CN104881058A - Vibration system possessing interaction function - Google Patents

Abstract

A vibration system possessing an interaction function comprises a first vibration terminal and a second vibration terminal, and the first vibration terminal comprises a first main control chip, and a first vibration motor, a first vibration sensor, a first control button and a first wireless transmission unit which are connected with the first main control chip separately. The first vibration sensor detects a vibration signal of the first vibration motor and sends the detected vibration signal to the second vibration terminal via the wireless transmission unit, and a second wireless transmission unit of the second vibration terminal receives the vibration signal of the first vibration terminal and sends the vibration signal to a second vibration motor to execute. According to the present invention, by the interaction of the first and second vibration terminals, the dependence on a mobile phone is got rid, and the second vibration terminal can receive an external force vibration signal on the first vibration terminal, so that the interactive two parties can interact with each other by just depending on equipment at interaction, the vibration control can be carried out naturally, and the use experience is improved.

Description

There is the vibrational system of interactive function

Technical field

The present invention relates to sex aids field, be specifically related to a kind of vibrational system with interactive function.

Background technology

Along with the raising of people's living standard, the idea of people to property is liberated gradually, also more and more higher to the requirement of property, and vibrating head and ricochet are the articles for use required for meeting property.Existing vibrating head and ricochet are by several button control motor oscillating pattern and oscillation intensity, its control model is fixed, function singleness, there is no display interface, cannot show concrete mode of operation, user only has the pattern just knowing selection during use, and only has a mode switching key cyclic switching pattern, select single, the pattern making user be difficult to directly to enter user to like.And existing vibrating head surface moisture cannot manual control, can not meet user demand very well in use.

And along with strange land separation man and wife get more and more, how enabling Mr. and Mrs' remote interaction meet sexual demand, is also society problem demanding prompt solution.

Therefore, prior art existing defects, needs further improvement and development.

Summary of the invention

The object of this invention is to provide a kind of vibrational system that each other can be interactive, make the more intelligent and hommization of Mature Audiences.

To achieve these goals, the present invention adopts following technical scheme:

There is the vibrational system of interactive function, wherein,

Comprise the first vibration terminal and the second vibration terminal;

Described first vibration terminal, comprises the first main control chip, is connected to the first vibrating motor on described first main control chip, the first vibration transducer, the first control knob, the first wireless transmission unit and the first power supply;

The vibration signal of described first vibrating motor of described first vibration transducer detection, and the vibration signal of detection is sent to the second vibration terminal by wireless transmission unit;

Described second vibration terminal, comprises the second main control chip, is connected to the second source on described main control chip, the second vibrating motor, the second vibration transducer, the second control knob and the second wireless transmission unit;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described first vibration terminal, and is sent to by described vibration signal the second vibrating motor to perform.

Described vibrational system, wherein, described first vibration terminal and the second vibration terminal are vibrating head, vibrating ball respectively.

Described vibrational system, wherein, described first vibration transducer detects the amplitude of the first vibration terminal, and is encoded by detection amplitude, and detection amplitude is converted to encoded radio, and by the first wireless transmission unit, encoded radio is sent to the second vibration terminal.

Described vibrational system, wherein, detection amplitude is sent to the first main control chip by described first vibration transducer, is encoded by the first main control chip.

Described vibrational system, wherein, described second vibration terminal receives described encoded radio by the second wireless transmission unit, and is sent to by encoded radio described second main control chip to resolve, and sends to described second vibrating motor to perform the amplitude after resolving.

Described vibrational system, wherein, described first main control chip pre-arranged code is interval, be 0-255 between described code area, 0 represents current not motion, 255 represent amplitude maximum in test specification, changed in proportion by detection amplitude, obtain an encoded radio between 0-255 according to amplitude corresponding between code area.

Described vibrational system, wherein, the second main control chip connects described second vibrating motor by having the common I/O interface of square wave, the control register of square wave is set to 8 outputs, comprise the output valve of 0-255, make control register export numerical range corresponding with encoded radio interval; Control register receives encoded radio, changes the dutycycle of square wave output by the value of control register being changed into encoded radio, and 0 represents do not have voltage to export, and 255 represent that maximum voltages export; Described control register, by changing dutycycle, adjusts the oscillation intensity of the second vibrating motor.

