This application relates to the field of acoustic equipment technologies, and in particular, to a speaker and a mobile terminal.
With improvement of users' life quality, users are increasingly pursuing ultimate audio-visual experience. Therefore, there is a very urgent requirement for integrating a higher-quality SPK into a mobile phone in limited space and implementing stereophonic sound by using two SPKs. A common mobile phone includes one SPK speaker (horn) and one REC receiver (earpiece).
This application provides a speaker and a mobile terminal, to reduce an area occupied by the speaker in the mobile terminal, and improve space utilization of the mobile terminal.
According to a first aspect, a speaker is provided. The speaker includes a housing and a kernel, where the housing includes a side frame, an upper cover plate, and a lower cover plate disposed opposite to the upper cover plate, and the upper cover plate and the lower cover plate are configured to seal two openings of the side frame; a spacer is further disposed in the housing, the kernel is disposed between the upper cover plate and the spacer, and the kernel and the spacer are disposed in a stacked manner along a thickness direction of the kernel; in addition, when cavities are formed, the kernel, the spacer, and side walls of the side frame enclose a front cavity, and a sound hole in communication with the front cavity is disposed on a side wall of the side frame; in addition, the upper cover plate, side walls of the kernel, and the side walls of the side frame enclose a first rear cavity; the lower cover plate, the side walls of the side frame, and the spacer enclose a second rear cavity, and the first rear cavity is in air communication with the second rear cavity; and when being specifically formed, the first rear cavity, the front cavity, and the second rear cavity are disposed in a stacked manner along the thickness direction of the kernel. Therefore, the rear cavity is disposed in space of the entire speaker in the thickness direction of the kernel, to reduce an area occupied by the entire speaker in a mobile terminal on the premise that a size of the rear cavity meets a requirement.
When being specifically disposed, the first rear cavity is disposed around the kernel. The first rear cavity may be a U-shaped or ring-shaped cavity.
When the speaker is deformed due to a force, a change of the rear cavity is caused, thereby causing a change of an air pressure. Consequently, air pressures on two sides of a sound film in the kernel are unbalanced, polarization occurs, and noises are generated in the speaker. To improve this situation, a first through hole is disposed on the spacer, the first through hole is in communication with the front cavity and the rear cavity, and the hole is covered with a water resistant and breathable film layer. Therefore, ventilation can be implemented and water can be prevented from entering the rear cavity.
Specifically, the spacer is disposed as a thermally conductive spacer, for example, a metal spacer. For example, the spacer may be a copper spacer, an aluminum spacer, or the like made of a different metal material. Therefore, heat in the rear cavity may be transmitted to the front cavity through the spacer and then is dissipated to the outside. This improves a heat dissipation effect of the entire speaker.
Alternatively, the housing may be in an integrated structure. In a specific implementation solution, the upper cover plate, the lower cover plate, and the side frame are in an integrated structure.
To enable the kernel to be securely fastened when being disposed, a step structure configured to clamp the kernel is disposed on the side frame, a second through hole is disposed on the step structure, and the second through hole is in air communication with the first rear cavity and the second rear cavity. In this way, the first rear cavity and the second rear cavity form a communicated cavity.
During specific disposition, there are two second through holes, and the two second through holes are respectively disposed on two sides of the kernel.
To reduce a size of the speaker in the thickness direction of the kernel, when the upper cover plate is disposed, a third through hole for accommodating the kernel is disposed on the upper cover plate. When the kernel is installed, the third through hole is nested on the kernel.
In order to better improve sound quality of the speaker, a sound-absorbing particle is disposed in the second rear cavity, and an isolation net is disposed on the second through hole, to prevent the sound-absorbing particle from entering the first rear cavity. The isolation net may be any net that can achieve an isolation effect, such as a gauze or a metal net.
According to a second aspect, a speaker is provided. The speaker includes a housing and a kernel located in the housing, where there is a front cavity and a rear cavity in the housing, the front cavity is in communication with the outside, and the rear cavity is an isolated cavity. In addition, to reduce a space area occupied by the entire speaker, the front cavity and the rear cavity are disposed in a stacked manner when being disposed. Specifically, the front cavity and the rear cavity are at least partially stacked along a thickness direction of the kernel. Therefore, the rear cavity is disposed in space of the entire speaker in the thickness direction of the kernel, to reduce an area occupied by the entire speaker in a mobile terminal on the premise that a size of the rear cavity meets a requirement.
