CN204559821U - One kind lamp-based audio device - Google Patents

Abstract

One kind lamp-based audio device, it comprises a class lamp-based housing, is suitable for being arranged on a mount pad; One circuit board, described circuit board is arranged at described housing, and described circuit board is provided with a circuit; And a module loud speaker, described module loud speaker is arranged at described housing, and wherein said module loud speaker comprises the principal oscillation loudspeaker being electrically connected on described circuit, and described principal oscillation loudspeaker are responded the input of audio signal and vibration sounding.

Description

One kind lamp-based audio device

Technical field

The utility model relates to a kind of audio device, particularly a kind lamp-based audio device.

Background technology

Electric energy indistinguishably can drive lighting apparatus and stereo set work, can be respectively user provide required light and sound to make lighting apparatus and stereo set.

In Modern Family's life, user can remain for the multiple mount pad installing lighting apparatus and the multiple jacks be energized usually in advance when finishing room, wherein these mount pads allow user directly just can obtain electric energy by lighting apparatus by mounted thereto for lighting apparatus, it is realized by the mounting head of lighting apparatus and the cooperation of mount pad, that is, lighting apparatus can not only be arranged on the position of mount pad by mounting head, but also can servicing lighting from the position acquisition electric energy of mount pad.Correspondingly, user is when using stereo set, need the pin be configured on stereo set to be inserted in jack to obtain electric energy, and this occupation mode of stereo set makes its use location be limited to the position of the jack be reserved, and stereo set is also merely able to be put on ground, desktop or similar position use.

More, traditional stereo set, the sound wave of its radiation is merely able to propagate along a specific direction, and this also just means only just has an opportunity to become preferably LisPos in the direction of Acoustic Wave Propagation, and U.S. of music then cannot be enjoyed in the position not being in the direct direction of propagation of sound wave.Therefore, the utility model aims to provide a kind of audio device that user can be helped to obtain higher auditory perception, and this audio device also allows user to be arranged on mount pad for installing traditional light fixture, so that use.

Summary of the invention

An object of the present utility model is to provide a kind lamp-based audio device, relative to the occupation mode of traditional stereo set, described class lamp-based audio device can be arranged on predeterminated position by the mode such as such as to hang, and this also means that described class lamp-based audio device can provide more occupation mode for user.

An object of the present utility model is to provide a kind lamp-based audio device, wherein, described class lamp-based audio device comprises a housing, described housing is suitable for the mount pad be installed to by described class lamp-based audio device for installing conventional lamp, and external electric energy can be obtained, to drive the work of described class lamp-based audio device from described mount pad.

An object of the present utility model is to provide a kind lamp-based audio device, and wherein, described class lamp-based audio device, by the process that uses, can reduce vibration, as much as possible to guarantee the pure property of the audio that described class lamp-based audio device produces.

An object of the present utility model is to provide a kind lamp-based audio device, and wherein, described class lamp-based audio device, by the process that uses, can not produce wind cutting, to guarantee the pure property of the audio that described class lamp-based audio device produces.

An object of the present utility model is to provide a kind lamp-based audio device, wherein, described module loud speaker comprises principal oscillation loudspeaker and a passive vibrator, preferred employing embedded audio amplifier module type project organization, when described principal oscillation horns blared answer the input of audio signal and vibration sounding time, the resonance frequency that described in described passive vibrator sync response, the vibration of principal oscillation loudspeaker produces and vibrating, to produce auxiliary audio, like this, the bass audio of described class lamp-based audio device can be strengthened.

An object of the present utility model is to provide a kind lamp-based audio device, wherein, described module loud speaker is preferably simple sound source loud speaker, the main loudspeaker of its sounding and vibration bass are on the same axis, and described module loud speaker is of compact construction while guaranteeing audio, to reduce cost of transportation and the carrying cost of described class lamp-based audio device.

An object of the present utility model is to provide a kind lamp-based audio device, and wherein, described class lamp-based audio device is applicable at multiple environment, such as home environment and working environment.

In order to achieve the above object, the utility model provides a kind lamp-based audio device, and it comprises:

One class lamp-based housing, is suitable for being arranged on a mount pad;

One circuit board, described circuit board is arranged at described housing, and described circuit board is provided with a circuit; And

One module loud speaker, described module loud speaker is arranged at described housing, and wherein said module loud speaker comprises the principal oscillation loudspeaker being electrically connected on described circuit, and described principal oscillation loudspeaker are responded the input of audio signal and vibration sounding.

According to the utility model one example, described housing comprises a shell and a Connection Element, and described Connection Element is arranged at described shell, and described Connection Element is installed on described mount pad, and described circuit board is arranged at described shell.

According to the utility model one example, described module loud speaker also comprises a passive vibrator, a vibration cavity is formed between described passive vibrator and described principal oscillation loudspeaker, and described passive vibrator is responded the resonance frequency of described principal oscillation loudspeaker vibration generation and is vibrated, to produce auxiliary audio.

