Patent Grant
11516588
This application. is a National Stage of International Application No. PCT/CN2018/125759, filed on Dec. 29, 2018, which claims priority to to Chinese Patent Application No. 201810667263,6, filed on Jun. 25, 2018, both of which are hereby incorporated by reference in its entirety.
The present invention relates to the technical field of electro-acoustic, in particular to a sound production device and a portable terminal.
At present, a sound production device has been widely applied as an important component of a terminal with audio play function. Some terminals, in particular portable terminals such as mobile phones, tablet personal computers and earphones, can provide a quite limited mounting space for a sound production device, so that the sound production device has a smaller and smaller volume.
For an existing sound production device, a housing thereof is an independent plastic part and is usually bonded with a magnetic yoke. However, as the sound production device is smaller in volume, it is quite troublesome to bond the magnetic yoke to the housing, which leads to a great inconvenience for assembling the sound production device and a somewhat limited magnetic circuit space.
The present invention mainly aims to provide a sound production device which is designed to solve the technical problem of inconvenient assembly of the magnetic yoke and the housing in the existing sound production device.
In order to achieve the purpose, the invention provides a sound production device, comprising a vibration system and a magnetic circuit system, the vibration system and the magnetic circuit system being mounted and fixed to an housing, characterized in that the housing comprises a first shell and a second shell that are connected and fixed together, the vibration system comprises a first diaphragm and the magnetic circuit system comprises a magnetic yoke, and wherein the first diaphragm is mounted on one surface of the first shell far away from the second shell, and the magnetic yoke and the second shell are injection molded integrally.
Optionally, the magnetic circuit system further comprises a central magnetic circuit portion and a side magnetic circuit portion, a magnetic gap being, formed between the central magnetic circuit portion and the side magnetic circuit portion;
the central magnetic circuit portion comprises a central magnet arranged on the magnetic yoke and a central concentrating flux plate arranged on the central magnet, the side magnetic portion comprises a side concentrating flux plate arranged separated from the central concentrating flux plate, and die side concentrating flux plate is fixed to the first shell by injection molding.
Optionally, the side magnetic circuit portion further comprises a first side magnet and a second side magnet that are arranged on two opposite sides of the central magnet respectively, and the side concentrating flux plate comprises a first side concentrating flux plate and a second side concentrating flux plate that are arranged on the first side magnet and the second side magnet respectively.
Optionally, the magnetic yoke is in a flat plate shape and is arranged to form a bottom wall of the second shell.
Optionally, the side, facing the second shell, of the first shell is provided with a recess/protrusion structure, and the side, facing the first shell, of the second shell is provided with a matching protrusion/recess structure; the first shell and the second shell are positioned through the snatched protrusion and recess structures, and the first shell and the second shell are bonded and fixed together by gluing.
Optionally, the first shell is provided with a first electric connector and a second electric connector for electrically connecting a voice coil of the vibration system to an external circuit, and the first electric connector and the second electric connector are connected to two leads of the voice cod of the vibration system respectively.
Optionally, the first shell is arranged in a rectangular shape, and the first electric connector and the second electric connector are arranged at one end of a short edge of the first shell.
Optionally, one end of the short edge of the first shell protrudes outwardly with a mounting protrusion portion;
the first electric connector is provided with a first bonding pad and a second bonding pad that are exposed on the mourning protrusion portion and located on an inner side of the first shell respectively; and the second electric connector is provided with a third bonding pad and a fourth bonding pad that are exposed on the mounting protrusion portion and located on the inner side of the first shell respectively;
the first bonding pad and the third bonding pad are electrically connected to an external circuit.
Optionally, the first shell is further provided with a third electric connector and an electric adapter, the third electric connector being arranged on one end of the first shell far away from the mounting protrusion portion, and two ends of the electric adapter being connected to the third electric connector and the second electric connector respectively;
one lead of the voice coil is electrically connected to the second electric connector by passing through the third electric connector and the electric adapter sequentially while the other lead of the voice coil is electrically connected to the first electric connector.
