CN218550110U - Duplex wireless collar clamp microphone suit - Google Patents

Abstract

The utility model discloses a duplex wireless collar clamp microphone suit, including microphone transmitter and a wireless receiver that two MEMS audio frequency sensor made, live broadcast equipment such as cell-phone is connected through a wireless receiver, can adapt to the demand of double live broadcast area goods, still include the storehouse of charging, the storehouse of charging is provided with two transmitter accommodation chambeies and a receiver accommodation chamber, two transmitter accommodation chambeies are located the both sides of receiver accommodation chamber respectively, compact structure, MEMS audio frequency sensor microphone transmitter can charge in the storehouse of charging; the two microphone transmitters are respectively arranged in the transmitter accommodating cavities, and the wireless receiver is arranged in the receiver accommodating cavity; wireless receiver is provided with the cell-phone bayonet joint, and the receiver holds and is provided with plug joint portion between the chamber and the transmitter holds the chamber, and when wireless receiver placed and holds the intracavity at the receiver, the cell-phone bayonet joint was in plug joint portion department, and structural design is reasonable, and stability is strong.

Description

Duplex wireless collar clamp microphone suit

Technical Field

The utility model relates to a sound transmission technical field especially relates to a wireless collar clamp microphone suit of duplex.

Background

Live broadcast tape goods is currently an important marketing channel and mode, and a wireless microphone is needed in the live broadcast process.

The wireless microphone in the prior art generally corresponds to one wireless receiver, and cannot meet the requirement of double live broadcasting.

The MEMS audio sensor is an audio sound-electricity conversion element designed and produced by adopting MEMS (micro electro mechanical system) advanced semiconductor manufacturing process, has the characteristics of small volume and high sensitivity compared with the traditional microphone element, and can greatly improve the sound transmission effect and product grade of a microphone product by applying the MEMS audio sensor to a wireless microphone.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wireless collar clamp microphone suit of duplex, can adapt to the demand of double live tape of goods.

A duplex wireless collar clamp microphone set comprises a microphone emitter and a wireless receiver which are made of two MEMS (micro-electromechanical systems) audio sensors, and further comprises a charging bin, wherein the charging bin is provided with two emitter accommodating cavities and a receiver accommodating cavity, and the two emitter accommodating cavities are respectively positioned at two sides of the receiver accommodating cavity;

the two microphone transmitters are respectively arranged in the transmitter accommodating cavities, and the wireless receiver is arranged in the receiver accommodating cavity;

the wireless receiver is provided with the cell-phone bayonet joint, and the receiver holds and is provided with plug joint portion between the chamber and the transmitter holds the chamber, and when the wireless receiver placed and holds the intracavity at the receiver, the cell-phone bayonet joint was in plug joint portion department.

Preferably, the bottom in storehouse of charging is provided with the circuit board, and the outside in storehouse and the circuit board of charging is provided with the shell body, and circuit board fixed connection is in the bottom in storehouse of charging, shell body upper portion opening, and storehouse and circuit board of charging are gone into the shell body from upper portion opening part card.

Preferably, the inner wall of the outer shell is provided with two vertical clamping strips, the outer side of the shell of the charging bin is provided with two vertical clamping grooves, and each vertical clamping strip is clamped into one vertical clamping groove.

Preferably, a power supply charging interface is arranged at the bottom of the outer shell, a charging interface is arranged at the bottom of the circuit board, and the charging interface is embedded into the power supply charging interface;

the lateral part of circuit board connects the fixture block, and the interior gib of two vertical draw-in grooves does not stretch to the bottom, and the outer gib of two vertical draw-in grooves constitutes the joint structure that the fixture block was connected to the joint lateral part.

Preferably, the device also comprises an upper cover, and the upper cover is hinged with the outer shell;

the inboard of upper cover is provided with electric storehouse lid, and electric storehouse lid is provided with and holds the notch that the chamber corresponds with two transmitters and a receiver.

Preferably, the battery protection device further comprises a battery, the circuit board is provided with a battery avoiding groove, and the outer shell is provided with a battery clamping groove and a battery clamping groove;

the upper part of the battery is propped against the lower part of the upper edge of the charging bin, the peripheral side of the battery is clamped in the battery clamping groove, and the bottom of the battery is propped against the inner side of the bottom wall of the outer shell;

the battery is in circuit connection with the circuit board.

The battery is welded with the circuit board, or the battery is connected with the circuit board through a clamping interface.

Preferably, the microphone emitter is provided with a clamp handle and a torsion spring, one end of the clamp handle is pivoted on the casing of the microphone emitter, the torsion spring is sleeved on a pivot shaft between the clamp handle and the casing of the microphone emitter, and the clamp handle, the torsion spring and the casing of the microphone emitter form an openable clamping structure.

