CN218416617U - Earphone charging bin - Google Patents

Abstract

The utility model provides an earphone charging bin, which comprises a connecting piece, a bin cover and a bin body, wherein the bin cover and the bin body are connected through the connecting piece; the bin cover is provided with a first sensing assembly, the bin body is provided with a second sensing assembly and a main control module which are connected with each other, the second sensing assembly is used for sensing the first sensing assembly and generating level change, and the main control module is used for acquiring the level change of the second sensing assembly; a display screen is arranged on the second side surface of the bin body and is connected with the main control module. This scheme charges the response of storehouse switch cover through response assembly, realizes uncapping bright screen, closes the effect of covering the screen, has both promoted user experience, has expanded the function in storehouse of charging, has reduced the power loss of display screen as far as possible again, guarantees the duration in earphone storehouse of charging. Dispose the display screen on the storehouse of charging, can show the earphone and charge the relevant information in storehouse, further expanded the earphone and charged the functional in storehouse.

Description

Earphone charging bin

Technical Field

The utility model relates to an earphone field particularly, relates to an earphone storehouse of charging.

Background

With the rise of intelligent bluetooth headset products, the headset has become an electronic product used frequently in daily life.

The earphone cabin of common wireless earphone has two main functions, one is accomodate, and the other is to charge. The split type Bluetooth headset has a natural disadvantage in the aspect of endurance, the endurance is generally lower than 4 hours, and the portable charging bin can provide extra power supply supplement for the headset, so that the endurance time of the Bluetooth headset is prolonged.

Along with the high-speed iterative update of the electronic equipment, the requirements of users on the earphones are not limited to the audio transmission function of the earphones, the earphones are required to have other functions, and the earphone charging bin becomes an important carrier for bearing other functional modules. However, the common earphone charging chamber only has the functions of storage and charging, and the function is single, which can not meet the user's requirements gradually.

SUMMERY OF THE UTILITY MODEL

Based on the problem that prior art exists, the utility model provides an earphone storehouse of charging. The specific technical scheme is as follows:

an earphone charging bin comprises a connecting piece, a bin cover and a bin body, wherein the bin cover and the bin body are connected through the connecting piece;

the bin cover is provided with a first sensing assembly, the bin body is provided with a second sensing assembly and a main control module which are connected with each other, the second sensing assembly is used for sensing the first sensing assembly and generating level change, and the main control module is used for acquiring the level change of the second sensing assembly;

the outer surface of the bin body is provided with a display screen, and the display screen is connected with the main control module.

In a specific embodiment, the first sensing assembly is a hall magnet, and the second sensing assembly is a hall switch;

and the Hall switch is powered through the bin body.

In one embodiment, the connector comprises a hinge, one portion of which is located on the cartridge body and the other portion of which is located on the cartridge cover, so that the cartridge cover can be connected to the cartridge body in an openable and closable manner.

In a specific embodiment, a display module for auxiliary display is configured on the bin cover, and the main control module is connected with the display module through wireless communication.

In a specific embodiment, the display screen is a touch display screen.

In a specific embodiment, the display screen is used for displaying in the form of numbers or patterns;

the displayed content comprises the electric quantity of the earphone, and/or the electric quantity of the earphone charging chamber, and/or the sound volume of the earphone.

In a specific embodiment, the main control module is further configured to adjust the brightness of the display screen.

In a specific embodiment, the connecting piece comprises a first clamping structure positioned on the bin cover and a second clamping structure positioned on the bin body;

the first clamping structure is matched with the second clamping structure so as to realize that the bin cover can be connected to the bin body in a clamping manner.

In a specific embodiment, the outer surface of the bin body is provided with a mounting groove, and the display screen is embedded into the mounting groove.

In a specific embodiment, the display screen is recessed inwardly by a preset length relative to the outer surface of the cartridge body;

the display screen is externally covered with a transparent plate, and the transparent plate is used for protecting the display screen.