The third electric connector is provided with a fifth bonding pad exposed on an upper side surface of the first shell and a sixth bonding pad exposed on a lower side surface of the first shell, the second bonding pad being exposed on the upper side surface of the first shell, the fourth welding pond being exposed on the lower side surface of the first shell, and the sixth bonding pad and the fourth bonding pad being arranged close to the same long edge of the first shell;
two ends of the electric adapter are connected to the sixth bonding pad and the fourth bonding pad respectively;
two leads of the voice coil are connected to the fifth bonding pad and the second bonding pad respectively
Optionally, the lower side surface of the first shell is provided with a lead slot extending from the sixth bonding pad to the fourth bonding pad, the electric adapter being buried in the lead slot.
The vibration system further comprises a second diaphragm arranged opposite to the first diaphragm, the second diaphragm being mourned on a surface of the second shell far away from the first shell, and the voice coil of the vibration system being arranged on a lower side of the first diaphragm;
the magnetic circuit system is arranged between the first diaphragm and the second diaphragm, the magnetic circuit system and the first diaphragm form a first sound cavity therebetween, and the voice coil partially extending into the magnetic gap of the magnetic circuit system, and the magnetic circuit system and the second diaphragm form a second sound cavity therebetween, and the first sound cavity and the second sound cavity acre provided with a gas port therebetween.
Optionally, the sound production device further comprises a connector, the connector being at least partially arranged in the gas port, being fixedly connected to the first diaphragm with an upper end of the connector and being fixedly connected to the second diaphragm with a lower end of the connector.
Optionally, the gas port comprises a plurality of side gas ports disposed in the second shell, being in communication with the magnetic gap of the magnetic circuit system to the second sound cavity, and being spaced apart along a circumferential direction of the magnetic gap;
the connector comprises a connecting bottom plate and a plurality of connecting protrusion portions protruding from the connecting bottom plate, the connecting bottom plate being arranged between the second shell and the second diaphragm and being fixedly connected to the second diaphragm, and the plurality of connecting protrusion portions passing through the side gas ports in a one correspondence manner to be fixedly connected to the first diaphragm.
Optionally, the connecting protrusion portions are arranged in plate shapes, and the connecting protrusion portions are formed with connecting flanges that are bent inward, or outward, or partially inward and partially outward at upper ends thereof; and or
the connecting protrusion portions are arranged in plate shapes, and lower ends of side edges of the connecting protrusion portions are bent inward to form side reinforcement portions connected to the connecting bottom plate; and/or
the lower ends of the inner sides of the connecting protrusion portions are provided with reinforcing ribs connected to the connecting bottom plate; and/or
the connecting bottom plate is hollowed out; and/or
the connecting protrusion portions are arranged in plate shapes and are hollowed out; and/or
the connecting bottom plate is arranged in a square, round, racetrack or elliptic shape.
Optionally, the first diaphragm comprises a first central portion, a first corrugated rim arranged around the first central portion and a first fixation portion arranged around the first corrugated rim, the connecting protrusion portions being fixed to a lower side of the first central portion, the first corrugated rim being a structure formed by one protrusion or being a wavy structure formed by at least one protrusion and at least one recess; and/or
the second diaphragm comprises a second central portion, a second corrugated rim arranged around the second central portion and a second fixation portion arranged around the second corrugated rim, the connecting bottom plate being fixed to an upper side of the second central portion, the second corrugated rim being a structure formed by one protrusion or being a wavy structure formed by at least one protrusion and at least one recess.
Optionally, the first diaphragm further comprises a first reinforcement portion combined to the first central portion, the first reinforcement portion being provided with a first notch at periphery thereof corresponding to a bonded part of the connecting protrusion portion and the first central portion; and/or
the second diaphragm further comprises a second reinforcement portion combined to the second central portion, the second reinforcement portion being provided with a second notch at periphery thereof corresponding to a bonded part of a periphery of the connecting bottom plate and the second central portion.
Optionally, the connector is a structure formed by bending and extending a second reinforcement portion combined to the second diaphragm integrally toward a direction close to the second diaphragm/voice coil;
or, the voice coil is wound on a voice coil framework, the connector being a structure formed by bending and extending the voice coil framework integrally toward a direction close to the second diaphragm second reinforcement portion.
Optionally, the gas port comprises a central gas port penetrating middle positions of the magnetic yoke and the magnetic circuit system.
The present invention further provides a portable terminal, comprising a housing provided with an accommodation cavity internally, characterized in that the portable terminal further comprises the sound production device, the sound production device being mounted in the accommodation cavity, and the housing being provided with a first sound hole corresponding to the first diaphragm and a second sound hole corresponding to the second diaphragm.