When being specifically disposed, the rear cavity is divided into two parts: a first rear cavity and a second rear cavity, and the first rear cavity is in communication with the second rear cavity. When the first rear cavity and the second rear cavity are specifically disposed, the first rear cavity, the front cavity, and the second rear cavity are disposed in a stacked manner along the thickness direction of the kernel. This maximizes a size of the speaker in the thickness direction of the kernel, reduces the area occupied by the speaker in the mobile terminal, and further improves space utilization of the mobile terminal.
The first rear cavity is disposed around the kernel. When being specifically disposed, the first rear cavity is disposed around the kernel. The first rear cavity may be a U-shaped or ring-shaped cavity.
When the front cavity and the rear cavity are specifically formed, the following structure is used. The housing includes a side frame, an upper cover plate, and a lower cover plate disposed opposite to the upper cover plate; a spacer is disposed in the housing, the kernel is disposed between the upper cover plate and the spacer, and the kernel and the spacer are disposed in a stacked manner along the thickness direction of the kernel; the kernel, the spacer, and side walls of the side frame enclose the front cavity, and a sound hole in communication with the front cavity is disposed on a side wall of the side frame; the upper cover plate, side walls of the kernel, and the side walls of the side frame enclose the first rear cavity; and the lower cover plate, the side walls of the side frame, and the spacer enclose the second rear cavity. It can be learned from the foregoing description that the spacer is located between the front cavity and the second rear cavity. Therefore, impact caused by resonance generated by the spacer when speaker works on another component in the mobile terminal can be effectively minimized.
When the speaker is deformed due to a force, a change of the rear cavity is caused, thereby causing a change of an air pressure. Consequently, air pressures on two sides of a sound film in the kernel are unbalanced, polarization occurs, and noises are generated in the speaker. To improve this situation, a first through hole is disposed on the spacer, the first through hole is in communication with the front cavity and the rear cavity, and the hole is covered with a water resistant and breathable film layer. Therefore, ventilation can be implemented and water can be prevented from entering the rear cavity.
Specifically, the spacer is disposed as a thermally conductive spacer, for example, a metal spacer. For example, the spacer may be a copper spacer, an aluminum spacer, or the like made of a different metal material. Therefore, heat in the rear cavity may be transmitted to the front cavity through the spacer and then is dissipated to the outside. This improves a heat dissipation effect of the entire speaker.
Alternatively, the housing may be in an integrated structure. In a specific implementation solution, the upper cover plate, the lower cover plate, and the side frame are in an integrated structure.
To reduce a size of the speaker in the thickness direction of the kernel, when the upper cover plate is disposed, a third through hole for accommodating the kernel is disposed on the upper cover plate. When the kernel is installed, the third through hole is nested on the kernel.
To enable the kernel to be securely fastened when being disposed, a step structure configured to clamp the kernel is disposed on the side frame, a second through hole is disposed on the step structure, and the second through hole is in air communication with the first rear cavity and the second rear cavity.
When the second through hole is specifically disposed, there are two second through holes, and the second through holes are respectively disposed on two sides of the kernel.
In order to better improve sound quality of the speaker, a sound-absorbing particle is disposed in the second rear cavity, and an isolation net is disposed on the second through hole, to prevent the sound-absorbing particle from entering the first rear cavity. The isolation net may be any net that can achieve an isolation effect, such as a gauze or a metal net.
According to a third aspect, a mobile terminal is provided, where the mobile terminal includes the speaker in any one of the foregoing aspects. A front cavity and a rear cavity are at least partially stacked along a thickness direction of a kernel. Therefore, the rear cavity is disposed in space of the entire speaker in the thickness direction of the kernel, to reduce an area occupied by the entire speaker in the mobile terminal on the premise that a size of the rear cavity meets a requirement.
The mobile terminal includes a middle frame, and a mainboard disposed in the middle frame, and further includes a sensor assembly, where
a notch for avoiding the sensor assembly and the speaker is disposed on the mainboard.
When being specifically disposed, the speaker is located at a top end inside the middle frame or a bottom end inside the middle frame.
To make the objectives, technical solutions, and advantages of this application clearer, the following further describes this application in detail with reference to the accompanying drawings.
To facilitate understanding of a speaker provided in an embodiment of this application, an application scenario of the speaker is first described. The speaker is applied inside a mobile terminal, and the mobile terminal may be a common mobile terminal such as a mobile phone, a tablet computer, or a notebook computer. In addition, the speaker may be applied to a mobile terminal using a single speaker and a mobile terminal using two speakers.
For ease of describing a structure in this embodiment of this application, a coordinate system is established, where an XY plane is a plane on which a placement plane of the speaker disposed in the mobile terminal is located, and a Z direction is a thickness direction of the speaker and is also a thickness direction of a kernel.
