CN203720573U - Vibration rod with pressure control function and control system thereof - Google Patents

Abstract

The utility model discloses a vibration rod with a pressure control function and a control system thereof. The vibration rod control system comprises the vibration rod and an intelligent terminal. The vibration rod comprises a first wireless communication module, a pressure sensor used for detecting the pressure of the head of the body of the vibration rod in real time, and a first control module which is used for processing pressure detection signals and transmitting processed pressure detection signals through the first wireless communication module, and processing pressure setting signals received by the first wireless communication module and controlling a motor module to perform corresponding vibration according to the pressure setting signals; and the intelligent terminal comprises a second wireless communication module, an input module which is used for receiving pressure setting signals inputted by a user, a second control module which is used for processing pressure detection signals and processing pressure setting signals from the input module, and a display module which is used for displaying processed pressure detection signals. With the vibration rod and the vibration rod control system provided by the technical scheme of the utility model adopted, user experiences can be greatly improved.

Description

Vibrating spear with pressure control function and control system thereof

Technical Field

The utility model belongs to the technical field of the mobile internet and specifically relates to a take pressure control's vibrting spear and control system thereof is related to.

Background

With the improvement of living standard, people gradually release the concept of sex and have higher requirements on sex, and a vibrating spear is a female masturbation tool, as shown in figure 1. However, at present, when a user uses the vibrating bar, the user can set the mode and the vibration intensity only through a few keys 141, 142 and 143 on the vibrating bar, the function is single, and the user experience is not good.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the not good defect of above-mentioned user experience among the prior art, provide a vibrating spear and control system of pressure control that user experience is good.

The utility model provides a technical scheme that its technical problem adopted is: a vibrating spear control system with pressure control is constructed, the vibrating spear comprises a spear body and a motor module arranged in the spear body, the vibrating spear control system also comprises an intelligent terminal, wherein,

the vibrating rod further includes:

the first wireless communication module is arranged in the rod body and is used for realizing wireless communication with the intelligent terminal;

the pressure sensor is arranged in the rod head and is used for detecting the pressure of the rod head in real time to generate a pressure detection signal;

the first control module is arranged in the rod body, is connected with the pressure sensor, the first wireless communication module and the motor module, and is used for processing the pressure detection signal, sending the processed pressure detection signal through the first wireless communication module, processing the pressure setting signal received through the first wireless communication module and controlling the motor module to vibrate correspondingly according to the pressure setting signal;

the intelligent terminal further comprises:

the second wireless communication module is used for realizing wireless communication with the vibrating spear;

the input module is used for receiving a pressure setting signal input by a user;

the second control module is connected with the second wireless communication module and the input module and is used for processing the pressure detection signal received by the second wireless communication module and processing the pressure setting signal from the input module;

and the display module is connected to the second control module and is used for displaying the processed pressure detection signal.

In the vibrating bar control system with pressure control of the present invention, the first wireless communication module includes at least one of the following: the system comprises a WIFI module, a Bluetooth module, a 3G/4G module, a ZigBee module, a UWB module and an infrared module;

the second wireless communication module includes at least one of: WIFI module, bluetooth module, 3G 4G module, zigBee module, UWB module, infrared module.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

the key module is arranged on the rod body, connected to the first control module and used for receiving a power on/off setting signal and a mode selection signal.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

the indication module is arranged on the rod body, connected to the first control module and used for indicating the working state of the vibrating rod.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

the battery interface is arranged in the rod body and used for accessing a battery;

the power management module is arranged in the rod body, connected to the first control module and used for processing the voltage of the battery to supply power to the pressure sensor and the first control module.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

the detection module is arranged in the rod body and used for detecting the electric quantity of the battery; furthermore, it is possible to provide a liquid crystal display device,

the first control module processes the detected electric quantity information and sends the electric quantity information to the intelligent terminal through the first wireless communication module, and the second control module of the intelligent terminal processes the electric quantity information received through the second wireless communication module and displays the electric quantity information through the display module.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

and the charging module is arranged in the rod body and is used for processing the voltage of an external power supply so as to charge the battery.

In the vibrating spear control system with pressure control of the utility model, the vibrating spear still includes:

the camera is arranged on the head of the rod body, is connected to the first control module and is used for collecting video information of a monitoring area; furthermore, it is possible to provide a liquid crystal display device,

the first control module sends the processed video information to the intelligent terminal through the first wireless communication module, and the second control module of the intelligent terminal processes the video information received through the second wireless communication module and displays the video information through the display module.

In the vibrating bar control system with pressure control of the present invention, the second control module of the intelligent terminal processes the temperature setting value received by the input module and sends the temperature setting value to the vibrating bar through the second wireless communication module;

the vibrating rod further includes:

the temperature sensor is arranged in the rod body, is connected to the first control module and is used for detecting the temperature of the rod body in real time;

and the electric heating wire module is arranged in the rod body, is connected to the first control module and is used for heating according to a temperature set value.