Preferably, the microphone emitter is provided with a microphone audio jack, and a first dustproof plug is arranged in the microphone audio jack;

the wireless receiver comprises an audio receiver bottom shell, the audio receiver bottom shell is matched with a structure of a receiver accommodating cavity, the audio receiver bottom shell is placed in the receiver accommodating cavity, a receiver connecting plate is arranged in the audio receiver bottom shell, a second dust plug is arranged in an audio receiver socket, and an audio receiver upper shell is arranged at the top of the receiver connecting plate.

Preferably, two groups of charging columns are arranged on the upper part of the circuit board, and each group of charging columns is positioned at the bottom of one emitter accommodating cavity;

the bottom of microphone transmitter is provided with the contact that charges, and when the transmitter was put into transmitter and is held the chamber, the post that charges was conflicted in charging contact department.

Preferably, microphone transmitter and wireless receiver are provided with the Type-C interface that charges, and the Type-C interface that charges of microphone transmitter is located the lateral part, and wireless receiver's Type-C interface that charges is located the top.

The utility model has the advantages that: a duplex wireless collar clamp microphone set comprises a microphone emitter and a wireless receiver which are made of two MEMS (micro electro mechanical systems) audio sensors, and is connected with live broadcast equipment such as a mobile phone and the like through the wireless receiver, so that the requirement of double live broadcast with goods can be met; the two microphone transmitters are respectively arranged in the transmitter accommodating cavities, and the wireless receiver is arranged in the receiver accommodating cavity; wireless receiver is provided with the cell-phone bayonet joint, and the receiver holds and is provided with plug joint portion between the chamber and the transmitter holds the chamber, and when wireless receiver placed and holds the intracavity at the receiver, the cell-phone bayonet joint was in plug joint portion department, and structural design is reasonable, and stability is strong.

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 an exploded view of the duplex wireless collar microphone set of the present invention.

Fig. 2 is a schematic structural view of the duplex wireless collar clip microphone set after the upper cover is opened.

Fig. 3 is a schematic structural diagram of a circuit board of a duplex wireless collar clamp microphone set of the present invention.

Fig. 4 is a schematic structural diagram of a wireless receiver of a duplex wireless collar-clip microphone set according to the present invention.

Fig. 5 is a schematic structural diagram of a microphone transmitter of a duplex wireless collar clip microphone set of the present invention.

Fig. 6 is an exploded view of the microphone transmitter of the duplex wireless collar clip microphone set of the present invention.

Fig. 7 is an exploded view of the wireless receiver of the duplex wireless collar microphone set of the present invention.

Fig. 8 is a schematic structural view of a charging chamber of a duplex wireless collar clamp microphone set of the present invention.

Fig. 9 is a schematic view of a view angle of an outer casing of a duplex wireless collar microphone set according to the present invention.

Fig. 10 is a schematic structural diagram of another view angle of the casing of the duplex wireless collar-clip microphone set according to the present invention.

In the figure:

2-a charging bin; 21-an emitter receiving cavity; 22-a receiver receiving cavity; 23-a plug clamping part; 24-a vertical card slot; 3-a circuit board; 31-a charging interface; 32-side connecting fixture block; 35-a battery avoidance slot; 36-a charging post; 4-an outer shell; 41-vertical clamping strips; 42-power charging port; 43-battery card slot; 5-a microphone transmitter; 51-a clamp handle; 52-a torsion spring; 53-microphone bottom case; 54-microphone upper shell; 55-microphone top cover; 56-a connecting plate; 58-first dust plug; 59-microphone audio jack; 6-a wireless receiver; 61-mobile phone plug; 62-a receiver connection plate; 63-a second dust plug; 64-an audio receiver upper shell; 66-an audio receiver bottom case; 7-covering; 71-electric chamber cover; 8-battery.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following description will be made with reference to the accompanying drawings 1 to 10 of the embodiments of the present invention to clearly and completely describe the technical solutions of the embodiments of the present invention. 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. Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

A duplex wireless tie-in microphone set comprises two MEMS (micro-electromechanical systems) audio sensor microphone transmitters 5, a wireless receiver 6 and a charging bin 2, wherein the charging bin 2 is provided with two transmitter accommodating cavities 21 and one receiver accommodating cavity 22, and the two transmitter accommodating cavities 21 are respectively positioned at two sides of the receiver accommodating cavity 22;

the two microphone transmitters 5 are respectively placed in the transmitter accommodating cavities 21, and the wireless receiver 6 is placed in the receiver accommodating cavity 22;

the wireless receiver 6 is provided with a mobile phone plug 61, a plug clamping portion 23 is arranged between the receiver accommodating cavity 22 and the transmitter accommodating cavity 21, and when the wireless receiver 6 is placed in the receiver accommodating cavity 22, the mobile phone plug 61 is clamped at the plug clamping portion 23.