First, it should be noted that, stacking described in the embodiments of this application means that two components at least partially overlap each other. To be specific, a vertical projection of one of the two components on a placement plane of the other component at least partially overlaps a vertical projection of the other component on the placement plane of the other component. The two components can partially or completely overlap each other. Sizes of the two stacked components are not limited herein.
As shown in
Referring to
When the upper cover plate 11 and the lower cover plate 13 are disposed, the upper cover plate 11 and the lower cover plate 13 are respectively located on two sides of the side frame 12 and seal the openings of the side frame 12, to form the housing 10. To seal the openings of the side frame 12, the upper cover plate 11 and the lower cover plate 13 each may be fixedly connected to the side frame 12 by using adhesive or in another connection manner.
Alternatively, the housing is not limited to a structure including the foregoing components, and may be alternatively in an integrated structure. In this case, the upper cover plate 11, the lower cover plate 13, and the side frame 12 are in an integrated structure.
Still referring to
Referring to
A height of the front cavity 50 may be specifically limited by a height of the protrusion structure disposed on the side frame 12. The height of the protrusion structure limits a spacing between the kernel 20 and the spacer 14 in a Z direction, that is, limits the height of the front cavity 50.
Still referring to
Referring to
It can be learned from the foregoing description that when the first rear cavity 30, the front cavity 50, and the second rear cavity 40 are disposed, as shown in
In addition, to reduce a thickness increased in the Z direction of the foregoing structure, as shown in
When the speaker provided in the embodiment of this application uses the foregoing stacking structure of the cavities, in addition to the foregoing effect of reducing an area occupied by the speaker in the mobile terminal, a sound quality effect of the speaker can be further improved. Specifically, for the speaker, when a sound film of the kernel 20 vibrates, resonance is extremely easily caused to a side wall that is in the front cavity 50 and that faces the sound film of the kernel 20. However, for the speaker shown in
For the cavities provided in the embodiment of this application, as shown in
When the speaker works, heat is inevitably generated. During heat dissipation, heat in the front cavity may be directly dissipated to the outside through the sound hole. However, for the rear cavity, the rear cavity in the prior art is completely located inside the mobile terminal, and heat dissipation of the rear cavity completely depends on a heat dissipation component of the mobile terminal. Consequently, relatively large power consumption is caused. However, because the cavity stacking structure is used in the embodiment of this application, the heat in the rear cavity may be dissipated through the front cavity 50. Specifically, the spacer 14 is disposed as a thermally conductive spacer 14, for example, a metal spacer. For example, the spacer 14 may be a copper spacer, an aluminum spacer, or the like made of a different metal material. Therefore, the heat in the rear cavity may be transmitted to the front cavity 50 through the spacer 14 and then is dissipated to the outside. This improves a heat dissipation effect of the speaker and reduces power consumption of the entire mobile terminal.
To further improve a sound quality effect of the entire speaker, as shown in
It should be understood that the foregoing examples are merely an example of the speaker provided in the embodiment of this application. Any structure described as follows can be applied to the speaker provided in the embodiment of this application. The structure is disposed in a manner in which a front cavity and a rear cavity are stacked, and specifically the front cavity and the rear cavity are at least partially stacked with each other along a thickness direction of a kernel, to dispose the rear cavity in space of the entire speaker in the thickness direction of the kernel, and reduce an area occupied by the entire speaker in the mobile terminal on the premise that a size of the rear cavity meets a requirement.
An embodiment of this application further provides a mobile terminal. The mobile terminal may be a common mobile terminal such as a mobile phone, a tablet computer, or a notebook computer. In addition, the mobile terminal includes the speaker 100 according to any one of the foregoing embodiments. A front cavity 50 and a rear cavity are disposed in an at least partially stacking manner. Therefore, the rear cavity is disposed in space of the entire speaker 100 in a thickness direction of a kernel 20, to reduce an area occupied by the entire speaker 100 in the mobile terminal on the premise that a size of the rear cavity meets a requirement.
As shown in
As shown in
The foregoing descriptions are merely specific implementations of this application, but are not intended to limit the protection scope of this application. Any variation or replacement readily figured out by a person skilled in the art within the technical scope disclosed in this application shall fall within the protection scope of this application. Therefore, the protection scope of this application shall be subject to the protection scope of the claims.
This application is a continuation of U.S. patent application Ser. No. 17/256,370, filed on Dec. 28, 2020, which is a national stage of International Application No. PCT/CN2018/093848, filed on Jun. 29, 2018. Both of the aforementioned applications are hereby incorporated by reference in their entireties.
Number | Date | Country | |
---|---|---|---|
Parent | 17256370 | Dec 2020 | US |
Child | 17718006 | US |