The utility model discloses still construct a take pressure control's vibrting spear, be in including barred body and setting the internal motor module of barred body, the vibrting spear still includes:

the first wireless communication module is arranged in the rod body and is used for realizing wireless communication with the intelligent terminal;

the pressure sensor is arranged in the rod head and is used for detecting the pressure of the rod head in real time to generate a pressure detection signal;

the setting is in the stick is internal, connect in pressure sensor first wireless communication module with motor module, and be used for right the pressure detection signal handles and passes through the pressure detection signal after will handling first wireless communication module sends to intelligent terminal, and to passing through first wireless communication module receives the pressure setting signal who comes from intelligent terminal and handles, and according to pressure setting signal control motor module carries out the first control module of corresponding vibration.

Implement the technical scheme of the utility model, because the vibrting spear is establishing with intelligent terminal and is being connected the back, current pressure measurement value is looked over to user's accessible intelligent terminal, and the pressure setting value through intelligent terminal input vibrting spear, and in addition, the vibrting spear can be according to this pressure setting value automatically regulated intensity of vibration, consequently, has good user interface, and has improved user participation and has felt, has improved user experience greatly.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is an external structural view of a vibration rod in the prior art;

FIG. 2 is a logic block diagram of a first embodiment of a vibrating rod control system with pressure control according to the present invention;

FIG. 3 is a logic block diagram of a second embodiment of a vibrating rod control system with pressure control according to the present invention;

fig. 4A-4J are circuit diagrams of a third embodiment of a vibrating spear in a vibrating spear control system with pressure control according to the present invention.

Detailed Description

Fig. 2 is a logic block diagram of a first embodiment of the vibrating-stick control system with pressure control according to the present invention, where the vibrating-stick control system of this embodiment includes a vibrating stick 10 and a smart terminal 20, and the smart terminal 20 is, for example, a smart phone, a tablet computer, or other types of terminal devices. The vibrating bar 10 includes a bar body, and a first control module 11, a first wireless communication module 12, a pressure sensor 13 and a motor module 14 which are disposed in the bar body, wherein the first wireless communication module 12, the pressure sensor 13 and the motor module 14 are respectively connected to the first control module 11. The number of motors in the motor module 14 may be two, one being disposed at the head of the body of the vibrating rod and the other being disposed at a branch portion laterally extending from the middle of the body. The intelligent terminal 20 comprises a second control module 21, a second wireless communication module 22 connected with the second control module 21, an input module 23 and a display module 24. In the vibrating spear 10, a first wireless communication module 12 is used for realizing wireless communication with an intelligent terminal 20; the pressure sensor 13 is used for detecting the pressure of the rod head of the vibrating rod in real time to generate a pressure detection signal; the first control module 11 is configured to process the pressure detection signal, send the processed pressure detection signal through the first wireless communication module 12, process the pressure setting signal received through the first wireless communication module 12, and control the motor module 14 to vibrate correspondingly according to the pressure setting signal. In the intelligent terminal 20, the second wireless communication module 22 is used for realizing wireless communication with the vibrating spear 10; the input module 23 is used for receiving a pressure setting signal input by a user; the second control module 21 is used for processing the pressure detection signal received by the second wireless communication module 22 and processing the pressure setting signal from the input module 23; the display module 24 is used for displaying the processed pressure detection signal.

Through implementing this vibrating spear control system, after vibrating spear 10 and intelligent terminal 20 establish the relation of connection, vibrating spear 10 can send the pressure value that detects to intelligent terminal 20 in real time, like this, the user alright look over current pressure value on intelligent terminal 20. Meanwhile, the user can set a required pressure value through the intelligent terminal 20, the intelligent terminal 20 sends the pressure value set by the user to the vibrating spear 10, and the vibrating spear 10 controls the motor module 14 to vibrate correspondingly after receiving the pressure set value, so as to achieve a corresponding vibration effect.

Preferably, the first wireless communication module 12 may include at least one of: the system comprises a WIFI module, a Bluetooth module, a 3G/4G module, a ZigBee module, a UWB module and an infrared module; the second wireless communication module 22 may include at least one of: WIFI module, bluetooth module, 3G 4G module, zigBee module, UWB module, infrared module. It should be noted that the vibrating spear 10 and the intelligent terminal 20 can work in an online mode, that is, the vibrating spear 10 and the intelligent terminal 20 establish connection through WIFI, bluetooth, ZigBee, UWB and infrared. The vibrating spear 10 and the intelligent terminal 20 can also work in a remote control mode, namely, the vibrating spear 10 and the intelligent terminal 20 are respectively accessed to the Internet through WIFI and 3G/4G, then both sides log in and are friends with each other, and after the remote control is invited and accepted by the other side, the remote control can be realized.

