CN105611454A - Sound equipment - Google Patents

Abstract

A piece of sound equipment comprises a hollow shell which has an accommodating space. The sound equipment further comprises a vibration medium layer, at least one vibrator, a wireless communication unit and a processor. The vibration medium layer is installed in the shell and is partially accommodated in the accommodating space, and one end of the vibration medium layer extends out of the shell; each vibrator contacts the part, inside the accommodating space, of the vibration medium layer; and the processor is electrically connected to each vibrator, and is used for making each vibrator vibrate so as to drive the vibration medium layer to vibrate and to make the sound equipment produce sound when the audio equipment receives a wireless signal through the wireless communication unit.

Description

Sound equipment

Technical field

The present invention relates to a kind of sound equipment.

Background technology

Resonance speaker is changed the principle of sound of sound equipment traditional mode in the past, passes to sound production medium by audio signal being converted to audio frequency mechanical oscillation, makes medium sounding. When use, only such resonance speaker need be positioned over to a medium face (wooden desktop, metal, glass etc.) upper, when sound equipment receives after audio signal, whole medium face will produce resonance, thereby plays music. But, ability received audio signal and then broadcasting music after existing resonance speaker product can only be connected with player by tone frequency channel wire, this can be subject to many restrictions on causing undoubtedly using, portable poor, and has reduced to a certain extent user's experience.

Summary of the invention

In view of this, be necessary to provide a kind of sound equipment, thereby overcome the above problems.

The invention provides a kind of sound equipment, comprise the housing of a hollow, this housing has a receiving space, and this sound equipment also comprises: a vibration dielectric layer, be installed on this housing, and this vibration dielectric layer part is placed in receiving space, and this housing is stretched out in one end; At least one vibrator, each vibrator contacts with the part that this vibration dielectric layer is positioned at this receiving space; One wireless communication unit; And a processor, being electrically connected on each vibrator, this processor, at least when this sound equipment receives a wireless signal by this wireless communication unit, is controlled each vibrator vibration, thereby drives this vibration dielectric layer to vibrate and make its sounding.

Sound equipment of the present invention has wireless communication unit, can be receiving sounding after wireless signal, and simple in structure, be easy to carry.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the sound equipment in the present invention's one preferred embodiments.

Fig. 2 is the schematic perspective view of the sound equipment shown in Fig. 1 in another angle.

Fig. 3 is the exploded view of the sound equipment shown in Fig. 1.

Fig. 4 is the hardware Organization Chart of the sound equipment shown in Fig. 1.

Main element symbol description

Following detailed description of the invention further illustrates the present invention in connection with above-mentioned accompanying drawing.

Detailed description of the invention

Fig. 1 and Fig. 2 illustrate the sound equipment 1 in the present invention's one preferred embodiments. This sound equipment 1 comprises that the housing 10 and of a hollow is installed on the vibration dielectric layer 20 of this housing 10. The material of this vibration dielectric layer 20 can be glass, metal etc.

Please with reference to Fig. 3, this housing 10 comprises a base 11, a protecgulum 12, a bonnet 13 and a upper cover 14. This protecgulum 12 and this bonnet 13 are fixed between this base 11 and this upper cover 14, thereby make this housing 10 have the receiving space (not shown) jointly being formed by this base 11, this protecgulum 12, this bonnet 13 and this upper cover 14. Certainly, this base 11, this protecgulum 12, this bonnet 13 and this upper cover 14 also can be formed in one. This upper cover 14 offers a fluting 140. These vibration dielectric layer 20 parts are placed in receiving space, and one end 21 is through this fluting 140 and stretch out this housing 10. In the present embodiment, be provided with two holders 15 in this receiving space, it is individually fixed in the junction of this protecgulum 12 and this bonnet 13. Described holder 15 is for clamping the edge 22 of these vibration dielectric layer 20 both sides, thereby this vibration dielectric layer 20 is fixed in this receiving space.

Please with reference to Fig. 4, this sound equipment 1 also comprises at least one vibrator 30, a processor 40 and a wireless communication unit 50. Each vibrator 30 contacts with the part that this vibration dielectric layer 20 is positioned at this receiving space. This processor 40 is electrically connected on each vibrator 30. This processor 40, at least in the time that this sound equipment 1 receives a wireless signal by this wireless communication unit 50, is controlled each vibrator 30 and is vibrated, thereby drive this vibration dielectric layer 20 to vibrate and make its sounding. Wherein, this wireless communication unit 50 can be bluetooth-communication unit or WiFi communication unit, and this processor 40 and this wireless communication unit 50 are all positioned at this receiving space. In the present embodiment, in the time that this sound equipment 1 receives described wireless signal, this processor 40 judges whether the intensity of this wireless signal is greater than a preset value, and in the time that the intensity of this wireless signal is greater than this preset value, just controls each vibrator 30 and vibrate. In this case, this sound equipment 1 also comprises a memory (not shown), for storing this preset value. Wherein, the bottom of this base 11 is provided with at least one crash roll (not shown), for preventing that this sound equipment 1 from affecting sounding effect in the upper vibration of supporting surface (as desktop) in the time that vibrator 30 vibrates. This crash roll can adopt rubber to make.