According to the utility model one example, described shell is provided with a chamber and at least one first path, and often described first path is communicated in described chamber respectively; Wherein said passive vibrator and described principal oscillation loudspeaker are arranged at described shell respectively, and when described passive vibrator responds resonance frequency that the vibration of described principal oscillation loudspeaker produces and vibrates, the gas in described chamber is able to the gas displacement by often described first path and external environment.

According to the utility model one example, often described first path evenly and described shell is located in compartment of terrain.

According to the utility model one example, described housing also comprises a cover, described in be covered with at least one alternate path; Wherein said passive vibrator and described principal oscillation loudspeaker are arranged at described cover respectively, and described cover is removably installed in described shell, and the sound wave that described principal oscillation loudspeaker produce is able to by every described alternate path radiation.

According to the utility model one example, described housing also comprises a cover, described in be covered with at least one alternate path; Wherein said principal oscillation loudspeaker are arranged at described cover, and described passive vibrator is arranged at described shell; Wherein when described cover is installed on described shell, between described principal oscillation loudspeaker and described passive vibrator, form described vibration cavity, and the sound wave that described principal oscillation loudspeaker produce is able to by every described alternate path radiation.

According to the utility model one example, in described vibration cavity, be provided with acoustical cotton.

According to the utility model one example, described Connection Element is the one of riveted type, locking-type and slotting formula structure.

According to the utility model one example, described class lamp-based audio device also comprises a communication module, and described communication module is electrically connected on described circuit, and wherein said communication module is able to acceptance one communication signal, and described communication signal is transferred to described circuit.

According to the utility model one example, described communication module is arranged at the side of described circuit board relative to described principal oscillation loudspeaker.

According to the utility model one example, described class lamp-based audio device also comprises a power amplifier structure, and described power amplifier structure is electrically connected on described circuit, and described power amplifier structure is arranged at the side of described circuit board relative to described principal oscillation loudspeaker.

According to an aspect of the present utility model, class lamp-based audio device of the present utility model, its manufacture method comprises step:

A the circuit board being provided with a circuit is arranged at a class lamp-based housing by (); And

B () installs principal oscillation loudspeaker in described housing, and make described principal oscillation loudspeaker be electrically connected on described circuit, to respond the input of audio signal and vibration sounding.

According to the utility model one example, in the above-mentioned methods, one passive vibrator is installed on described housing, to form a vibration cavity between described principal oscillation loudspeaker and described passive vibrator, wherein said passive vibrator is responded the resonance frequency of described principal oscillation loudspeaker vibration generation and is vibrated, to produce auxiliary audio.

According to the utility model one example, in the above-mentioned methods, be electrically connected a communication module in described circuit, wherein said communication module is able to by an audio signal of acceptance by described circuit transmission, to be answered by described principal oscillation horns blared.

According to the utility model one example, in the above-mentioned methods, be electrically connected a power amplifier structure in described circuit, for improving the quality of the described audio signal accepted by described communication module.

According to the utility model one example, in the above-mentioned methods, fill an acoustical cotton in described vibration cavity, for improving the tonequality of described class lamp-based audio device.

According to the utility model one example, described housing comprises a shell, and described shell is provided with a chamber and at least one first path, and often described first path is communicated in described chamber respectively; Wherein said passive vibrator and described principal oscillation loudspeaker are arranged at described shell respectively, and respond at described passive vibrator resonance frequency that the vibration of described principal oscillation loudspeaker produces and vibrate, the gas in described chamber is able to the gas displacement by often described first path and external environment.

According to the utility model one example, described housing comprises a shell and a cover, described in be covered with at least one alternate path; Wherein said passive vibrator is arranged at described cover respectively in described principal oscillation loudspeaker, and described case is releasably installed on described shell, and the sound wave that described principal oscillation loudspeaker produce is able to be met by every described alternate path.

According to the utility model one example, described housing comprises a shell and a cover, described in be covered with at least one alternate path; Wherein said principal oscillation loudspeaker are arranged at described cover, and described passive vibrator is arranged at described shell; Wherein when described cover is installed on described shell, between described principal oscillation loudspeaker and described passive vibrator, form described vibration cavity, and the sound wave that described principal oscillation loudspeaker produce is able to by every described alternate path radiation.

According to the utility model one example, described principal oscillation loudspeaker have traditional horn structure.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view according to the utility model one preferred embodiment.

Fig. 2 is the decomposing schematic representation according to the utility model above preferred embodiment.

Fig. 3 is the cross-sectional schematic according to the utility model above preferred embodiment.

Fig. 4 is the relation schematic diagram of module loud speaker according to the utility model above preferred embodiment and circuit board.

Fig. 5 is the cross-sectional schematic of the variant embodiment according to the utility model above preferred embodiment.

Fig. 6 is the cross-sectional schematic according to another preferred embodiment of the utility model.

Fig. 7 is the cross-sectional schematic of the variant embodiment according to the utility model above preferred embodiment.