In this embodiment, the bottom in storehouse 2 that charges is provided with circuit board 3, and the outside in storehouse 2 and circuit board 3 that charges is provided with shell body 4, and 3 fixed connection of circuit board are in the bottom in storehouse 2 that charges, and shell body 4 upper portion openings, storehouse 2 and circuit board 3 that charge are gone into shell body 4 from upper portion opening part card.

In this embodiment, the inner wall of the outer shell 4 is provided with two vertical clamping strips 41, the outer side of the shell of the charging bin 2 is provided with two vertical clamping grooves 24, and each vertical clamping strip 41 is clamped into one vertical clamping groove 24.

In this embodiment, the bottom of the outer shell 4 is provided with a power charging port 42, the bottom of the circuit board 3 is provided with a charging port 31, and the charging port 31 is embedded in the power charging port 42;

the lateral part of circuit board 3 is connected fixture block 32, and the bottom is not stretched to the interior card strip of two vertical draw-in grooves 24, and the outer card strip of two vertical draw-in grooves 24 constitutes the joint structure of joint lateral part connection fixture block 32.

In this embodiment, the device further comprises an upper cover 7, wherein the upper cover 7 is hinged with the outer shell 4;

an electric bin cover 71 is provided on the inner side of the upper cover 7, and the electric bin cover 71 is provided with notches corresponding to the two transmitter accommodating chambers 21 and the one receiver accommodating chamber 22.

In this embodiment, the battery pack further comprises a battery 8, the circuit board 3 is provided with a battery avoiding groove 35, and the outer shell 4 is provided with a battery clamping groove 43 and a battery clamping groove 43;

the upper part of the battery 8 is propped against the lower part of the upper edge of the charging bin 2, the peripheral side of the battery 8 is clamped in the battery clamping groove 43, and the bottom of the battery 8 is propped against the inner side of the bottom wall of the outer shell 4;

the battery 8 is electrically connected to the circuit board 3.

The battery 8 is welded with the circuit board 3, or the battery 8 is connected with the circuit board 3 through a clamping interface.

In this embodiment, the microphone emitter 5 is provided with a clip handle 51 and a torsion spring 52, one end of the clip handle 51 is pivoted on the casing of the microphone emitter 5, the torsion spring 52 is sleeved on a pivot shaft between the clip handle 51 and the casing of the microphone emitter 5, and the clip handle 51, the torsion spring 52 and the casing of the microphone emitter 5 form an openable and closable clamping structure.

In this embodiment, the microphone emitter 5 is provided with a microphone audio jack 59, and a first dust plug 58 is arranged in the microphone audio jack 59;

the wireless receiver 6 comprises an audio receiver bottom shell 66, the audio receiver bottom shell 66 is matched with the receiver accommodating cavity 22 in structure, the audio receiver bottom shell 66 is placed in the receiver accommodating cavity 22, a receiver connecting plate 62 is arranged in the audio receiver bottom shell 66, a second dustproof plug 63 is arranged in an audio receiver socket, a microphone is arranged on one side of the audio receiver bottom shell 66, and an audio receiver upper shell 64 is arranged on the top of the receiver connecting plate 62.

In this embodiment, the microphone emitter 5 includes a microphone bottom shell 53, a clip handle 51 is disposed at the bottom of the microphone bottom shell 53, a spring 52 is disposed between the clip handle 51 and the microphone bottom shell 53, a microphone top cover 55 is disposed at the top of the microphone bottom shell 53 and the microphone top shell 54, a connection plate 56 is disposed in the casing of the microphone emitter 5, a microphone audio jack 59 is disposed at one side of the connection plate 56, and a first dust plug 58 is disposed in the microphone audio jack 59.

In this embodiment, the audio receiver 6 includes an audio receiver bottom shell 66, a receiver connecting plate 62 is disposed in the audio receiver bottom shell 66, a second dust plug 63 is disposed in the audio receiver socket, and an audio receiver upper shell 64 is disposed on the top of the receiver connecting plate 62.

In this embodiment, two sets of charging posts 36 are disposed on the upper portion of the circuit board 3, and each set of charging posts 36 is located at the bottom of one emitter accommodating cavity 21;

the bottom of the microphone emitter 5 is provided with a charging contact, and when the microphone emitter 5 is placed into the emitter accommodating cavity 21, the charging column 36 abuts against the charging contact.