Described vibrational system, wherein, also comprises the first communicating terminal and the second communicating terminal, and described first vibration terminal connects the first communicating terminal by wireless signal, and described second terminal connects described second communicating terminal by wireless signal;

The vibration signal of detection is sent to the first communicating terminal by wireless transmission unit by described first vibration transducer, and vibration signal is sent to the second communicating terminal by described first communicating terminal;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described second communicating terminal, and is sent to by described vibration signal the second vibrating motor to perform.

Described vibrational system, wherein, the amplitude of detection is sent to the first communicating terminal by the first wireless transmission unit by described first vibration transducer, and the amplitude of detection is encoded by described first communicating terminal, be converted to encoded radio, then encoded radio sent to the second communicating terminal; Described second communicating terminal received code value, and decode, encoded radio is decoded as amplitude, and amplitude is sent to the second vibration terminal, receive amplitude by the second vibrating motor and perform.

Described vibrational system, wherein, also comprises the first communicating terminal and the second communicating terminal, and described first vibration terminal connects the first communicating terminal by wireless signal, and described second terminal connects described second communicating terminal by wireless signal;

Between described first communicating terminal and the second communicating terminal, also server is set,

The vibration signal of detection is sent to the first communicating terminal by wireless transmission unit by described first vibration transducer, and vibration signal is sent to the second communicating terminal by described server by described first communicating terminal;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described second communicating terminal, and is sent to by described vibration signal the second vibrating motor to perform.

The vibrational system with interactive function provided by the invention, controls the oscillation intensity of the second vibration terminal by the motion amplitude of the first vibration terminal; When there is the first communicating terminal and the second communicating terminal in vibrational system, after setting up data transmission channel by the first communicating terminal and the second communicating terminal, first vibration terminal and the interactive both sides of the second vibration terminal have just broken away from the dependence to mobile phone, second vibration terminal can receive the external force vibration signal in the first vibration terminal, interactive both sides can be allowed when interaction so only to rely on equipment and just can complete interaction, very naturally to carry out shake control, experience can also be promoted.

Accompanying drawing explanation

Fig. 1 is the structural representation with the first preferred embodiment of the vibrational system of interactive function of the present invention;

Fig. 2 is the structural representation with the first vibration terminal of interactive function of the present invention;

Fig. 3 is the structural representation with the second preferred embodiment of the vibrational system of interactive function of the present invention;

Fig. 4 is the structural representation with the 3rd preferred embodiment of the vibrational system of interactive function of the present invention.

Embodiment

Below in conjunction with preferred embodiment, the present invention is described in further details.

The invention provides a kind of vibration terminal and the system with interactive function, the described vibrational system with interactive function, its first preferred embodiment, as shown in Figure 1, namely there is the vibrational system 100 of interactive function, comprise the first vibration terminal 110 and the second vibration terminal 120, described first vibration terminal 110 can control the vibration of the second terminal 120.Described first vibration terminal is identical with the circuit structure of the second vibration terminal, and external structure can be different, and the motion controlling the second vibration terminal for the first vibration terminal by the motor message detecting self here describes in detail.

Described first vibration terminal 110, as shown in Figure 2, comprises the first main control chip, is connected to the first vibrating motor on described first main control chip, the first vibration transducer, the first control knob, the first wireless transmission unit and the first power supply; The vibration signal of described first vibrating motor of described first vibration transducer detection, and the vibration signal of detection is sent to the second vibration terminal 120 by wireless transmission unit.Described first power supply is the first wireless transmission unit, the first main control chip, the first vibration transducer, the first vibrating motor and the first control knob are powered.

Described second vibration terminal 120, comprises the second main control chip, is connected to the second source on described main control chip, the second vibrating motor, the second vibration transducer, the second control knob and the second wireless transmission unit.Second wireless transmission unit of described second vibration terminal 120 receives the vibration signal of described first vibration terminal, and is sent to by described vibration signal the second vibrating motor to perform.

Described first vibration terminal 110 and the second vibration terminal 120 can be the Mature Audiences such as vibrating head, vibrating ball respectively, do not limit here.