Has the beneficial effects that: the utility model provides an earphone charging bin carries out the response of the storehouse switch lid that charges through response subassembly, realizes uncapping bright screen, closes the effect that the lid was restful on the screen, has both promoted user experience, has expanded the function in storehouse of charging, has reduced the power loss of display screen as far as possible again, guarantees the duration in earphone charging bin. Dispose the display screen on the storehouse of charging, can show the earphone and the relevant information in storehouse of charging, can also make the operator get into the operation interface fast simultaneously, be convenient for carry on subsequent operation. The brightness of the display screen is adjusted through the main control module, and the functionality of the earphone charging bin is further expanded.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic block diagram of an earphone charging bin according to the present invention;

fig. 2 is a cross-sectional view of the earphone charging chamber provided by the present invention in a closed state;

fig. 3 is a cross-sectional view of the earphone charging chamber provided by the present invention in an uncapped state;

fig. 4 is a front view of the earphone charging chamber provided by the present invention in an uncapped state;

fig. 5 is a perspective view of the earphone charging chamber in the uncapped state.

Reference numerals: 1-bin cover; 2-a cabin body; 3-a connector; 4-a first inductive component; 5-a second inductive component; 6-a main control module; 7-display screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 work belong to the protection scope of the present invention.

Example 1

To prior art's not enough, this embodiment provides an earphone storehouse of charging, is provided with the display screen on the storehouse body, can realize the autonomic light and dark control of display screen under the effect of response subassembly. The connection relation of each component is shown as the attached figure 1 in the specification, and the specific scheme is as follows:

an earphone charging bin comprises a connecting piece 3, a bin cover 1 and a bin body 2, wherein the bin cover 1 is connected with the bin body 2 through the connecting piece 3; one part of the connecting piece 3 is positioned on the bin body 2, and the other part is positioned on the bin cover 1. The earphone charging chamber includes, but is not limited to, any one of known earphone charging chamber structures having a receiving function. The storehouse body 2 is the major structure in storehouse of charging, is responsible for holding the earphone, charges for the earphone, controls functions such as the demonstration of display screen. Display modules such as indicator lights and display screens can also be arranged on the bin cover 1 to expand the functionality of the bin cover.

The bin body 2 and the bin cover 1 are connected in various ways, such as plug-in connection, movable connection, opening-closing connection and the like. The concrete structure of connecting piece 3 also has the variety, can select according to the structure in actual earphone storehouse of charging. Description figures 2 and 3 provide an example of the structure of an earphone charging chamber. As can be seen from figures 2 and 3, the opening and closing connection between the bin cover 1 and the bin body 2 is realized through a hinge, and the connecting piece 3 is a hinge. One part of the hinge is positioned on the bin body 2, and the other part of the hinge is positioned on the bin cover 1. The opening and closing relation between the bin cover 1 and the bin body 2 is the opening and closing cover state of the earphone charging bin, the opening state of the bin cover 1 is the opening state of the charging bin, and the closing state of the bin cover 1 is the closing state of the charging bin.

Wherein, dispose first response subassembly 4 on the cang gai 1, dispose interconnect's second response subassembly 5 and host module 6 on the storehouse body 2, second response subassembly 5 is used for responding to first response subassembly 4 and produces the level change, and host module 6 is used for obtaining the level change of second response subassembly 5. The position relationship between the first sensing component 4 and the second sensing component 5 is shown in the description and the attached fig. 2 and 3. The opening and closing relationship between the bin cover 1 and the bin body 2 can influence the sensing relationship between the first sensing assembly 4 and the second sensing assembly 5. When the charging bin is switched from the cover closing state to the cover opening state, the first induction assembly 4 is far away from the second induction assembly 5, the output level of the second induction assembly 5 is immediately switched, and level overturning is generated. Level flipping includes changing from high to low and from low to high.

The outer surface of the bin body 2 is provided with a display screen 7, and the display screen 7 is connected with the main control module 6 and is controlled by the main control module 6. The display 7 also has two states, a bright screen and a dark screen. The bright screen is that the display screen 7 starts and operates under the normal power consumption mode, and the screen is turned off to close the display screen 7 or make the display screen 7 operate under the low power consumption mode, so that the power consumption of the charging bin is reduced, and the power is saved. After the main control module 6 senses the level change of the second sensing assembly 5, the bright screen and the bright screen of the display screen 7 are controlled according to the level change.