In this embodiment, microphone emitter 5 and wireless receiver 6 are provided with the Type-C interface that charges, and microphone emitter 5's Type-C interface that charges is located the lateral part, and wireless receiver 6's Type-C interface that charges is located the top.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A duplex wireless collar clamp microphone set comprises a microphone emitter (5) and a wireless receiver (6) which are made of two MEMS audio sensors, and is characterized by further comprising a charging bin (2), wherein the charging bin (2) is provided with two emitter accommodating cavities (21) and one receiver accommodating cavity (22), and the two emitter accommodating cavities (21) are respectively positioned at two sides of the receiver accommodating cavity (22);

the two microphone transmitters (5) are respectively placed in the transmitter accommodating cavities (21), and the wireless receiver (6) is placed in the receiver accommodating cavity (22);

the wireless receiver (6) is provided with a mobile phone plug connector (61), a plug clamping portion (23) is arranged between the receiver accommodating cavity (22) and the transmitter accommodating cavity (21), and when the wireless receiver (6) is placed in the receiver accommodating cavity (22), the mobile phone plug connector (61) is clamped at the plug clamping portion (23).

2. The set of duplex wireless neckclip microphones as claimed in claim 1, wherein the bottom of the charging chamber (2) is provided with a circuit board (3), the outer sides of the charging chamber (2) and the circuit board (3) are provided with an outer shell (4), the circuit board (3) is fixedly connected to the bottom of the charging chamber (2), the outer shell (4) is opened at the upper part, and the charging chamber (2) and the circuit board (3) are clamped into the outer shell (4) from the opening at the upper part.

3. The set of duplex wireless neckline microphones according to claim 2, wherein the inner wall of the outer housing (4) is provided with two vertical clamping strips (41), the outer side of the housing of the charging chamber (2) is provided with two vertical clamping slots (24), and each vertical clamping strip (41) is clamped into one vertical clamping slot (24).

4. The duplex wireless collar microphone set as claimed in claim 3, wherein the bottom of the outer casing (4) is provided with a power charging port (42), the bottom of the circuit board (3) is provided with a charging port (31), and the charging port (31) is embedded in the power charging port (42);

the lateral part of circuit board (3) is connected fixture block (32), two the bottom is not stretched to the interior gib of vertical draw-in groove (24), two the outer gib of vertical draw-in groove (24) constitutes the joint structure of joint lateral part connection fixture block (32).

5. The set of duplex wireless neckline microphones according to claim 4, further comprising an upper cover (7), the upper cover (7) being hinged with the outer casing (4);

an electric bin cover (71) is arranged on the inner side of the upper cover (7), and notches corresponding to the two emitter accommodating cavities (21) and the receiver accommodating cavity (22) are formed in the electric bin cover (71).

6. The duplex wireless collar clip microphone set according to claim 5, further comprising a battery (8), wherein the circuit board (3) is provided with a battery escape slot (35), the outer housing (4) is provided with a battery card slot (43), the battery card slot (43);

the upper part of the battery (8) is abutted to the lower part of the upper edge of the charging bin (2), the peripheral side of the battery (8) is clamped in the battery clamping groove (43), and the bottom of the battery (8) is abutted to the inner side of the bottom wall of the outer shell (4);

the battery (8) is in circuit connection with the circuit board (3).

7. The duplex wireless collar microphone set as claimed in claim 6, wherein the microphone transmitter (5) is provided with a clip handle (51) and a torsion spring (52), one end of the clip handle (51) is pivoted on the casing of the microphone transmitter (5), the torsion spring (52) is sleeved on a pivot shaft between the clip handle (51) and the casing of the microphone transmitter (5), and the clip handle (51), the torsion spring (52) and the casing of the microphone transmitter (5) form an openable and closable clamping structure.

8. The duplex wireless lapel microphone set of claim 7, wherein the microphone transmitter (5) is provided with a microphone audio jack (59), and wherein a first dust plug (58) is provided in the microphone audio jack (59);

the wireless receiver (6) comprises an audio receiver bottom shell (66), the audio receiver bottom shell (66) is matched with a receiver accommodating cavity (22) in structure, the audio receiver bottom shell (66) is placed in the receiver accommodating cavity (22), a receiver connecting plate (62) is arranged in the audio receiver bottom shell (66), a second dustproof plug (63) is arranged in an audio receiver socket, and an audio receiver upper shell (64) is arranged at the top of the receiver connecting plate (62).

9. The duplex wireless collar microphone set according to claim 8, characterized in that the upper part of the circuit board (3) is provided with two sets of charging posts (36), each set of charging posts (36) being located at the bottom of one of the emitter receiving cavities (21);

the bottom of microphone transmitter (5) is provided with the contact that charges, when microphone transmitter (5) were put into transmitter holding chamber (21), charging post (36) inserted charging contact department.

10. The duplex wireless collar clip microphone set as claimed in claim 9, wherein the microphone transmitter (5) and the wireless receiver (6) are provided with a Type-C charging interface, the Type-C charging interface of the microphone transmitter (5) is located at the side, and the Type-C charging interface of the wireless receiver (6) is located at the top.

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