Fig. 3 is a logic block diagram of a second embodiment of the vibrating-rod control system with pressure control according to the present invention, and the vibrating-rod control system of this embodiment compares with the embodiment shown in fig. 2, except that the vibrating rod 10 further includes a key module 15 and an indication module 16 disposed on the rod body, and a power management module 17, a battery interface 18 and a charging module 19 disposed in the rod body, and further, the key module 15, the indication module 16 and the power management module 17 are respectively connected with the first control module 11. Wherein,

the key module 15 is configured to receive an on/off setting signal and a Mode selection signal, for example, the key module 15 includes 3 keys, which are a "Mode" key, a "+" key, and a "-" key, and in one example, the "Mode" key is pressed for 1 second to implement on/off, and the "+" key and the "-" key can perform Mode selection, vibration intensity adjustment, and other controls, respectively. The indication module 16 is used for indicating the working state of the vibrating rod, for example, the indication module 16 includes two LED lamps, one is a blue LED lamp, and the other is a red LED lamp.

The vibrating rod 10 is powered by a battery, and the battery is a rechargeable battery. After the battery interface 18 is connected to the battery, the power management module 17 is configured to process the voltage of the battery to supply power to the pressure sensor 13 and the first control module 11. In charging the battery, the charging module 19 is configured to process a voltage of an external power source to charge the battery.

In addition, on the basis of the above embodiment, the vibrating rod may further include a detection module for detecting the electric quantity of the battery. Meanwhile, the first control module processes the detected electric quantity information and sends the electric quantity information to the intelligent terminal through the first wireless communication module. Then, the second control module of the intelligent terminal processes the electric quantity information received by the second wireless communication module and displays the electric quantity information through the display module. Preferably, the detection module can be used for detecting the voltage output by the power management module, detecting the voltage of the external power supply during charging, and feeding back the detected voltage to the first control module, besides detecting the electric quantity information of the battery.

On the basis of the embodiment, the vibrating bar further comprises a camera arranged on the head of the bar body, the camera is used for collecting video information of a monitoring area, and meanwhile, the first control module processes the video information and then sends the processed video information to the intelligent terminal through the first wireless communication module. Then, the second control module of the intelligent terminal processes the video information received by the second wireless communication module and displays the video information by the display module.

On the basis of the above embodiment, the vibration rod may further include a temperature sensor and a heating wire module disposed in the rod body. The temperature sensor is used for detecting the temperature of the rod body in real time and sending the temperature to the first control module, and the first control module sends the detected temperature value to the intelligent terminal through the first wireless communication module after processing the detected temperature value. And the second control module of the intelligent terminal processes the temperature detection value received by the second wireless communication module and displays the temperature detection value through the display module. Meanwhile, the second control module of the intelligent terminal processes the temperature set value received by the input module and sends the temperature set value to the vibrating spear through the second wireless communication module. Then, the first control module of the vibrating bar processes the temperature set value received by the first wireless communication module and controls the electric heating wire module to heat according to the temperature set value.

Fig. 4A-4J are circuit diagrams of the third embodiment of the vibrating spear in the vibrating spear control system with pressure control of the utility model, this vibrating spear includes first control module, WIFI module, bluetooth module, pressure sensor, motor module, button module, indicating module, power management module, charging module and detection module. The following describes each module separately:

with respect to the first control module, in conjunction with fig. 4A-4B, the first control module includes a CPU U1, a clock circuit, a reset circuit, and a memory circuit, wherein the CPU U1 is the core of the overall control. In the clock circuit, two clock terminals (BT _ XIN, BT _ XO) of the CPU U1 are connected to two terminals of the crystal oscillator X1, and two terminals of the crystal oscillator X1 are also grounded through capacitors C22 and C23, respectively. The clock circuit provides a clock signal to the CPU U1. In the reset circuit, a reset terminal (SWDIO) of the CPU U1 is connected with a collector of a transistor Q3, an emitter of the transistor Q3 is grounded, a base of the transistor Q3 is connected with 9V voltage (VCC 9V) through a capacitor C24, and a resistor R10 is connected between the base of the transistor Q3 and the ground. The reset circuit provides a power-on reset for the CPU U1. In the memory circuit, three IO ports (SDA, SCL, I2C _ WP) of the CPU U1 are connected to a data signal terminal, a clock signal terminal, and a data write protection terminal of the EEPROM U3, respectively, and the EEPROM U3 buffers data of the CPU U1.