In addition, the bin cover 1 can also be provided with a display module for auxiliary display, such as an indicator light, a display screen and the like, so as to provide a certain indication function. Taking the display screen as an example, the bin body 2 can contain a larger screen display screen compared with the bin cover 1, the display screen 7 on the bin body 2 can be used as a main display screen, and the display module is used as an auxiliary display screen, so that a simple indication function can be realized. The display module and the main control module 6 can transmit signals through wireless communication, and the display module displays corresponding contents according to the control of the main control module 6, so that the functionality of the earphone charging bin is further expanded.

The display screen 7 includes, but is not limited to, any known screen having a display function, such as an OLED display screen, an LED display screen, an LCD display screen, and the like. Description figure 4 shows an example of a display 7 to match the charging chamber of the headset. The display screen 7 can display in the form of characters or patterns, the displayed content includes the electric quantity of the earphone, the electric quantity of the earphone charging chamber, the volume of the earphone, the connection state of the earphone and the external device, and other functional software such as app can also be displayed. The display content can be reasonably selected according to actual application.

In one particular embodiment, the display screen is located at a particular location of the cartridge body. For example, the first side surface of the bin body 2 is provided with the connecting pieces 3, the second side surface is provided with the display screen 7, and the second side surface is any one side surface of the bin body 2 except the first side surface, namely, the display screen 7 and the connecting pieces 3 are positioned on two different side surfaces of the bin body 2, as shown in fig. 4 and 5. Preferably, the first side face and the second side face are two opposite faces, and if the display screen 7 is located on the front face of the earphone charging bin, the connecting piece 3 is located on the back face of the earphone charging bin, so that a user can conveniently view information on the display screen 7, and user experience is enhanced.

In addition, the display screen 7 can be partially or completely covered on the outer surface of the bin body 2, and the display screen 7 can be planar or curved.

Preferably, the main control module 6 is provided with an electronic operation processor, which is responsible for processing various functional services of the earphone charging bin.

Preferably, when the charging bin is switched from the cover closing state to the cover opening state, the first sensing assembly 4 is far away from the second sensing assembly 5, the output level of the second sensing assembly 5 is immediately switched from the low level to the high level and is output to the main control module 6, and after the main control module 6 detects that the second sensing assembly 5 is changed from the low level to the high level, the display screen 7 is controlled to be on, so that the bin cover 1 is opened, and the screen is turned on. When the storehouse of charging switches to closing the lid state by the state of uncapping, first response subassembly 4 is close to second response subassembly 5, and second response subassembly 5 output level is switched into the low level and exports to host system 6 by the high level immediately, and host system 6 detects the change back from the high to the low level of second response subassembly 5, controls display screen 7 promptly and breathes out the screen, realizes closing storehouse lid 1 and breathes out the screen promptly to practice thrift the electric quantity.

Further preferably, the bin body 2 is further provided with a key capable of controlling the screen-lighting of the display screen 7, and a user can directly control the screen-lighting and screen-lighting of the display screen 7 through the key. The content that display screen 7 shows is controlled by master control module 6, can show through digital form or pattern form, including the electric quantity in earphone charging storehouse, the electric quantity of left and right earphones etc..

Preferably, the first sensing element 4 is a hall magnet and the second sensing element 5 is a hall switch. The Hall switch and the Hall magnet are all components based on Hall effect. The hall switch can sense the hall magnet. When a metal or semiconductor sheet, which is supplied with current, is placed vertically in a magnetic field, a potential difference is generated across the sheet, which is known as the hall effect. The Hall switch belongs to an active magnetoelectric conversion device, is manufactured by utilizing integrated packaging and assembling processes on the basis of a Hall effect principle, can conveniently convert a magnetic input signal into an electric signal in practical application, and simultaneously has the requirements of easy operation and reliability of practical application in industrial occasions. The Hall switch has the characteristics of no contact, low power consumption, long service life, high response frequency and the like, and the interior of the Hall switch is sealed and filled with epoxy resin to form a whole, so that the Hall switch can reliably work in various severe environments and can be applied to proximity switches, pressure switches and the like.