Optionally, the housing is provided with a front surface and a back surface that are arranged oppositely, the first sound hole being disposed in the front surface and the second sound hole being disposed in the back surface.
According to the sound production device, by fixing the magnetic yoke to the second shell by injection molding, the magnetic yoke and the second shell become an independent part which is integrally arranged, so that it can reduce the assembling process of the magnetic yoke and the housing and therefore solve the problem that it is inconvenient to assemble the magnetic yoke and the housing; especially tilt the sound production device which is relatively small in volume, the assembling efficiency thereof can be improved greatly. Meanwhile, compared with the way of bonding the magnetic yoke to the housing, the present invention can improve, by fixing the magnetic yoke to the second shell by injection molding, the connecting strength between the magnetic yoke and the second shell and thus improve the connecting strength between the magnetic yoke and the housing to prevent looseness, such that it can improve the reliability of the sound production device product. In addition, in the present invention a conventional plastic housing is split into two shells which are assembled together along an assembling direction, and thus compared with the prior art, it can provide a bigger space the magnetic circuit system and further improve the product performance.
In order to illustrate embodiments of the present invention or technical solutions in the prior art more clearly, brief introduction on drawings needed to be used in description of the embodiments or the prior art is made below. It is obvious that the drawings described below are merely some embodiments of the present invention and structures shown in those drawings can be used as a basis to obtain other drawings by those skilled in the art without creative efforts.
Implementation of purposes, functional characteristics and advantages of the present invention will be further described in combination with embodiments with reference to drawings.
Clear and intact description on the technical solution in the embodiments of the present invention will be made in combination with drawings in the embodiments of the present invention. It is obvious that the embodiments described are only a part of embodiments of the present invention, and are not all of embodiments thereof. Based on the embodiments of the invention, all the other embodiments obtained by those of ordinary skill in the art without inventive effort are within the scope of the invention.
It should be noted that all directional indications (for example, upper, lower, left, right, front, rear and etc.) in the embodiments are merely used for explaining relative position relationships and moving conditions and etc among parts in a certain special gesture (as shown in the drawings). The directional indications change as well therewith when the special gesture changes.
In addition, the descriptions of “first”, “second” and the like in the present disclosure are used for the purpose of description only, and are not to be construed as indicating or implying their relative importance or implicitly indicating the number of technical features indicated, Thus, features defined with “first”, “second” may include at least one such feature, either explicitly or implicitly. Furthermore, the technical solutions between the various embodiments may he combined with each other, but must be on the basis that the combination thereof can be implemented by a person of ordinary skill in the art. In case of a contradiction with the combination of the technical solutions or a failure to implement the combination, it should be considered that the combination of the technical solutions does not exist, and is not within the protection scope of the present invention.
The present invention provides a sound production device.
In the embodiment of the present invention, as shown in
It can be understood that the sound production device 100 allows, by fixing the magnetic yoke 21 onto the second shell 32 by injection molding, the magnetic yoke 21 and the second shell 32 to be an integral part and thus may reduce the assembling process for the magnetic yoke 21 and the housing 30, and therefore solves the problem that it is inconvenient to assemble the magnetic yoke 21 and the housing 30; in particular for the sound production device 100 which is relatively small in volume, it can greatly improve the assembling efficiency thereof. Meanwhile, compared with the way of bonding the magnetic yoke 21 to the housing 30, the present invention may improve, by fixing the magnetic yoke 21 to the second shell 32 by injection molding, the connecting strength between the magnetic yoke 21 and the second shell 32, and thus may improve the connecting strength between the magnetic yoke 21 and the housing 30 o prevent looseness, which may improve the reliability of the sound production device 100 product, and thus may improve the quality of the sound production device 100 and the portable terminal.
Further, as shown in
Compared with the way of bonding e side concentrating flux plate onto the housing 30 in the prior art, the sound production device 100 of the present invention allows, by fixing the side concentrating flux plate 25 onto the first shell 31 by injection molding, the side concentrating flux plate 25 and the first shell 31 to be an integral part and thus may reduce the assembling process for the side concentrating flux plate 25 and the housing 30, and therefore solves the problem that it is inconvenient to assemble the side concentrating flux plate 25 and the housing 30; in particular for the sound production device 100 which is relatively small in volume, it may greatly improve the assembling efficiency thereof. Meanwhile, compared with the way of directly bonding the side concentrating flux plate 25 to the housing 30, the present invention may improve, by fixing the side concentrating flux plate 25 onto the first shell 31 by injection molding, the connecting strength between the side concentrating flux plate 25 and the first shell 31 and thus may improve the connecting strength between the side concentrating flux plate 25 and the housing 30 to prevent looseness, which may further improve the reliability of the sound production device 100 product.