Fig. 8 is the cross-sectional schematic of another variant embodiment according to the utility model above preferred embodiment.

Fig. 9 is the using state schematic diagram according to the utility model above preferred embodiment.

Figure 10 is the manufacture method schematic flow sheet according to the utility model above preferred embodiment.

Embodiment

Below describe and realize the utility model for disclosing the utility model to enable those skilled in the art.Preferred embodiment in below describing only as an example, it may occur to persons skilled in the art that other apparent modification.The general principle of the present utility model defined in the following description can be applied to other embodiments, deformation program, improvement project, equivalent and not deviate from the other technologies scheme of spirit and scope of the present utility model.

According to Fig. 1 to Fig. 4 of Figure of description of the present utility model, be the class lamp-based audio device of a preferred embodiment, it is suitable for the mount pad be arranged on for installing traditional light fixture.Correspondingly, described class lamp-based audio device comprises the component of class lamp-based housing 10, circuit board 20, module loud speaker 30 and other necessity.

Specifically, described circuit board 20 is arranged at described housing 10 respectively with described module loud speaker 30, being supported by described housing 10 respectively, like this, when described housing 10 is installed in described mount pad, not only can realize the position described class lamp-based audio device being fixed on described mount pad, but also electric energy can be obtained by described mount pad from outside, follow-up, electric energy can also be transferred to described module loud speaker 30 in the form of electric current, thus, drive described module loud speaker 30 to work.It is worth mentioning that, described mount pad has traditional mount pad structure for mounted lamp.

As a concrete performance example, as shown in Figure 1 to Figure 3, described housing 10 comprises shell 11 and a Connection Element 12 further, described Connection Element 12 is arranged at the end of described shell 11, and described class lamp-based audio device can be removably installed in described mount pad by wherein said Connection Element 12.It is worth mentioning that, in embodiments more of the present utility model, described Connection Element 12 can have the syndeton of traditional light fixture, and such as described Connection Element 12 can include but not limited to riveted type, locking-type and slotting formula etc.As preferably, in specific embodiments more of the present utility model, described Connection Element 12 can be selected as locking-type structure, such as E27 joint, mount pad described in the screw locking namely utilizing the two poles of the earth of described Connection Element 12, thus, guarantee that described module loud speaker 30 is in the process of vibration, the annexation of described class lamp-based audio device and described mount pad can not be made to be changed because of unartificial factor, and then, guarantee the pure property of the audio of described module loud speaker 30.

In other words, when described Connection Element 12 is the joints being embodied as such as E27, described Connection Element 12 can coincide better with described mount pad, like this, described Connection Element 12 and the syndeton of described mount pad can resist vibration due to described module loud speaker 30 and rocking of producing, thus, make the sound of described module loud speaker 30 purer.Described circuit board 20 is arranged at the described shell 11 of described housing 10, wherein said circuit board 20 is provided with a circuit 21, described circuit 21 is electrically connected on described Connection Element 12, and when described Connection Element 12 is with foreign current conducting, electric current can be directed in described circuit 21 simultaneously.Further, as shown in Figure 3, described shell 11 can also be provided with an erecting bed 111, and described circuit board 20 is mounted on described erecting bed 111, to guarantee the stability of the structure between described circuit board 20 and described housing 10.Certainly, those skilled in the art should be appreciated that the connected mode can also between described housing 10 and described circuit board 20 with other, and this can not be regarded as the restriction to content of the present utility model and scope.

Correspondingly, in embodiments more of the present utility model, described module loud speaker 30 is arranged at the described shell 11 of described housing 10, wherein said module loud speaker 30 comprises principal oscillation loudspeaker 31, described principal oscillation loudspeaker 31 are towards the external environment condition of described shell 11, and described principal oscillation loudspeaker 31 are electrically connected on the described circuit 21 being located at described circuit board 20, like this, when electric current is through described circuit 21 and when being directed to described principal oscillation loudspeaker 31, described principal oscillation loudspeaker 31 can respond the input of audio signal and vibration sounding.Those skilled in the art should be appreciated that described principal oscillation loudspeaker 31 can have traditional horn structure.

In other embodiments of the present utility model, described module loud speaker 30 comprises described principal oscillation loudspeaker 31, one passive vibrator 32 and a module casing 33, wherein said principal oscillation loudspeaker 31, a vibration cavity 34 is formed between described passive vibrator 32 and described module casing 33, and described principal oscillation loudspeaker 31 share described vibration cavity 34 with described passive vibrator 32, described principal oscillation loudspeaker 31 are towards the external environment condition of described shell 11, and described principal oscillation loudspeaker 31 are electrically connected on the described circuit 21 being located at described circuit board 20, the direction in the chamber 112 that described passive vibrator 32 is formed towards described shell 11, wherein said shell 11 also has at least one first path 113, often described first path 113 is connected with described chamber 112.In other words, often described first path 113 is communicated in inside and the external environment condition of described shell 11 respectively, like this, when electric current is directed to described principal oscillation loudspeaker 31 through described circuit 21, on the one hand, described principal oscillation loudspeaker 31 can respond the input of audio signal and vibration sounding; On the other hand, described passive vibrator 32 can respond the resonance frequency of described principal oscillation loudspeaker 31 vibration generation and vibrate the auxiliary audio of generation, and because the vibration of described passive vibrator 32, the gas in described chamber 112 can also pass through the gas displacement of often described first path 113 and external environment condition.

