprises a charging chip.

The charging chip is used for: controlling the batteries in the charging bin to store electric energy, and determining that the charging of the batteries in the charging bin is finished when the electric energy stored in the batteries in the charging bin is determined to reach a preset condition; and/or determining whether charging of the wireless earphone in the internal mold in the charging bin is completed.

Specifically, the charging chip in the charging bin can be used for one of the following:

a. and the charging chip in the charging bin is used for controlling the battery in the charging bin to store electric energy, and when the electric energy stored by the battery in the charging bin is determined to reach a preset condition, the charging of the battery in the charging bin is determined to be finished.

For example, the preset conditions for setting the electric energy stored in the battery in the charging bin are as follows: the electric energy stored by the battery in the charging bin is 100%, namely the charging chip in the charging bin controls the battery in the charging bin to store the electric energy, and when the electric energy stored by the battery in the charging bin is determined to reach 100%, the charging of the battery in the charging bin is determined to be completed.

b. And the charging chip in the charging bin is used for determining whether the charging of the wireless earphone in the internal model in the charging bin is finished.

For example, when the charging bin charges the wireless headset in the internal mold in the charging bin, the charging chip in the charging bin determines whether the charging of the wireless headset in the internal mold in the charging bin is completed according to the change of the electric energy stored by the battery in the charging bin. Specifically, if the charging chip in the charging bin determines that the electric energy stored by the battery in the charging bin is still reduced, the charging chip in the charging bin determines that the wireless earphone in the internal model in the charging bin is not charged; and if the charging chip in the charging bin determines that the electric energy stored by the battery in the charging bin is not reduced any more, the charging chip in the charging bin determines that the charging of the wireless earphone in the internal model in the charging bin is completed.

c. And controlling the batteries in the charging bin to store electric energy, and determining that the charging of the batteries in the charging bin is completed when the electric energy stored by the batteries in the charging bin is determined to reach a preset condition, wherein the specific implementation can be respectively described in the mode a. And determining whether the charging of the wireless earphone in the internal mold in the charging bin is completed, wherein the specific implementation can be respectively described in the mode b.

Among the above-mentioned technical scheme, place the chip that charges in the storehouse of charging, when realizing that the centre form of different grade type is placed in the storehouse of charging, the storehouse of charging all can be under the control of the chip that charges, charge to wireless earphone in the centre form.

To facilitate understanding of the present solution, the charging device described above is described below as a specific example. Fig. 5 schematically illustrates another architecture diagram of a charging system provided in the present application. As shown in fig. 5, the charging system includes: the wireless earphone comprises a charging bin 100, two internal molds 200a and 200b of different types, a terminal 300, a wireless earphone 400a and a wireless earphone 400b corresponding to the internal molds 200a and 200b, wherein the charging bin 100 comprises two first elastic sheets 101 installed on the inner surface of the charging bin 100, the charging bin 100 further comprises a battery 102, a Bluetooth chip 103 and a charging chip 104, and the charging chip 104 can set the preset condition that the electric energy stored in the battery 102 in the charging bin 100 reaches: the battery 102 in the charging bin 100 stores 100% of electrical energy. The inner mold 200a includes two second elastic pieces 201a installed on the outer surface of the inner mold 200a, the inner mold 200a further includes two charging contacts 202a, the inner mold 200b includes two second elastic pieces 201b installed on the outer surface of the inner mold 200b, the inner mold 200b further includes two charging contacts 202b, the wireless earphone 400a and the wireless earphone 400b respectively include two charging contacts, and the terminal 300 includes a bluetooth chip.

The inner mold 200a or the inner mold 200b may be placed in the charging chamber 100. Further, the inner mold 200a is used for placing the wireless earphone 400a, and the inner structure of the inner mold 200a is fitted with the shape of the wireless earphone 400 a; the inner mold 200b is used for placing the wireless earphone 400b, and the inner structure of the inner mold 200b is matched with the appearance of the wireless earphone 400 b.

When a user wants to charge the wireless headset 400a, the user puts the wireless headset 400a into the inner mold 200a, and then puts the inner mold 200a with the wireless headset 400a in the charging chamber 100, at this time, two charging contacts in the wireless headset 400a are respectively in contact with two charging contacts 202a on the inner surface of the inner mold 200 a. The two charging contacts 202a on the inner surface of the inner mold 200a are communicated with the two second elastic sheets 201a on the outer surface of the inner mold 200a, the two second elastic sheets 201a on the outer surface of the inner mold 200a are contacted with the two first elastic sheets 101 on the inner surface of the charging bin 100, and the two first elastic sheets 101 on the inner surface of the charging bin 100 are respectively connected with the positive electrode and the negative electrode of the battery 102 in the charging bin 100. Therefore, the internal mold 200a can transmit the electric energy acquired from the battery 102 in the charging bin 100 to the wireless earphone 400a through the two second elastic sheets 201a and the two first elastic sheets 101, and then the charging bin 100 can charge the wireless earphone 400a placed in the charging bin 100 and in the internal mold 200 a.