Further, as shown in.
Further, as shown in
In the embodiment, the housing 30 is substantially in a rectangular shape and the magnetic yoke 21 is also substantially in a rectangular shape. The first side magnet 26 and the second side magnet 27 are arranged on two long edge sides of the magnetic yoke 21 respectively.
In particular, as shown in
Further, as shown in
Further, as shown in
In the embodiment, two third sound holes 33 are disposed and are disposed in long edge sides of the housing 30 respectively.
Surely, the magnetic circuit system 20 of the sound production device 100 can be also arranged as a single magnet magnetic circuit system. For example, in other embodiments of the present invention, the magnetic yoke 21 comprises a bottom wall and a side wall arranged on a periphery of the bottom wall, the bottom wall of the magnetic yoke 21 is fixed to the second shell 32 by injection molding and is arranged as the bottom wall of the second shell 32, the side concentrating flux plate 25 is arranged on the side wall of the magnetic yoke 21, and the magnetic gap 22 is formed between the central magnet 23 and the side wall of the magnetic yoke 21. Detailed description is not repeated herein.
Further, as shown in
Further, as shown in
In particular, as shown in
In order to electrically connect the first electric connector 41 and the second electric connector 42 to the voice coil 13 of the vibration system 10, the first electric connector 41 is further provided with a second bonding pad 412 exposed to the first shell 31, the second electric connector 42 is further provided with a fourth bonding pad 422 exposed to the first shell 31, and two leads of the voice coil 13 are electrically connected to the second bonding pad 412 and the fourth bonding pad 422 respectively.
Further, as shown in
Therefore, only three electric connectors 50 are needed to lead the electric connection point of the voice coil 13 and the external circuit to the outer side of the first shell 31, so that the first shell 31 is simple in structure and convenient to manufacture.
Further, as shown in
It can be understood that by separately connecting the two leads of the voice coil 13 to the fourth bonding pad 422 and the fifth bonding pad 431 arranged at two ends of the first shell 31, the broken risk of leads of the voice coil 13 when the sound production device 100 works can be reduced, and meanwhile, the noise problem caused by the leads of the voice coil can be weakened or even eliminated.
In particular, as shown in
In particular, the first electric connector 41, the second electric connector 42, the third electric connector 43 and the electric adapter 44 can be integrated to the first shell 31 first, and meanwhile, the central magnet and the side magnets are bonded to the second shell 32, then the first shell 31 and the second shell 32 are spliced and assembled to form the housing 30, and then the two leads of the voice coil 13 can be welded to the fourth bonding pad 422 and the fifth bonding pad 431. Thus, it reduces the assembling difficulty so as to improve the production efficiency of the sound production device 100, shorten the production period of the sound production device 100, and further increase the magnetic circuit space and improve the acoustic performance of the product.
In the embodiment, the electric adapter 44 can be arranged as a lead wire, a varnished wire or a thickened varnished wire and the like.
Further, the sound production device 100 of the present invention can be either a single diaphragm sound production device 100 or a double diaphragm sound production device 100. When the sound production device 100 of the present invention is arranged as the single diaphragm sound production device 100, reference can be made to the structural form of the single diaphragm sound production device 100 and the embodiments of the present invention. Thus, it is unnecessary to elaborate herein.
In some embodiments provided by the present invention, the sound production device 100 is arranged as the double diaphragm. In particular, as shown in
The magnetic circuit system 20 is arranged between the first diaphragm 11 and the second diaphragm 12, a first sound cavity (not shown in Figures) being formed between the magnetic circuit system 20 and the first diaphragm 11 and the voice coil 13 partially extending into the magnetic gap 22 of the magnetic circuit system 20; and there is a second sound cavity (not shown in Figures) formed between the magnetic circuit system 20 and the second diaphragm 12, and there is an gas port disposed between the first sound cavity and the second sound cavity.