Between described first vibration terminal 110 and the second vibration terminal 120, the preferred embodiment of vibration signal transmission is as follows:

Preferably, described first vibration transducer real-time detects the motion amplitude of the first vibration terminal, comprise the amplitude acting on the first vibration terminal that the external force in described first vibration terminal 110 causes, detection amplitude is sent to described first main control chip by described first vibration transducer.Described first main control chip is encoded to detection amplitude.Described first main control chip pre-arranged code is interval, preferably 0-255 between described code area, 0 represents current not motion, and 255 represent amplitude maximum in test specifications, detection amplitude is changed in proportion according to amplitude corresponding between code area, obtains an encoded radio between 0-255.The encoded radio of the first vibration terminal is sent to the second vibration terminal by the first wireless transmission unit by described first main control chip.

Described first vibration terminal comprises the vibration of the first vibrating motor self, also comprises the vibration receiving external force simultaneously, the vibration that such as hand is made the first vibration terminal.Described first vibration transducer cannot differentiate the vibration that vibration or external force from the first vibrating motor are made, the composite signal of what its received is the first vibrating motor and external force vibration.

In order to distinguish vibration that the first vibrating motor made itself or the vibration that external force is made, the present invention can also arrange the first wave filter between described first vibration transducer and the first main control chip, use described first wave filter, carry out the vibration frequency of the vibrating motor of filtering out high-frequency itself, thus obtain the vibration signal vibrating people in terminal, really accomplish that distinguishing motor is from the vibrations of vibrating motor or the shake from user's hand.

The present invention can by arranging different filtering modes to the first wave filter, to reach the object distinguishing different motion source.

First vibration terminal receives the vibration that the external force beyond vibrating motor is given, such as the motion of staff and the vibrations of vibrating motor, the filtering threshold of 100hz is set, first vibration terminal just can vibrate the vibration signal of the vibrating motor that just can filter more than 100HZ, retains the motor message of the staff of below 100HZ.

Described second vibration terminal receives described encoded radio by the second wireless transmission unit, and sent to by encoded radio described second main control chip to resolve, and send to described second vibrating motor to perform the amplitude after resolving, to realize the control of the first vibration terminal to the second vibration terminal.

The another one preferred embodiment that described second vibration terminal performs encoded radio is as follows, second vibration terminal of the present invention, described second main control chip can connect described second vibrating motor by IO bus, IO bus comprises the I/O port that square wave exports, the I/O port with square wave output of the second main control chip of the second vibration terminal is arranged to square wave and is exported, and can also make described second vibrating motor of I/O interface connection that the second main control chip exports by having square wave.The control register of square wave is set to 8 outputs by the present invention, comprises the output valve of 0-255, makes control register export numerical range corresponding with encoded radio interval.Control register receives encoded radio, changes the dutycycle of square wave output by the value of control register being changed into encoded radio, and 0 represents do not have voltage to export, and 255 represent that maximum voltages export.Described control register, by changing dutycycle, adjusts the oscillation intensity of the second vibrating motor, involving vibrations amplitude.

Described first vibration terminal 110 directly controls the amplitude of the second vibration terminal 120 vibration by the detection of self amplitude, greatly improve the experience of Mature Audiences remote interaction, effectively solve the sexual life problem between strange land man and wife, lovers.And the present invention first vibrate terminal by self optical amplitude encoding be setting code area between a numeral, decrease the data volume of transmission between the first vibration terminal 110 and the second vibration terminal 120, add transmission speed, the first vibration terminal 110 and the second vibration terminal 120 and execution speed can be improved.

Described first vibration terminal 110 and the second vibration terminal 120 can be referred to as vibration terminal, described first main control chip and the second main control chip are referred to as main control chip, described first control knob and the second control knob are referred to as control knob, first vibration transducer and the second vibration transducer are referred to as vibration transducer, first vibrating motor and the second vibrating motor are referred to as vibrating motor, first wireless transmission unit and the second wireless transmission unit are referred to as wireless transmission unit, and the first power supply and second source are referred to as power supply.