That is, in the process that described class lamp-based audio device is used by user, described principal oscillation loudspeaker 31 are only had to be connected directly to audio signal, and described passive vibrator 32 is not connected directly to audio signal, described passive vibrator 32 is vibrated by the vibration of described principal oscillation loudspeaker 31 to produce auxiliary audio, thus, described passive vibrator 32 for strengthening the audio bass of described class lamp-based audio device, to improve the acoustical quality of described class lamp-based audio device.

Those skilled in the art should be appreciated that because described principal oscillation loudspeaker 31 are set up towards the external environment condition of described shell 11, and therefore, the sound wave that described principal oscillation loudspeaker 31 produce when vibrating is able to unobstructedly be radiated outside in environment; Correspondingly, because described shell 11 has multiple described first path 113, therefore, gas in the described chamber 112 that described passive vibrator 32 compresses due to vibration is able to realize exchanging with the gas of external environment condition by every described first path 113, by such mode, described class lamp-based audio device can be made to produce pure and desirable audio.

It is worth mentioning that, often described first path 113 is by even and compartment of terrain is located at described shell 11, like this, gas in the described chamber 112 that described passive vibrator 32 compresses due to vibration can roughly uniformly across the gas displacement with external environment condition of every described first path 113, so that the appearance of wind cutting effectively can be prevented, thus guarantee audio.

Further, as shown in Figure 3, described housing 10 can also comprise a cover 13, and described cover 13 is removably installed in described shell 11, is covered on the sound wave trajectory of described principal oscillation loudspeaker 31 radiation to make described cover 13.Further, in certain embodiments, described cover 13 is provided with multiple alternate path 131, every described alternate path 131 is communicated in the both sides of described cover 13 respectively, external environment condition can be radiated to by every described alternate path 131 to make the sound wave of described principal oscillation loudspeaker 31 radiation, thus, make described principal oscillation loudspeaker 31 to produce sound.In further embodiments, as shown in Figure 1, described cover 13 can be set to many valve structures, such as four valve structures, and can form every described alternate path 121 between each lobe.

It is worth mentioning that, after described cover 13 is installed in described shell 11, described class lamp-based audio device can be made to have the surface structure of traditional light fixture.Those skilled in the art are to be understood that, described cover 13 can be installed on described shell 11 in any mode that can realize, as buckle-type, spiral, adhesive type etc., therefore, mentioned in specification of the present utility model described cover 13 and the connected mode of described shell 11 should not be regarded as the restriction to content of the present utility model and scope.

Also it is worth mentioning that, described cover 13 can be made up of same material with described shell 11, also can be made from a variety of materials respectively, such as, in order to increase the texture of described class lamp-based audio device or improve the heat-sinking capability of described class lamp-based audio device, the part of described shell 11 can be made up of materials such as the good aluminium of thermal conductivity or aluminium alloys, in order to the surface structure of the traditional light fixture of simulation more true to nature, the part of described cover 13 can be made by by the transparent material be atomized in vain, such as some be specifically in strength, described cover 13 can be made up of acrylic material.List described shell 11 and some implementations of described cover 13 although above-mentioned, should be appreciated that it is only used for illustrating the Some features of the utility model in implementation, and also should be regarded as the restriction to content of the present utility model and scope.

Further, described class lamp-based audio device also comprises a communication module 40, described communication module 40 is arranged at described circuit board 20, and described communication module 40 is also set to be electrically connected on described circuit 21, wherein said communication module 40 is used for accepting an extraneous communication signal, described communication signal is transferred to described principal oscillation loudspeaker 31 further by described circuit 21, thus, described principal oscillation loudspeaker 31 are made to present different operating states based on the order described in described communication signal, such as can change the volume of described class lamp-based audio device, or make described class lamp-based audio device play different contents etc.Like this, user conveniently by the electronic equipment that can produce described communication signal, can control the work of described class lamp-based audio device easily.Such as, in embodiments more of the present utility model, the described electronic equipment that can produce described communication signal includes but not limited to mobile phone, panel computer, PC computer, notebook computer, MP3/4/5, electric paper book, personal digital assistant, camera etc.It is worth mentioning that, described communication signal can be control signal, also can be audio signal, or other signal.

Further, can be realized interconnected between described electronic equipment and described communication module 40 by wireless connect technology, wherein wireless connect technology includes but not limited to Wi-Fi, Li-Fi, bluetooth, the Internet etc., such as, in a specific embodiment of the present utility model, described communication module 40 may be implemented as a bluetooth communication module, it can realize interconnected with the bluetooth module that configures in described electronic equipment, thus user can operate described class lamp-based audio device by described electronic equipment.