The vibrating principle of the first diaphragm 11 can refer to an existing form. In particular, the voice coil 13 is fixedly connected to the first diaphragm 11 and penetrates into the magnetic gap 22, communicates to a changing current to be subjected to Ampere forces with different amplitudes to vibrate, and vibrates to drive the first diaphragm 11 to vibrate, and the energy conversion mode thereof is electric energy-mechanical energy-acoustic energy. In order to adjust the frequency characteristic of vibration, a counterweight can be further arranged.
As to the gas port, it can be only disposed in the bottom wall of the magnetic yoke 21 to communicate the magnetic gap 22 to the second sound cavity; or can be formed in the middle position of the magnetic circuit system 20, that is, penetrating through the central concentrating flux plate 24, the central magnet 23 and the magnetic conductive 21 successively to communicate the first sound cavity to the second cavity; or can be formed in the side surface of the central magnet 23 and is bent downward in the central magnet 23 to penetrate through the bottom wall of the magnetic conductive 21 to communicate the magnetic gap 22 to the second sound cavity, as long as the first sound cavity and the second sound cavity can be communicated the flow area of the gas port is large enough to enable an airflow circulating in the gas port can push the second diaphragm 12 to produce sound.
The sound production device 100 of the present invention is relatively small in volume and is convenient to be widely applied to the portable terminal 1000, by producing sound through vibration of two diaphragms and producing sound bidirectionally by the two diaphragms by adopting a set of voice cod 13 and magnetic circuit system 20. In particular, when the sound production device 100 of the present invention works, the magnetic circuit system 20 drives the first diaphragm 11 to vibrate directly first to enable air in the first sound cavity to be compressed or expanded. As the gas port is disposed between the first sound cavity and the second sound cavity to communicate to allow air to circulate in the gas port. Pushed by the airflow, the second diaphragm 12 vibrates to produce sound driven by the airflow, and the second sound cavity expands or compresses in conjunction, thus forming a bidirectional sound production structure where the first diaphragm 11 on the front surface radiates actively and the second diaphragm 12 on the back surface radiates passively. When applied to the portable terminal 1000, the sound production device 100 of the present invention can produce sound toward forward and backward directions of the portable terminal 1000 respectively.
It can be understood that the design is driving the second diaphragm 12 to produce sound based on circulation of air in the gas port. In a further embodiment of the present invention, in order to drive the second diaphragm 12 to vibrate to produce sound, a connector 50 can be additionally arranged to connect the first diaphragm 11 and the second diaphragm 12 to drive the second diaphragm 12 to produce sound. Surely, the connector 50 may not be additionally arranged and the second diaphragm 12 is driven by circulation of air in the gas port to produce sound.
Further, as shown in
In particular, compared with the way of driving the second diaphragm 12 to produce sound by means of circulation of air in the gas port, when the second diaphragm 12 is driven to vibrate to produce sound through the connector 50, the specific structural form of the gas port will also change accordingly, as long as it is convenient for the connector 50 to move in the gas port to link the first diaphragm 11 and the second diaphragm 12 and an airflow channel for communicating the first sound cavity to the second sound cavity is formed between the connector 50 and the inner wall surface of the gas port.
In particular, the connector 50 and the first diaphragm 11 or the second diaphragm 12 are connected by glue bonding or by injection molding. The upper and lower ends of the connector 50 in the embodiment are bonded to the first diaphragm 11 or the second diaphragm 12 respectively.
In particular, in order to reduce the weight of the part on the premise of guaranteeing strength, a material of the connector 50 comprises, but not limited to, a carbon fiber material, a metal material such as an aluminum foil/a magnesium aluminum alloy/a magnesium lithium alloy, a plastic material such as PEN (polyethylene naphthalate)/PI (polyimide)/LCP (Liquid Crystal Polymer)/PC(polycarbonate)/PPA(Polyphthalamide), or a porous material and the like. The processing modes of the connector 50 comprise, but not limited to, winding, blow molding, injection molding, stamping, machining and the like.
As shown in
In particular, as shown in
The connector 50 comprises a connecting bottom plate 51 and a plurality of connecting protrusion portions 52 protruding :from the connecting bottom plate 51, the connecting bottom plate 51 being arranged between the second shell 32 and the second diaphragm 12 and fixedly connected to the second diaphragm 12, and the plurality of connecting protrusion portions 52 penetrating through the plurality of side gas ports 28 in a one-to-one correspondence manner separately and being fixedly connected to the first diaphragm 11.