Please with reference to Fig. 2 to Fig. 4, in the present embodiment, this bonnet 13 offers a through hole 130. Stretch out away from the direction of this protecgulum 12 from the inwall edge of this through hole 130 one convex extension part 131. This convex extension part 131 has a mesh lid 133 away from the end of this through hole 130. One woofer 132 is fixed in this convex extension part 131, and it is between this through hole 130 and this mesh lid 133 and relative with this mesh lid 133. This processor 40 is electrically connected with this woofer 132, for control this woofer 132 sounding in the time receiving described wireless signal. Wherein, the frequency response range of this woofer 132 is less than 200Hz, can make up the problem of this sound equipment 1 bass effect deficiency.

In the present embodiment, this convex extension part 131 is a knob, and it can rotate with respect to this bonnet 13. In this convex extension part 131, be provided with a potentiometer (not shown), and this convex extension part 131 is connected with the rotating shaft of this potentiometer. In the time that user rotates this convex extension part 131, this potentiometer rotates around its rotating shaft, thereby changes the resistance of this potentiometer. This processor 40 is also for when controlling each vibrator 30 while vibrating, the resistance value of this potentiometer of detecting real-time, and change the vibration parameters of each vibrator 30 according to this resistance value, thus regulate the volume of this sound equipment 1 sounding. Wherein, described vibration parameters is Oscillation Amplitude or the frequency of this vibrator 30. In another embodiment, this convex extension part 131 is fixing with respect to this bonnet 13. The surface of this convex extension part 131 is provided with a touch face glass (not shown). This touch face glass is used for responding to first touch control operation of user on this convex extension part 131, and generates corresponding the first touching signals. This processor 40 is when controlling each vibrator 30 while vibrating, this first touching signals of Real-time Obtaining, and change the vibration parameters of each vibrator 30 according to this first touching signals. Wherein, described the first touch control operation can be on this touch face glass surface around the axis of convex extension part 131 slide clockwise or counterclockwise.

Further, the material of this vibration dielectric layer 20 is glass. In this receiving space, be also provided with at least one illuminating part (as LED lamp) 60, itself and this processor 40 is electrically connected. Described illuminating part 60 is fixed on a fixed head 61, and this fixed head 61 closes on this vibration dielectric layer 20 and arranges. This processor 40 also, in the time that each vibrator 30 of control vibrates, control described illuminating part 60 luminous, and the luminous parameters of illuminating part 60 is corresponding one by one with the vibration parameters of described vibrator 30. Wherein, described luminous parameters can be color or the intensity of illuminating part 60 light emitted lines. In the present embodiment, described luminous parameters is the intensity of illuminating part 60 light emitted lines, and described vibration parameters is the Oscillation Amplitude of this vibrator 30, and described luminous parameters is directly proportional to described vibration parameters. Thereby, the Oscillation Amplitude larger (volume of vibrating dielectric layer 20 sounding is larger) of this vibrator 30, the luminous intensity of illuminating part 60 is also just larger. The light that described illuminating part 60 is launched can be viewed and admired for user after deriving via this vibration dielectric layer 20.

Further, the material of this vibration dielectric layer 20 is glass, and its at least one surface is provided with conductive layer, and this conductive layer adopts transparent conductive material (as CNT, tin indium oxide or superfineization metallic circuit) to make. , this vibration dielectric layer 20 is a touch face glass. This vibration dielectric layer 20 is for responding to user at described lip-deep the second touch control operation, and generates corresponding the second touching signals. This processor 40 also, in the time that each vibrator 30 of control vibrates, is identified the track of this second touch control operation according to described the second touching signals. When this track is with one first desired trajectory when consistent, this processor 40 is controlled each vibrator 30 and is stopped vibration, stops sounding thereby control this vibration dielectric layer 20. When this track is with one second desired trajectory when consistent, this processor 40 is again controlled each vibrator 30 and is vibrated, thereby controls this vibration dielectric layer 20 sounding again. Wherein, this sound equipment 1 also comprises a memory (not shown), for storing described the first desired trajectory and the second desired trajectory.

Further, the material of this vibration dielectric layer 20 is glass, and it is held the edge 22 of the both sides that part 15 clamps and is also provided with conductive layer through this fluting 140 end 21 of stretching out this housing 10. This vibration dielectric layer 20 is also for responding to three touch control operation of user at described edge, and produces corresponding the 3rd touching signals. This processor 40 is also in the time that each vibrator 30 of control vibrates, judge the moving direction of the 3rd touch control operation on described edge according to described the 3rd touching signals, and change the vibration parameters of each vibrator 30 according to the moving direction of the 3rd touch control operation.