Certainly, between described electronic equipment and described class lamp-based audio device, not only operational order can be accepted by described communication module 40 and transmit, and audio signal can be accepted by described communication module 40 and be transmitted equally, that is, user can pass through described electronic equipment output audio signal, after audio signal is accepted by described communication module 40, described principal oscillation loudspeaker 31 can be transferred to further by described circuit 21, follow-up, described principal oscillation loudspeaker 31 can respond the input of described audio signal and vibration sounding.

It is worth mentioning that, described communication module 40 can be arranged on described circuit board 20 to mount but to be not limited to which, preferably, described communication module 40 is mounted on described circuit board 20 side contrary with described passive vibrator 32, that is, described circuit board 20 can be designed to there is no protruding plane towards the side of described passive vibrator 32, like this, when gas flow in described chamber 112, can not be interfered, thus, guarantee that gas in described chamber 112 can roughly uniformly across the gas displacement with external environment condition of every described first path 113.

Described class lamp-based audio device can also comprise a power amplifier structure 50, described power amplifier structure 50 is arranged at described circuit board 20, it is for improving the quality of the audio signal of described communication module 40 acceptance, and transferring to described principal oscillation loudspeaker 31 by described circuit 21 afterwards, that is, described power amplifier structure 50 is electrically connected on described circuit 21 equally.Further, described power amplifier structure 50 can comprise power amplifier and amplifier power supply, and certainly, those skilled in the art should be appreciated that described power amplifier structure 50 can also comprise the component of other necessity, has better audio to make described class lamp-based audio device.

The class lamp-based audio device of a variant embodiment according to above preferred embodiment of the present utility model as shown in Figure 5, with class lamp-based audio device execution mode described above unlike, described module loud speaker 30 is arranged at described cover 13.Specifically, described class lamp-based audio device comprises a housing 10A, a circuit board 20A and a module loud speaker 30A.

Exemplarily, described housing 10A comprises a shell 11A, one Connection Element 12A and one cover 13A, wherein said Connection Element 12A is arranged at the end of described shell 11A, described mount pad is releasably installed on for by described class lamp-based audio device shell, described cover 13A shell is releasably arranged at described shell 11A, wherein said circuit board 20A is arranged at described shell 11A, described module loud speaker 30A is arranged at described cover 13A, and described module loud speaker 30A comprises a principal oscillation loudspeaker 31A, described principal oscillation loudspeaker 31A is electrically connected on the circuit 21A being located at described circuit board 20A, the input of audio signal can be responded and vibration sounding to make described principal oscillation loudspeaker 31A.

Further, described shell 11A is provided with an erecting bed 111A, and described circuit board 20A is mounted on described erecting bed 111A, to guarantee the structural stability between described circuit board 20A and described housing 10A.Further, described shell 11A is also provided with a chamber 112A and at least one first path 113A, often described first path 113A is connected with described chamber 112A respectively, that is, often described first path 113A is communicated in the external environment condition of described chamber 112A and described shell 11A respectively, like this, the gas in described chamber 112A can be made can be replaced by the gas of often described first path 113A and external environment condition.

Further, described cover 13A is also provided with at least one alternate path 131A being communicated in described cover 13A, and the sound wave that every described principal oscillation loudspeaker 31A is produced after the input of response audio signal can be radiated to external environment condition by every described alternate path 131A.

In other embodiments of the present utility model, described module loud speaker 30A comprises described principal oscillation loudspeaker 31A, an a passive vibrator 32A and module casing 33A, a vibration cavity 34A is formed between wherein said principal oscillation loudspeaker 31A, described passive vibrator 32A and described module casing 33A, and described principal oscillation loudspeaker 31A and described passive vibrator 32A shares described vibration cavity 34A, described principal oscillation loudspeaker 31A towards described cover 13A external environment condition, the described chamber 12A that described passive vibrator 32A is formed towards described shell 11A.Like this, when electric current is directed to described principal oscillation loudspeaker 31A through described circuit 21A, on the one hand, described principal oscillation loudspeaker 31A can respond the input of audio signal and vibration sounding, and sound wave can be radiated external environment condition by every described alternate path 131A; On the other hand, described passive vibrator 32A can respond described principal oscillation loudspeaker 31A and vibrates the resonance frequency that produces and vibrate generation sound, and the gas of described passive vibrator 32A in the process of vibration in the described chamber 112A that compresses can by often described first path 113A and external environment condition are replaced.

That is, in the process that described class lamp-based audio device is used by user, described principal oscillation loudspeaker 31A is connected directly to audio signal, described passive vibrator 32A is not directly connected to audio signal, it vibrates produce auxiliary audio by responding described principal oscillation loudspeaker 31A and vibrating the resonance frequency that produces, thus described passive vibrator 32A is for strengthening the audio bass of described class lamp-based audio device.