The present invention has the vibrational system of interactive function, its second preferred embodiment, because if the first vibration terminal and the second vibration terminal have long-range communicating terminal control inputs steering order, effectively can improve the function of vibration terminal, and the convenience of operation.Therefore, the present invention has the vibrational system of interactive function, its second preferred embodiment, and there is the vibrational system 200 of interactive function, as shown in Figure 3, described first vibration terminal 110 connects the first communicating terminal 130 by wireless signal, and described second terminal 120 connects described second communicating terminal 140 by wireless signal; Described first communicating terminal 130 controls described first vibration terminal 110, transmits control signal to described first vibration terminal 110, and described first vibration terminal 110 reception control signal also performs.Described control signal can be vibration mode, and described first vibration terminal 110 reception control signal also performs.Detected the amplitude of the first vibrating motor by the first vibration transducer, encoded by amplitude, amplitude is converted to encoded radio, described encoded radio is the numeral between 0-255, then encoded radio is sent to the first communicating terminal.

Described first vibration terminal and the second vibration terminal can be complete at the first main control chip and the second main control chip respectively to the coding of amplitude, also can be that the amplitude of detection is sent to the first communicating terminal by the first wireless transmission unit by described first main control chip, the amplitude of detection is encoded by described first communicating terminal, be converted to encoded radio, described encoded radio is the numeral between 0-255, then encoded radio is sent to the second communicating terminal.Described second communicating terminal received code value, and decode, encoded radio is decoded as amplitude, and amplitude is sent to the second vibration terminal, receive amplitude by the second vibrating motor and perform.

The Code And Decode of the amplitude of described first vibration terminal and the second vibration terminal, this can complete in vibration terminal, also can complete on communicating terminal, not limit here.

Described first vibration terminal and the second vibration terminal can after setting up data transmission channel by the first communicating terminal and the second communicating terminal, and whole data exchange process can be completely free of the dependence to mobile phone.The Oscillation Amplitude of described first communicating terminal, can have the first communicating terminal to be controlled by vibration mode, also can Non-follow control, does not limit here.

Traditional Mature Audiences Vib. controls intensity and the mode of vibrations by button, or utilize bluetooth to control by third party device, a kind of vibration terminal with interactive function provided by the invention, the shockproofness of the second vibration terminal can also be controlled to the motion amplitude of the first vibration terminal and amplitude by detecting user, system utilizes vibration transducer motion amplitude to control shockproofness, thus very naturally to carry out shake control, experience can be promoted.

Described first communicating terminal 130 and the second communicating terminal 140 can be the various intelligent terminals with screen such as mobile phone, PAD, intelligent watch, do not limit here.

First communicating terminal 130 can set up interaction data passage by the xmpp agreement of expansion with the second communicating terminal.The encoded radio received is sent to the second vibration terminal 120 by described second communicating terminal 140.

Described second vibration terminal receives described encoded radio by the second wireless transmission unit, and sent to by encoded radio described second vibration transducer to resolve, and send to described second vibrating motor to perform the amplitude after resolving, to realize the control of the first vibration terminal to the second vibration terminal.

The present invention has the vibrational system of interactive function, its the 3rd preferred embodiment, namely there is the vibrational system 300 of interactive function, as shown in Figure 4, this embodiment is with the difference of the second preferred embodiment, between the first communicating terminal 130 and the second communicating terminal 140, add server 150, other identical technical characteristics and technical scheme repeat no more here.

Described first communicating terminal 130 and the second communicating terminal 140 carry out the transfer of data by server, can store, analyze the data of user.Described server 150 preferably xmpp server.

The vibrational system with interactive function provided by the invention, controls the oscillation intensity of the second vibration terminal by the motion amplitude of the first vibration terminal; When there is the first communicating terminal and the second communicating terminal in vibrational system, after setting up data transmission channel by the first communicating terminal and the second communicating terminal, first vibration terminal and the interactive both sides of the second vibration terminal have just broken away from the dependence to mobile phone, second vibration terminal can receive the external force vibration signal in the first vibration terminal, interactive both sides can be allowed when interaction so only to rely on equipment and just can complete interaction, very naturally to carry out shake control, experience can also be promoted.