Preferably, the outer surface of the bin body 2 is provided with a mounting groove, and the display screen 7 is embedded into the mounting groove. Further preferably, the display screen 7 is recessed inwards for a preset length relative to the outer surface of the bin body 2; the display screen 7 is covered with a transparent plate for protecting the display screen 7. After the installation is finished, the transparent plate can be slightly higher than or level to the outer surface of the bin body 2.

The utility model provides an earphone charging bin carries out the response of the storehouse switch lid that charges through response subassembly, realizes uncapping bright screen, closes the effect that the lid was restful on the screen, has both promoted user experience, has expanded the function in storehouse of charging, has reduced the power loss of display screen as far as possible again, guarantees the duration in earphone charging bin. The charging bin is provided with a display screen, so that related information of the earphone and the charging bin can be displayed, and meanwhile, an operator can quickly enter an operation interface. In addition, the main control module 6 can control the brightness of the display screen 7 to meet the brightness requirements of users on the display screen 7 under different environments.

Those skilled in the art will appreciate that the circuitry in the devices in the implementation scenario may be distributed in the devices in the implementation scenario as described in the implementation scenario, or may be correspondingly modified in one or more devices different from the present implementation scenario. The circuit of the above implementation scenario may be combined into one circuit, or may be further split into multiple sub-circuits.

The sequence numbers of the present invention are only for description, and do not represent the advantages and disadvantages of the implementation scenario. The above disclosure is only a few specific implementation scenarios of the present invention, however, the present invention is not limited thereto, and any changes that can be considered by those skilled in the art shall fall within the protection scope of the present invention.

Claims (10)

1. The earphone charging bin is characterized by comprising a connecting piece, a bin cover and a bin body, wherein the bin cover is connected with the bin body through the connecting piece;

the bin cover is provided with a first sensing assembly, the bin body is provided with a second sensing assembly and a main control module which are connected with each other, the second sensing assembly is used for sensing the first sensing assembly and generating level change, and the main control module is used for acquiring the level change of the second sensing assembly;

the outer surface of the bin body is provided with a display screen, and the display screen is connected with the main control module.

2. The earphone charging bin of claim 1, wherein the first sensing assembly is a hall magnet and the second sensing assembly is a hall switch;

and the Hall switch is powered through the bin body.

3. The earphone charging cartridge of claim 1, wherein the connector comprises a hinge, one portion of the hinge being located on the cartridge body and another portion of the hinge being located on the cartridge cover to enable the cartridge cover to be releasably connected to the cartridge body.

4. The earphone charging chamber according to claim 1, wherein a display module for auxiliary display is configured on the chamber cover, and the main control module is connected with the display module through wireless communication.

5. The headset charging bin of claim 1, wherein the display screen is a touch display screen.

6. The headset charging bin of claim 1, wherein the display screen is configured to display in a numeric or graphical format;

the displayed content comprises the electric quantity of the earphone, and/or the electric quantity of the earphone charging chamber, and/or the sound volume of the earphone.

7. The headset charging bin of claim 1, wherein the master control module is further configured to adjust a brightness of the display screen.

8. The earphone charging magazine of claim 1, wherein the connector comprises a first snap-fit structure on the magazine cover and a second snap-fit structure on the magazine body;

the first clamping structure is matched with the second clamping structure to realize that the bin cover can be connected to the bin body in a clamping manner.

9. The earphone charging bin of claim 1, wherein a mounting groove is provided on an outer surface of the bin body, and the display screen is embedded in the mounting groove.

10. The earphone charging magazine of claim 9, wherein the display screen is recessed a predetermined length inwardly relative to an outer surface of the magazine body;

the display screen is covered with a transparent plate, and the transparent plate is used for protecting the display screen.

Images