It is worth mentioning that, often described first path 113A is by even and described shell 11A is located in compartment of terrain, like this, gas in the described chamber 112A that described passive vibrator 32A compresses due to vibration can roughly realize replacing uniformly across the gas of often described first path 113A and external environment condition, so that the appearance of wind cutting effectively can be prevented, thus, make described class lamp-based audio device can have better audio.

Be the class lamp-based audio device according to another preferred embodiment of the present utility model as shown in Figure 6, wherein said class lamp-based audio device comprises the component of a housing 10B, a circuit board 20B, a module loud speaker 30B and other necessity.

In this embodiment, described housing 10B comprises an a shell 11B and Connection Element 12B further, described Connection Element 12B is arranged at the end of described shell 11B, and described class lamp-based audio device can be removably installed in described mount pad by wherein said Connection Element 12B.

Described circuit board 20B is arranged at the described shell 11B of described housing 10B, described shell 11B is provided with an erecting bed 111B, described circuit board 20B can be mounted on described erecting bed 111B, wherein said circuit board 20B is provided with a circuit 21B further, described circuit 21B is electrically connected on described Connection Element 12B, after described Connection Element 12B is installed in described mount pad, described circuit 21B automatically can be electrically connected on external electric energy, thus external electric energy is able to be transmitted by described circuit 21B in the form of electric current.

Described module loud speaker 30B comprises an a principal oscillation loudspeaker 31B and passive vibrator 32B, and described passive vibrator 32B and described principal oscillation loudspeaker 31B is arranged at the described shell 11B of described housing 10B respectively, with support by described shell 11B.Also form a vibration cavity 34B between wherein said principal oscillation loudspeaker 31B, described passive vibrator 32B and described shell 11B, and described principal oscillation loudspeaker 31B and described passive vibrator 32B shares described vibration cavity 34B.Described principal oscillation loudspeaker 31B is towards the external environment condition of described shell 11B, and described principal oscillation loudspeaker 31B is electrically connected on the described circuit 21B being located at described circuit board 20B, the direction of the chamber 112B that described passive vibrator 32B is formed towards described shell 11B, wherein said shell 11B also has at least one first path 113B, and often described first path 113B is connected with described chamber 112B.Like this, on the one hand, described principal oscillation loudspeaker 31B can respond the input of audio signal and vibration sounding; On the other hand, described passive vibrator 32B can respond the resonance frequency of described principal oscillation loudspeaker 31B vibration generation and vibrate the auxiliary audio of generation.

That is, in the process that described class lamp-based audio device is used by user, described principal oscillation loudspeaker 31B is only had to be connected directly to audio signal, and described passive vibrator 32B is not connected directly to audio signal, it is vibrated by the vibration of described principal oscillation loudspeaker 31B, thus, described passive vibrator 32B for strengthening the audio bass of described class lamp-based audio device, to improve the acoustical quality of described class lamp-based audio device.

Because described principal oscillation loudspeaker 31B is set up towards the external environment condition of described shell 11B, therefore, the sound wave that described principal oscillation loudspeaker 31B produces when vibrating is able to unobstructedly be radiated outside in environment; Correspondingly, because described shell 11B has multiple described first path 113B, therefore, gas in the described chamber 112B that described passive vibrator 32B compresses due to vibration is able to realize exchanging by the gas of often described first path 113B and external environment condition, by such mode, described class lamp-based audio device can be made to produce pure and desirable audio.

It is worth mentioning that, often described first path 113B is by even and compartment of terrain is located at described shell 11B, like this, gas in the described chamber 112B that described passive vibrator 32B compresses due to vibration can roughly uniformly across the gas exchanges of often described first path 113B and external environment condition, so that the appearance of wind cutting effectively can be prevented, thus guarantee audio.

Exemplarily, as shown in Figure 6, described housing 10B can also comprise a cover 13B, and described cover 13B is removably installed in described shell 11B, is covered on the sound wave trajectory of described principal oscillation loudspeaker 31B institute radiation to make described cover 13B.Further, in certain embodiments, described cover 13B is provided with multiple alternate path 121B, can be radiated to external environment condition to make the sound wave of described principal oscillation loudspeaker 31B radiation by every described alternate path 131B, thus, make described principal oscillation loudspeaker 31B to produce sound.In further embodiments, described cover 13B can be set to many valve structures, such as four valve structures, and can form every described alternate path 121B between each lobe.

The class lamp-based audio device of a variant embodiment according to above preferred embodiment of the present utility model as shown in Figure 7, with the execution mode of class lamp-based audio device described above unlike, described passive vibrator 32 can be arranged at described shell 11, and described principal oscillation loudspeaker 31 can be arranged at described cover 13.Specifically, described class lamp-based audio device comprises a housing 10C, a circuit board 20C and a module loud speaker 30C.

