The present disclosure relates to acoustic design technology, and in particular, to a voice coil, a method for winding the voice coil, and a speaker having the voice coil.
In related technologies, a speaker includes a basket, a vibration system and a magnetic circuit system that are accommodated in the basket. The vibration system includes a voice coil. The voice coil includes a voice-coil input terminal, a voice-coil output terminal, and a voice-coil winding. The voice-coil winding is arranged from an inner side to an outer side of the voice coil to form a multi-layer structure.
However, in related technologies, when the voice-coil winding has a three-layer structure, the voice-coil input terminal and the voice-coil output terminal cannot be ensured to be located at the same side of the voice coil, resulting in that the speaker cannot be applied to SLS (super linear structure) series products.
The present disclosure will be described in detail below with reference to
As shown in
Specifically, as shown in
It should be noted that, the N above can be any other odd number, and as long as there are an odd number of winding switching portions 121d between the first layer structure and the Nth layer structure, the voice-coil input terminal 121a and the voice-coil output terminal 121b can be ensured to be located at the same side of the voice coil 121. Preferably, only one winding switching portion 121d is disposed.
With respect to a speaker 100 in this embodiment, a winding switching portion 121d is further disposed between the neighboring two layers. Two terminals of the winding switching portion 121d are respectively located at the top and the bottom of the voice coil 121. One terminal of the winding switching portion 121d is connected to the winding ending terminal of the inner side one of the neighboring two layers, and the other terminal of the winding switching portion 121d is connected to the winding starting terminal of the outer side one of the neighboring two layers, so that the voice-coil input terminal 121a and the voice-coil output terminal 121b are located at the same side of the voice coil 121. Thus, an application range of the speaker 100 is widened, for example, applied to SLS series products.
A second aspect of the present disclosure provides a speaker 100, as shown in
The speaker 100 in this embodiment includes the voice coil 121 described above. A winding switching portion 121d is further disposed between neighboring two layers. Two terminals of the winding switching portion 121d are respectively located at the top and the bottom of the voice coil 121. One terminal of the winding switching portion 121d is connected to the winding ending terminal of an inner side one of the neighboring two layers, and the other terminal of the winding switching portion 121d is connected to the winding starting terminal of an outer side one of the neighboring two layers, so that the voice-coil input terminal 121a and the voice-coil output terminal 121b are located at the same side of the voice coil 121. Thus, an application range of the speaker 100 is widened, for example, applied to SLS series products.
Specifically, as shown in
As shown in
A third aspect of the present disclosure provides a method for winding a voice coil. A specific structure of the voice coil can refer to the foregoing descriptions, specifically, to
An N-layer structure is formed by sequentially winding from an inner side to an outer side of the voice coil, where N is an odd number greater than 1. Each layer is wound to form a multi-coil structure. And of at least one group of neighboring two layers are as follows.
An inner side one is wound from the bottom of the voice coil to the top of the voice coil to form a multi-coil structure, and the voice-coil winding is directly pulled to the bottom of the voice coil when the layer structure is finished being wound.
An outer side one is wound from the bottom of the voice coil to the top of the voice coil to form a multi-coil structure, so that the voice-coil input terminal and the voice-coil output terminal are located at the same side of the voice coil.
Specifically, for example, when N is 3, a first layer structure is wound from the bottom of the voice coil to the top of the voice coil. When the first layer structure is finished being wound, a winding ending terminal of the voice-coil winding is at the top of the voice coil. At this time, the winding ending terminal of the voice-coil winding can be directly pulled from the top to the bottom of the voice coil to wind a second layer structure. When the second layer structure is finished being wound, a winding ending terminal of the second layer structure is at the top of the voice coil, and a third layer structure is carried out to be wound from the winding ending terminal. When the third layer structure is finished being wound, a winding ending terminal of the third layer structure is at the bottom of the voice coil, so that the voice-coil input terminal and the voice-coil output terminal are both located at the bottom of the voice coil.
With respect to the method for winding the voice coil in this embodiment, when one group of the neighboring two layers is wound, the inner side one is wound from the bottom to the top of the voice coil to form a multi-coil structure. When the inner side one is finished being wound, the voice-coil winding is directly pulled to the bottom of the voice coil for winding a next layer of the voice-coil winding, so that the voice-coil input terminal and the voice-coil output terminal are located at the same side of the voice coil. Thus, an application range of the voice coil is widened, for example, applied to SLS series products.
The above descriptions are merely embodiments of the present disclosure, and it should be noted that those of ordinary skills in the art can make improvements without departing from the creative idea of the present disclosure, and all such improvements shall fall within the protection scope of the present disclosure.
Number | Date | Country | Kind |
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201810880970.3 | Aug 2018 | CN | national |