Thus, the first diaphragm 11 will drive the second diaphragm 12 to vibrate synchronously to produce sound. Meanwhile, as the side gas ports 28 are disposed in the edge sides of the diaphragms, if only one connecting protrusion portion 52 is arranged, then it will lead to a relatively poor vibrating synchronism of the first diaphragm 11 and the second diaphragm 12. However, in the present invention, a plurality of connecting protrusion portions 52 are provided so as to improve the force transferring homogeneity between the first diaphragm 11 and the second diaphragm 12, and thus improve the vibrating synchronism of the first diaphragm 11 and the second diaphragm 12.
It can be understood that the more the connecting protrusion portions 52 are, the better the vibrating synchronism of the first diaphragm 11 and the second diaphragm 12 is. However, when the connecting protrusion portions 52 become more, not only the structure of the sound production device 100 is more complex but also movement of the voice coil 13 in the magnetic gap 22 is further affected greatly since the connecting protrusion portions 52 are arranged in the magnetic gap 22. Therefore, preferably, the number of the connecting protrusion portions 52 is two or three, and those are in centrosymmetry.
In the embodiment, the housing 30 is substantially rectangular and the connecting bottom plate 51 is substantially rectangular too. Preferably, the number of the connecting protrusion portions 52 is two and those are symmetrically arranged at two ends of the short edge of the connecting bottom plate 51.
Further, as shown in
As shown in
As shown in
As shown in
As shown in
In the sixth embodiment of the connector 50, the connecting protrusion portions 52 are arranged in plate shapes and are hollowed out. Thus, it can ensure the structural strength during transmission and reduce the energy loss by reducing the weight. Meanwhile, as the connecting protrusion portions 52 are hollowed out, air on two sides of the connecting protrusion portions 52 can circulate so as to increase the effective circulating area indirectly.
As shown in
It can be understood that the second to the seventh embodiments of the connector 50 can be combined with each other without contradiction.
Further, as shown in
In the embodiment, the first central portion 111 is used for bearing an action force of the connector 50 and vibrates therewith to produce sound, that is, linkage radiation sounding. By arranging the first central portion 111 as the planar sheet structure, it will occupy a relatively small space in the up-down direction but can generate a great enough amplitude. The first corrugated rim 112 provides a certain smoothness, that is, a certain flexibility, to movement of the central portion, so that the first central portion 111 is more prone to be pushed by the connector 50 or air.
In particular, the sound production device 100 further comprises a front cover 60, and the first fixation portion 113 is clamped between the front cover 60 and the first shell 31.
Based on a substantially same principle as the first diaphragm 11, the second diaphragm 1 comprises a second central portion 121, a second corrugated rim 122 arranged around the second central portion 121 and a second fixation portion 123 arranged around the second corrugated rim 121; the connecting bottom plate 51 being fixed to an upper side of the second central portion 121; the second central portion 121 being a flat sheet structure; the second corrugated rim 122 being a structure formed by one protrusion or being a wavy structure formed by at least one protrusion and at least one recess.
In particular, the sound production device 100 further comprises a back cover 70, and the second fixation portion 123 is clamped between the back cover 70 and the second shell 32.
In particular, the first central portion 111 and the second central portion 121 are arranged in sheet structures, which may cause that the sound production device 100 of the present invention form a thinner structure in the up-down direction integrally, and therefore is more prone to be applied to a fiat mounting space.
Further, as shown in
Further, as shown in
Based on a substantially same principle as the first diaphragm 11, the second diaphragm 12 further comprises a second reinforcement portion 124 combined to the second central portion 121, and a second notch 1241 is formed in a bonded part of a periphery of the connecting bottom plate 51 and the second central portion 121 corresponding to the second reinforcement portion 124. Thus, it may facilitate the enhancement of the bonding effect of the connecting bottom plate 51 and the second central portion 121.
It should be noted that the above is introduced by taking bidirectional sound production achieved by connecting the first and second diaphragms with an independent connector as an example. However, the technical solution not only can be applied to this situation, but also can be applied to structures in other modes to achieve the bidirectional sound production, for example, the connector can be a structure formed by bending and extending the second reinforcement portion combined to the second diaphragm toward a direction close to the second diaphragm/voice coil integrally, that is, the structure can be achieved as well by bending and extending the second reinforcement portion to the bottom end of the voice coil or the first diaphragm rather than introducing the connector independently.