Exemplarily, described housing 10C also comprises a shell 11C, a Connection Element 12C and a cover 13C, wherein said Connection Element 12C is arranged at the end of described shell 11C, described mount pad is releasably installed on for by described class lamp-based audio device shell, described cover 13C shell is releasably arranged at described shell 11C, wherein said circuit board 20C is arranged at described shell 11C, described module loud speaker 30C comprises an a principal oscillation loudspeaker 31C and passive vibrator 32C, described passive vibrator 32C is arranged at described shell 11C, and described principal oscillation loudspeaker 31C is arranged at described cover 13C.

When described cover 13C is installed on described shell 11C, a vibration cavity 34C can be formed between described principal oscillation loudspeaker 31C and described passive vibrator 32C, like this, described principal oscillation loudspeaker 31C and described passive vibrator 32C can share described vibration cavity 34C, wherein when described principal oscillation loudspeaker 31C respond the input of audio signal and vibration sounding time, described passive vibrator 32C is able to the vibration of corresponding described principal oscillation loudspeaker 31C and vibrates to produce auxiliary audio.

Be understandable that, the sound wave that described principal oscillation loudspeaker 31C produces after the input of response audio signal can be radiated to external environment condition by least one alternate path 131C being located at described cover 13C; Responsively, the gas that described passive vibrator 32C compresses can be radiated to external environment condition by least one first path 113C being located at described shell 11C, thus, guarantee the pure property of the audio of described class lamp-based audio device.

It is worth mentioning that, because described cover 13C can dismantle from described shell 11C, so described class lamp-based audio device allows user according to different use needs, changes the described principal oscillation loudspeaker 31C of different capacity, to realize personalized use needs.

As shown in Figure 8, as another variant embodiment of above preferred embodiment of the present utility model, the difference of itself and above-described embodiment is, in the described vibration cavity 34C formed between described principal oscillation loudspeaker 31C and described passive vibrator 32C, acoustical cotton 60C can also be filled, for absorbing unnecessary sound wave, thus, guarantee that the tonequality of described class lamp-based audio device is pure.

The utility model as shown in Figure 9 by the schematic diagram of state used, with the embodiment described in Fig. 1 to Fig. 4 exemplarily, described Connection Element 12 is fixed in described mount pad, simultaneously, the described circuit 21 being located at described circuit board 20 is by synchronous conducting in external electric energy, and external electric energy is transmitted by described circuit 21 in the form of electric current.

User can by described electronic equipment audio signals, audio signal can be accepted by described communication module 40, now audio signal can be transferred to described power amplifier structure 50 via described circuit 21 by communication module 40 as electronic signals, after described power amplifier structure 50 pairs of signals of telecommunication are optimized, again transfer to described principal oscillation loudspeaker 31 by described circuit 21, now, described principal oscillation loudspeaker 31 can respond the input of audio signal and vibration sounding, and sound wave is able to be radiated to external environment condition by every described alternate path 131.

Correspondingly, described passive vibrator 32 can respond the resonance frequency of described principal oscillation loudspeaker 31 vibration generation and vibrate, to produce auxiliary audio, and the gas in the described chamber 112 compressed due to vibration of described passive vibrator 32 is able to by the gas displacement with external environment condition of every described first path 113.

In this process, the acoustical cotton 60 be filled between described principal oscillation loudspeaker 31 and described passive vibrator 32 can absorb unnecessary sound wave, thus, make the audio of described class lamp-based audio device purer.

Correspondingly, as shown in Figure 10, the utility model also provides the manufacture method of a kind lamp-based audio device, and described method comprises step:

A the circuit board 20 being provided with a circuit 21 is arranged at a housing 10 by (); And

B () installs principal oscillation loudspeaker 31 in described housing 10, and make described principal oscillation loudspeaker 31 be electrically connected on described circuit 21, to respond the input of audio signal and vibration sounding.Be understandable that, can be connected by the mode of electric wire between described principal oscillation loudspeaker 31 with described circuit 21, although do not demonstrate the annexation between described principal oscillation loudspeaker 31 and described circuit 21 in above-mentioned Figure of description, those skilled in the art are also to be understood that the electrical connection between described principal oscillation loudspeaker 31 and described circuit 21 can be very easy to realize, and the electrical connection between described principal oscillation loudspeaker 31 and described circuit 21, should not be regarded as the restriction to content of the present utility model and scope yet.

Preferably, in the above-mentioned methods, one passive vibrator 32 is installed on described housing 10, to form a vibration cavity 34 between described principal oscillation loudspeaker 31 and described passive vibrator 32, wherein said passive vibrator 32 is responded the resonance frequency of described principal oscillation loudspeaker 31 vibration generation and is vibrated.Therefore described principal oscillation loudspeaker 31 share described vibration cavity 34 with described passive vibrator 32, when described principal oscillation loudspeaker 31 respond the input of audio signal and vibration sounding time, described passive vibrator 32 can vibrate due to the resonance effect of described principal oscillation loudspeaker 32, thus sends auxiliary audio.

Preferably, in the above-mentioned methods, be electrically connected a communication module 40 in described circuit 21, wherein said communication module 40 is able to the audio signal accepted to transmit by described circuit 21, can be responded by described principal oscillation loudspeaker 31 follow-up, thus, not only can be controlled the operating state of described class lamp-based audio device by described communication module 40, but also described class lamp-based audio device can be controlled send different sound.

