CN202889562U - Wireless microphone receivers capable of being connected in parallel - Google Patents

Abstract

The utility model discloses wireless microphone receivers capable of being connected in parallel. A wireless microphone receiver comprises a receiver housing, a wireless audio processing module and an audio output plug which are disposed on the receiver housing, and an audio jack used for being connected with another wireless microphone receiver. The audio output end of the wireless audio processing module is connected with the audio output plug. The audio jack is connected with the audio output plug in parallel. When used simultaneously, multiple wireless microphone receivers can be connected by plugging. The wireless microphone receivers capable of being connected in parallel effectively resolve a problem to use multiple wireless microphone receivers simultaneously and prevent added electric appliances such as an audio mixer or a sound console, substantially facilitating use for users.

Description

A kind of can Wireless microphone receiver of pegging graft in parallel

Technical field

The utility model relates to a kind of Wireless microphone receiver, particularly a kind of can Wireless microphone receiver of pegging graft in parallel.

Background technology

Along with the development of radio signal propagation technology, wireless microphone more and more is widely used various occasions.At present, general Wireless microphone receiver all only has the interface of an output, therefore, when a plurality of wireless microphones will use simultaneously, just must increase the electrical equipment of mixer or sound console and so on, so not only can increase user's cost, and very inconvenient use.

The utility model content

For addressing the above problem, the purpose of this utility model is to provide a kind of and can be user-friendly to, can a plurality of a kind of Wireless microphone receivers of pegging graft in parallel.

The technical scheme that the invention for solving the technical problem adopts is:

A kind of can Wireless microphone receiver of pegging graft in parallel, comprise receiver shell, be arranged on ANTENN AUDIO processing module and audio frequency output plug on the receiver shell, the audio output of ANTENN AUDIO processing module is connected with the audio frequency output plug, also comprise the audio jack that is connected for other Wireless microphone receivers, described audio jack and audio frequency output plug are connected in parallel.

Further, described ANTENN AUDIO processing module comprises reception antenna, wireless signal processing module and audio frequency output module, and described reception antenna, wireless signal processing module and audio frequency output module are connected and are in succession connected.

Further, described audio jack is arranged on the side of receiver shell.

Further, the diameter of described audio jack and audio frequency output plug is 6.35mm.

Further, the angle of the direction of insertion of described audio jack and described audio frequency output plug is 90 °.

The beneficial effects of the utility model are: the utility model adopts a kind of can Wireless microphone receiver of pegging graft in parallel, comprise receiver shell, be arranged on ANTENN AUDIO processing module and audio frequency output plug on the receiver shell, the audio output of ANTENN AUDIO processing module is connected with the audio frequency output plug, also comprise the audio jack that is connected for other Wireless microphone receivers, described audio jack and audio frequency output plug are connected in parallel.When a plurality of Wireless microphone receivers use simultaneously, can be by socket connection together, the utility model has solved the problem that a plurality of wireless microphones use simultaneously effectively, no longer needs to increase the electrical equipment of mixer or sound console and so on, greatly facilitates user's use.

Description of drawings

The utility model is described in further detail below in conjunction with accompanying drawing and example.

Fig. 1 is a kind of operation principle block diagram that can Wireless microphone receiver of pegging graft in parallel of the utility model.

Operation principle block diagram when Fig. 2 is two Wireless microphone receivers connections of the utility model.

Fig. 3 is a kind of overall schematic that can Wireless microphone receiver of pegging graft in parallel of the utility model.

Schematic diagram when Fig. 4 is a plurality of Wireless microphone receivers connection of the utility model.

Fig. 5 is a kind of structural representation that can Wireless microphone receiver of pegging graft in parallel of the utility model.

Embodiment

With reference to Fig. 1-Fig. 5, of the present utility model a kind of can Wireless microphone receiver of pegging graft in parallel, comprise receiver shell 4, be arranged on ANTENN AUDIO processing module 1 and audio frequency output plug 2 on the receiver shell 4, the audio output of ANTENN AUDIO processing module 1 is connected with audio frequency output plug 2, also comprise the audio jack 3 that is connected for other Wireless microphone receivers, described audio jack 3 is connected in parallel with audio frequency output plug 2.Described ANTENN AUDIO processing module 1 comprises reception antenna 11, wireless signal processing module 12 and audio frequency output module 13, and described reception antenna 11, wireless signal processing module 12 and audio frequency output module are connected successively and are in succession connected.Described audio jack 3 is arranged on the side of receiver shell 4.The diameter of described audio jack 3 and audio frequency output plug 2 is 6.35mm.The angle of the direction of insertion of described audio jack 3 and described audio frequency output plug 2 is 90 °.

Described ANTENN AUDIO processing module 1 receives the audio signal that wireless microphone sends by reception antenna 11, passing to 12 pairs of audio signals of wireless signal processing module processes, audio signal transmission after will processing again is to audio frequency output module 13, by audio frequency output module 13 audio signal is transported to audio frequency output plug 2 at last, outputs to outside equipment by audio frequency output plug 2.When having two above wireless microphones to use simultaneously, operation principle is substantially the same, the Wireless microphone receiver of pegging graft only later is the audio jack 3 that audio signal is transported to the next Wireless microphone receiver that is connecting by audio frequency output plug 2, again by audio jack 3 with audio signal transmission to its audio frequency output plug 2, so analogize.

During implementation, with reference to Fig. 4, because described audio jack 3 is arranged on the side of receiver shell 4, and the angle of its direction and described audio frequency output plug 2 is 90 °, even therefore a plurality of Wireless microphone receivers are plugged in together, put still more neatly, it is relatively good that the stability of its integral body still can keep.

The above is preferred embodiment of the present utility model, and the utility model is not limited to above-mentioned execution mode, as long as it reaches technique effect of the present utility model with identical means, all should belong to protection range of the present utility model.

Claims (5)

1. One kind can Wireless microphone receiver of pegging graft in parallel, comprise receiver shell (4), be arranged on ANTENN AUDIO processing module (1) and audio frequency output plug (2) on the receiver shell (4), the audio output of ANTENN AUDIO processing module (1) is connected with audio frequency output plug (2), it is characterized in that: comprise also that for the audio jack (3) that is connected with other Wireless microphone receivers described audio jack (3) is connected in parallel with audio frequency output plug (2).
2. According to claim 1 a kind of can Wireless microphone receiver of pegging graft in parallel, it is characterized in that: described ANTENN AUDIO processing module (1) comprises reception antenna (11), wireless signal processing module (12) and audio frequency output module (13), and described reception antenna (11), wireless signal processing module (12) are connected 13 with the audio frequency output module) in succession connect successively.
3. According to claim 1 a kind of can Wireless microphone receiver of pegging graft in parallel, it is characterized in that: described audio jack (3) is arranged on the side of receiver shell (4).
4. According to claim 1 a kind of can Wireless microphone receiver of pegging graft in parallel, it is characterized in that: the diameter of described audio jack (3) and audio frequency output plug (2) is 6.35mm.
5. According to claim 1 or 3 or 4 described a kind of can Wireless microphone receiver of pegging graft in parallel, it is characterized in that: the angle of the direction of insertion of described audio jack (3) and described audio frequency output plug (2) is 90 °.

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