Those skilled in the art will be appreciated that; above embodiment is only for the present invention is described; and be not used as limitation of the invention; as long as within connotation scope of the present invention, within the appropriate change that above embodiment is done and variation all drop on the scope of protection of present invention.

Claims (12)

1. a sound equipment, comprises the housing of a hollow, and this housing has a receiving space, it is characterized in that, this sound equipment also comprises:

One vibration dielectric layer, is installed on this housing, and this vibration dielectric layer part is placed in receiving space, and this housing is stretched out in one end;

At least one vibrator, each vibrator contacts with the part that this vibration dielectric layer is positioned at this receiving space;

One wireless communication unit; And

One processor, is electrically connected on each vibrator, and this processor, at least when this sound equipment receives a wireless signal by this wireless communication unit, is controlled each vibrator vibration, thereby drives this vibration dielectric layer to vibrate and make its sounding.

2. sound equipment as claimed in claim 1, is characterized in that, this housing comprises a upper cover, and this upper cover offers a fluting, and the described end of this vibration dielectric layer is through this fluting and stretch out this housing.

3. sound equipment as claimed in claim 1, is characterized in that, is provided with two holders in this receiving space, for clamping the edge of these vibration dielectric layer both sides, thereby this vibration dielectric layer is fixed in this receiving space.

4. sound equipment as claimed in claim 1, it is characterized in that, this processor, in the time that this sound equipment receives described wireless signal, judges whether the intensity of this wireless signal is greater than a preset value, and in the time that the intensity of this wireless signal is greater than this preset value, just controls each vibrator vibration.

5. sound equipment as claimed in claim 2, is characterized in that, this housing also comprises a base and be fixed in a protecgulum and the bonnet on this base, and this bonnet offers a through hole, a convex extension part from the inwall of this through hole along stretching out away from the direction of this protecgulum.

6. sound equipment as claimed in claim 5, is characterized in that, a woofer is fixed in this convex extension part, and this processor and this woofer are electrically connected, for control this woofer sounding in the time receiving described wireless signal.

7. sound equipment as claimed in claim 5, it is characterized in that, this convex extension part can be rotated with respect to this bonnet, in this convex extension part, be provided with a potentiometer, this convex extension part of the electrical resistance of this potentiometer is rotated and is changed, and this processor is also in the time controlling each vibrator and vibrate, the resistance value of this potentiometer of detecting real-time, and change the vibration parameters of each vibrator according to this resistance value, thereby regulate the volume of this sound equipment sounding.

8. sound equipment as claimed in claim 5, it is characterized in that, this convex extension part is fixed with respect to this bonnet, the surface of this convex extension part is provided with a touch face glass, and it is for responding to first touch control operation of user on this convex extension part, and generates corresponding the first touching signals, this processor is in the time controlling each vibrator vibration, this first touching signals of Real-time Obtaining, and change the vibration parameters of each vibrator according to this first touching signals, thus regulate the volume of this sound equipment sounding.

9. sound equipment as claimed in claim 1, it is characterized in that, the material of this vibration dielectric layer is glass, in this receiving space, be also provided with at least one illuminating part, itself and this processor is electrically connected and closes on this vibration dielectric layer setting, this processor is also luminous for control described illuminating part in the time controlling the vibration of each vibrator, and the luminous parameters of illuminating part and the vibration parameters of described vibrator corresponding one by one.

10. sound equipment as claimed in claim 9, is characterized in that, described luminous parameters is the intensity of the light emitted line of illuminating part, the Oscillation Amplitude that described vibration parameters is this vibrator, and described luminous parameters is directly proportional to described vibration parameters.

11. sound equipments as claimed in claim 1, it is characterized in that, the material of this vibration dielectric layer is glass, its at least one surface is provided with conductive layer, this vibration dielectric layer is used for responding to user at described lip-deep the second touch control operation, and generate corresponding the second touching signals, this processor is also in the time controlling each vibrator vibration, identify the track of this second touch control operation according to described the second touching signals, control each vibrator when consistent when this track and one first desired trajectory and stop vibration, and when this track and one second desired trajectory are controlled each vibrator vibration when consistent again.

12. sound equipments as claimed in claim 3, it is characterized in that, the material of this vibration dielectric layer is glass, described edge and end are provided with conductive layer, this vibration dielectric layer is also for responding to three touch control operation of user at described edge, and produce corresponding the 3rd touching signals, this processor is also in the time controlling each vibrator vibration, judge the moving direction of the 3rd touch control operation on described edge according to described the 3rd touching signals, and change the vibration parameters of each vibrator according to the moving direction of the 3rd touch control operation, thereby regulate the volume of this sound equipment sounding.