Above content is the explanation to preferred embodiment of the present invention, and those skilled in the art can be helped to understand technical scheme of the present invention more fully.But these embodiments only illustrate, can not assert that the specific embodiment of the present invention is only limitted to the explanation of these embodiments.

Claims (10)

1. there is the vibrational system of interactive function, it is characterized in that,

Comprise the first vibration terminal and the second vibration terminal;

Described first vibration terminal, comprises the first main control chip, is connected to the first vibrating motor on described first main control chip, the first vibration transducer, the first control knob, the first wireless transmission unit and the first power supply;

The vibration signal of described first vibrating motor of described first vibration transducer detection, and the vibration signal of detection is sent to the second vibration terminal by wireless transmission unit;

Described second vibration terminal, comprises the second main control chip, is connected to the second source on described main control chip, the second vibrating motor, the second vibration transducer, the second control knob and the second wireless transmission unit;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described first vibration terminal, and is sent to by described vibration signal the second vibrating motor to perform.

2. vibrational system according to claim 1, is characterized in that, described first vibration terminal and the second vibration terminal are vibrating head, vibrating ball respectively.

3. vibrational system according to claim 1, it is characterized in that, described first vibration transducer detects the amplitude of the first vibration terminal, and is encoded by detection amplitude, detection amplitude is converted to encoded radio, and by the first wireless transmission unit, encoded radio is sent to the second vibration terminal.

4. vibrational system according to claim 3, is characterized in that, detection amplitude is sent to the first main control chip by described first vibration transducer, is encoded by the first main control chip.

5. vibrational system according to claim 4, it is characterized in that, described second vibration terminal receives described encoded radio by the second wireless transmission unit, and is sent to by encoded radio described second main control chip to resolve, and sends to described second vibrating motor to perform the amplitude after resolving.

6. vibrational system according to claim 3, it is characterized in that, described first main control chip pre-arranged code is interval, be 0-255 between described code area, 0 represents current not motion, 255 represent amplitude maximum in test specification, changed in proportion by detection amplitude, obtain an encoded radio between 0-255 according to amplitude corresponding between code area.

7. vibrational system according to claim 6, it is characterized in that, second main control chip connects described second vibrating motor by having the common I/O interface of square wave, the control register of square wave is set to 8 outputs, comprise the output valve of 0-255, make control register export numerical range corresponding with encoded radio interval; Control register receives encoded radio, changes the dutycycle of square wave output by the value of control register being changed into encoded radio, and 0 represents do not have voltage to export, and 255 represent that maximum voltages export; Described control register, by changing dutycycle, adjusts the oscillation intensity of the second vibrating motor.

8. vibrational system according to claim 1, it is characterized in that, also comprise the first communicating terminal and the second communicating terminal, described first vibration terminal connects the first communicating terminal by wireless signal, and described second terminal connects described second communicating terminal by wireless signal;

The vibration signal of detection is sent to the first communicating terminal by wireless transmission unit by described first vibration transducer, and vibration signal is sent to the second communicating terminal by described first communicating terminal;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described second communicating terminal, and is sent to by described vibration signal the second vibrating motor to perform.

9. vibrational system according to claim 8, it is characterized in that, the amplitude of detection is sent to the first communicating terminal by the first wireless transmission unit by described first vibration transducer, the amplitude of detection is encoded by described first communicating terminal, be converted to encoded radio, then encoded radio sent to the second communicating terminal; Described second communicating terminal received code value, and decode, encoded radio is decoded as amplitude, and amplitude is sent to the second vibration terminal, receive amplitude by the second vibrating motor and perform.

10. vibrational system according to claim 1, it is characterized in that, also comprise the first communicating terminal and the second communicating terminal, described first vibration terminal connects the first communicating terminal by wireless signal, and described second terminal connects described second communicating terminal by wireless signal;

Between described first communicating terminal and the second communicating terminal, also server is set,

The vibration signal of detection is sent to the first communicating terminal by wireless transmission unit by described first vibration transducer, and vibration signal is sent to the second communicating terminal by described server by described first communicating terminal;

Second wireless transmission unit of described second vibration terminal receives the vibration signal of described second communicating terminal, and is sent to by described vibration signal the second vibrating motor to perform.