When the charging bin 100 charges the wireless headset 400a in the internal mold 200a placed in the charging bin 100, the charging bin 100 is connected with the bluetooth chip in the terminal 300 through the bluetooth chip 103 in the charging bin 100, and then the communication between the charging bin 100 and the terminal 300 is realized. After the charging bin 100 is successfully connected with the bluetooth chip in the terminal 300 through the bluetooth chip 103, the bluetooth chip of the terminal 300 sends a first inquiry request to the bluetooth chip 103 of the charging bin 100, and correspondingly, the bluetooth chip 103 in the charging bin 100 receives the first inquiry request from the terminal 300, where the first inquiry request is: the remaining capacity of the charge bin 100 is inquired, and thereafter, the charge bin 100 transmits the remaining capacity of the charge bin 100 to the terminal 300 in response to the received first inquiry request. In addition, the bluetooth chip of the terminal 300 sends a second inquiry request to the bluetooth chip of the charging bin 100, and correspondingly, the bluetooth chip 103 in the charging bin 100 also receives the second inquiry request from the terminal 300, where the second inquiry request is: the charging progress of the wireless headset 400a in the internal model 200a in the charging bin 100 is queried, and then the charging bin 100 transmits the charging progress of the wireless headset 400a in the internal model 200a placed in the charging bin 100 to the terminal in response to the received second query request. In this way, the terminal 300 can acquire the remaining capacity of the charging bin 100 and the charging progress of the wireless headset 400a in the charging bin 100 in real time, and display the acquired remaining capacity of the charging bin 100 and the charging progress of the wireless headset 400 to the user.

When a user charges the charging bin 100, the charging chip 104 in the charging bin 100 controls the battery 102 in the charging bin to store electric energy, and when the charging chip 104 in the charging bin 100 determines that the electric energy stored in the battery 102 in the charging bin 100 reaches 100% of the preset condition, the charging chip 104 in the charging bin 100 determines that the charging of the battery 102 in the charging bin 100 is completed.

When the charging bin 100 charges the wireless headset 400a in the charging bin 100, the charging chip 104 in the charging bin 100 reduces from 100% all the time according to the electric energy stored by the battery 102 in the charging bin 100, and it is determined that the wireless headset 400a in the internal mold 200a in the charging bin 100 is not charged completely; when the power stored by the charging chip 104 in the charging bin 100 according to the battery 102 in the charging bin 100 is 80% and is not reduced any more, it is determined that the charging of the wireless headset 400a in the internal mold 200a in the charging bin 100 is completed.

Correspondingly, when a user wants to charge the wireless earphone 400b, the user places the wireless earphone 400b into the internal mold 200b, and then places the internal mold 200b, in which the wireless earphone 400b is placed, into the charging bin 100, so that the charging bin 100 charges the wireless earphone 400b, and the specific charging mode can refer to the implementation mode of charging the wireless earphone 400a by the charging bin 100, and is not described again.

So, realized that the user utilizes a storehouse of charging to charge the wireless earphone of different grade type.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (9)

1. A charging device, characterized in that, comprising: A charging compartment, the charging compartment is used to place different types of inner molds, the internal structures of different types of inner molds are different, and the internal structure of each type of inner mold fits the shape of the wireless earphone corresponding to the type; A first elastic piece is installed on the inner surface of the charging compartment, and when any type of inner mold is placed in the charging compartment, the first elastic piece is in contact with the second elastic piece on the outer surface of the inner mold; The charging compartment charges the wireless earphone in the inner mold through the first elastic piece and the second elastic piece. 2. The device according to claim 1, wherein the charging compartment includes a battery; When the first elastic piece is in contact with the second elastic piece, the battery is used to charge the wireless earphone in the inner mold. 3. The device according to claim 2, wherein two first elastic pieces are installed on the inner surface of the charging compartment, and the two first elastic pieces are respectively connected to the positive and negative poles of the battery. 4. The device according to claim 1, wherein the charging case includes a Bluetooth chip, and the Bluetooth chip is used for communication between the charging case and the terminal. 5. The device according to claim 4, wherein the Bluetooth chip is specifically used for: receiving a first query request from the terminal, and sending the remaining power of the charging compartment to the terminal in response to the first query request; and/or, A second query request from the terminal is received, and in response to the second query request, the charging progress of the wireless earphone placed in the inner mold of the charging compartment is sent to the terminal. 6. The device according to claim 1, wherein the charging compartment includes a charging chip; The charging chip is used for: controlling the battery in the charging bin to store electric energy, and determining that the battery in the charging bin is fully charged when it is determined that the electric energy stored in the battery in the charging bin reaches a preset condition; And/or, determine whether the charging of the wireless earphone in the inner mold in the charging compartment is completed. 7. The device according to claim 1, wherein the charging device further comprises a plurality of different types of inner molds, and the positions of the second elastic pieces installed on the outer surfaces of the different types of inner molds are all the same. 8. The device according to claim 7, characterized in that, for any type of inner mold, charging contacts are installed on the inner surface of the inner mold, and the second elastic piece on the outer surface of the inner mold communicating with charging contacts on the inner surface of the inner mold; When the wireless earphone corresponding to the inner mold is placed in the inner mold, the charging contacts on the inner surface of the inner mold are in contact with the charging contacts on the wireless earphone, so that the inner mold will The electric energy obtained in the charging compartment is transmitted to the wireless earphone. 9. The device according to any one of claims 1-8, wherein the wireless earphone is a true wireless stereo TWS earphone.

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