Or, the voice coil can be wound onto a voice coil framework. The voice coil framework is bent and extended integrally toward a direction close, to the second diaphragm second reinforcement portion, thereby connecting and fixing the first and second diaphragms. In other words, application of the technical solution is not limited to the above examples. The scope of application of the technical solution is not limited regardless of a round sound production device and a rectangular sound production device, a single magnetic circuit structure and the multi-magnetic circuit structure, unidirectional sound production and bidirectional sound production and forms of the connector as long as the conventional housing in the sound production device is split into two shells and the magnetic yoke in the magnetic circuit system and the second shell are injection molded integrally.
Surely, in some other embodiments of the present invention, the gas ports are also disposed in the middle position of the magnetic circuit system 20. In particular, the gas port comprises a central gas port (not shown in Figure) which penetrates through the magnetic yoke 21 and the central position of the magnetic circuit system 20. In the embodiment, the central gas port penetrates through the central concentrating flux plate 24, the central magnet 23 and the magnetic yoke 21 successively to communicate the first sound cavity to the second cavity. One connector 50 is arranged in the central gas port, the upper end of the connector 50 is connected to the first diaphragm 11 and the lower end of the connector 50 is connected to the second diaphragm 12, wherein the connector 50 is preferably in a hollow barrel shape. Detailed description is not repeated herein.
Surely, in some other embodiments of the present invention, it may also be in a way of combining the central gas port with the side gas port 28, and detailed description is not repeated herein.
It is particularly emphasized that the present invention has at least the following technical effects:
1) by injection molding the magnetic yoke 21 and the second shell 32 as an integrate((part and injection molding and fixing the side concentrating flux plate 25 to the first. shell 31, the problem that it is inconvenient to assemble the magnetic yoke 21, the side concentrating flux plate 25 and the housing 30 can be solved, so that the assembling efficiency of the sound production device 100 can be improved;
2) by achieving bidirectional sound production by means of one voice coil 13, the sound production device is simple in structure and easy to implement;
3) the bonding pad of the product extends outside the housing 30, so that on the one band, the first diaphragm 11 and the second diaphragm 12 can keep consistent effective radiating areas and thus consistent acoustic performance; and on the other hand, the first diaphragm 11 and the second diaphragm 12 may have the largest effective radiating areas and obtain the optimum acoustic performance;
4) with the design of splitting the housing 200 and arranging the electric connection point of the voice coil 13 and the external circuit outside the housing 30, it can provide a larger space for the magnetic circuit system 20 and further improve the acoustic performance of the product.
The present invention further provides a portable terminal. As shown in
As shown in
Preferably, in order to shorten the propagation path of sound in the housing 200 to reduce acoustic resistance, the first sound hole 202 is disposed in a position, aligned with the first diaphragm 11, of the housing 200 and the second sound hole 203 is disposed in a position, aligned with the second diaphragm 12, of the housing 200.
Further, the housing 110 of the portable terminal 100 has a front surface and a back surface arranged oppositely, wherein the first sound hole 130 is disposed in the front surface and the second sound hole 140 is disposed in the back surface, thereby achieving bidirectional synchronous sound production.
The above is only the preferred embodiments of the present invention and is not intended to limit the patent scope of the present invention. Under the inventive concept, any equivalent structure or modification used according to the contents of the specification and drawings in the present invention matter whether it is directly or indirectly used in any other related technical field should be included within the protection scope of the present invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201810667263.6 | Jun 2018 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2018/125759 | 12/29/2018 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2020/000987 | 1/2/2020 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 7162050 | Furuya | Jan 2007 | B2 |
| 10057685 | Mao | Aug 2018 | B2 |
| 10091570 | Xiao | Oct 2018 | B2 |
| 10694293 | Huang | Jun 2020 | B2 |
| 11290794 | Shen | Mar 2022 | B2 |
| 20060188126 | Andersen | Aug 2006 | A1 |
| 20170180901 | Sun | Jun 2017 | A1 |
| 20180167739 | Gu | Jun 2018 | A1 |
| Number | Date | Country |
|---|---|---|
| 104735595 | Jun 2015 | CN |
| 205283807 | Jun 2016 | CN |
| 108513230 | Sep 2018 | CN |
| 2007173880 | Jul 2007 | JP |
| Number | Date | Country | |
|---|---|---|---|
| 20210266671 A1 | Aug 2021 | US |