It is worth mentioning that, in specific embodiments more of the present utility model, described communication module 40 can be mounted on described circuit board 20, it should be understood that described communication module 40 also can be set as in other way and is electrically connected on described circuit 21.

Preferably, in the above-mentioned methods, be electrically connected a power amplifier structure 50 in described circuit 21, for improving the quality of the described audio signal that described communication module 40 accepts, thus such as described power amplifier structure 50 can improve the power etc. of described audio signal.

More preferably, in the above-mentioned methods, fill an acoustical cotton 60 in described vibration cavity 34, when described principal oscillation loudspeaker 31 produce sound wave in the input responding audio signal, described acoustical cotton 60 can absorb unnecessary sound wave, thus, make described class lamp-based audio device can send pure music, to improve the tonequality of described class lamp-based audio device.

One skilled in the art will understand that the embodiment of the present utility model shown in foregoing description and accompanying drawing only limits the utility model as an example and not.The purpose of this utility model is complete and effectively realize.Function of the present utility model and structural principle are shown in an embodiment and are illustrated, do not deviating under described principle, execution mode of the present utility model can have any distortion or amendment.

Claims (13)

1. a kind lamp-based audio device, is characterized in that, comprising:

One class lamp-based housing, is suitable for being arranged on a mount pad;

One circuit board, described circuit board is arranged at described housing, and described circuit board is provided with a circuit; And

One module loud speaker, described module loud speaker is arranged at described housing, and wherein said module loud speaker comprises the principal oscillation loudspeaker being electrically connected on described circuit, and described principal oscillation loudspeaker are responded the input of audio signal and vibration sounding.

2. class lamp-based audio device as claimed in claim 1, wherein said housing comprises a shell and a Connection Element, and described Connection Element is arranged at described shell, and described Connection Element is installed on described mount pad, and described circuit board is arranged at described shell.

3. class lamp-based audio device as claimed in claim 1, wherein said module loud speaker also comprises a passive vibrator, a vibration cavity is formed between described passive vibrator and described principal oscillation loudspeaker, and described passive vibrator is responded the resonance frequency of described principal oscillation loudspeaker vibration generation and is vibrated, to produce auxiliary audio.

4. class lamp-based audio device as claimed in claim 2, wherein said module loud speaker also comprises a passive vibrator, a vibration cavity is formed between described passive vibrator and described principal oscillation loudspeaker, and described passive vibrator is responded the resonance frequency of described principal oscillation loudspeaker vibration generation and is vibrated, to produce auxiliary audio.

5. class lamp-based audio device as claimed in claim 4, wherein said shell is provided with a chamber and at least one first path, and often described first path is communicated in described chamber respectively; Wherein said passive vibrator and described principal oscillation loudspeaker are arranged at described shell respectively, and when described passive vibrator responds resonance frequency that the vibration of described principal oscillation loudspeaker produces and vibrates, the gas in described chamber is able to the gas displacement by often described first path and external environment.

6. class lamp-based audio device as claimed in claim 5, wherein often described first path is evenly and described shell is located in compartment of terrain.

7. class lamp-based audio device as claimed in claim 4, wherein said housing also comprises a cover, described in be covered with at least one alternate path; Wherein said passive vibrator and described principal oscillation loudspeaker are arranged at described cover respectively, and described cover is removably installed in described shell, and the sound wave that described principal oscillation loudspeaker produce is able to by every described alternate path radiation.

8. class lamp-based audio device as claimed in claim 4, wherein said housing also comprises a cover, described in be covered with at least one alternate path; Wherein said principal oscillation loudspeaker are arranged at described cover, and described passive vibrator is arranged at described shell; Wherein when described cover is installed on described shell, between described principal oscillation loudspeaker and described passive vibrator, form described vibration cavity, and the sound wave that described principal oscillation loudspeaker produce is able to by every described alternate path radiation.

9., as the class lamp-based audio device as described in arbitrary in claim 3 to 8, in wherein said vibration cavity, be provided with acoustical cotton.

10., as the class lamp-based audio device as described in arbitrary in claim 3 to 8, wherein said Connection Element is the one of riveted type, locking-type and slotting formula structure.

11. as the class lamp-based audio device as described in arbitrary in claim 3 to 8, and also comprise a communication module, described communication module is electrically connected on described circuit, and wherein said communication module is able to acceptance one communication signal, and described communication signal is transferred to described circuit.

12. class lamp-based audio devices as claimed in claim 11, wherein said communication module is arranged at the side of described circuit board relative to described principal oscillation loudspeaker.

13. as the class lamp-based audio device as described in arbitrary in claim 3 to 8, and also comprise a power amplifier structure, described power amplifier structure is electrically connected on described circuit, and described power amplifier structure is arranged at the side of described circuit board relative to described principal oscillation loudspeaker.