Regarding bluetooth module and WIFI module, with reference to fig. 4A and 4C, in the WIFI module, an IO port (WIFI _ ANT) of the CPU U1 is connected to the WIFI antenna WIFI _ ANT1 through an inductor L4, a first end of a capacitor C16 of the capacitor C14 is connected to two ends of an inductor L4, and second ends of the capacitor C14 and the capacitor C16 are grounded, respectively. In the bluetooth module, one IO port (ANT 2) of the CPU U1 is connected to a first terminal of an inductor L1 and a first terminal of a capacitor C12, a second terminal of the capacitor C12 is connected to the bluetooth antenna BT _ ANT1 through the inductor L3, one IO port (ANT 1) of the CPU U1 is connected to a second terminal of an inductor L1 and a first terminal of the inductor L2, one IO port (VDD _ PA) of the CPU U1 is connected to a second terminal of the inductor L2, the capacitor C11 is connected between a second terminal of the inductor L2 and ground, the capacitor C13 is connected between a first terminal of the inductor L3 and ground, and the capacitor C15 is connected between a second terminal of the inductor L3 and ground.

With reference to fig. 4A and 4D, in the pressure sensor, two IO ports (SDA, SCL) of the CPU U1 are respectively connected to a data signal terminal and a clock signal terminal of the pressure sensing chip U2.

With respect to the motor module, referring to fig. 4A and 4E, the motor module includes two motors JP1 and JP2, wherein the base of a transistor Q1 is connected to an IO port (PWM 0) of a CPU U1 through a resistor R3, the emitter of a transistor Q1 is grounded, the collector of a transistor Q1 is connected to a battery voltage (V BAT) through a motor JP1 and a resistor R1, a capacitor C17 is connected between the base and the emitter of a transistor Q1, a capacitor C2 is connected to both ends of a motor JP1, the anode of a diode D1 is connected to the collector of a transistor Q1, and the cathode of a diode D1 is connected to the battery voltage through a resistor R1. Similarly, for the motor JP2, the base of the transistor Q2 is connected to an IO port (PWM 1) of the CPU U1 through the resistor R4, the emitter of the transistor Q2 is grounded, the collector of the transistor Q2 is connected to the battery voltage (V BAT) through the motor JP2 and the resistor R2, the capacitor C18 is connected between the base and the emitter of the transistor Q2, the capacitor C3 is connected to both ends of the motor JP2, the anode of the diode D2 is connected to the collector of the transistor Q2, and the cathode of the diode D2 is connected to the battery voltage through the resistor R2.

Regarding the key module, referring to fig. 4A, 4F and 4H, one end of the key SW1 is connected to the battery voltage, the other end thereof is grounded through the resistors R8 and R15, and the connection point of the resistors R8 and R15 is connected to an IO port (INCREASE) of the CPUU1 through the resistor R7. The first terminal of the key SW2 is grounded, the second terminal thereof is connected to an IO port (MODE) of the CPU U1, and the resistor R13 is connected between the second terminal of the key SW2 and the 3.3V voltage (VCC 3V 3). For the key SW3, similarly, the first terminal of the key SW3 is grounded, the second terminal thereof is connected to an IO port (REDUCE) of the CPU U1, and the resistor R14 is connected between the second terminal of the key SW3 and the 3.3V voltage (VCC 3V 3).

With reference to fig. 4A and 4G, in the indicating module, the anode of the RED LED lamp LED1 is connected to one IO port (RED _ LED) of the CPU U1, and the cathode of the RED LED lamp LED1 is grounded through the resistor R24. The positive electrode of the BLUE LED lamp LED2 is connected to an IO port (BLUE _ LED) of the CPU U1. The cathode of the blue LED light LED2 is connected to ground through a resistor R25.

Regarding the power supply module, referring to fig. 4A and 4H, an IO Port (PWREN) of the CPU U1 is connected to an enable terminal (EN) of the power management chip U4 through a diode D5. The battery voltage (V BAT) is connected with the input end (VIN) of the power management chip U4, the output end (VCC 3V 3) of the power management chip U4 is connected with the power supply end of the CPU U1, the power supply end of the pressure sensing chip U2 and the power supply end of the EEPROM, and power is supplied to the chips. In addition, the resistors R18 and R23 are connected in series between the output terminal of the power management chip U4 and ground, and the connection point of the resistors R18 and R23 is connected to the feedback terminal (FB) of the power management chip U4.

Regarding the charging module, with reference to fig. 4A and 4I, the positive terminal (VCC 5V) of the charging interface JP3 is connected to the power supply terminal of the charging management chip U5, the negative terminal of the charging interface JP3 is grounded, the battery terminal of the charging management chip U5 is connected to the positive terminal (V BAT) of the battery interface JP4, and the negative terminal of the battery interface JP4 is grounded.

Regarding the detection module, referring to fig. 4A, 4H, 4I and 4J, the positive terminal (V BAT) of the battery interface JP4 is grounded through the resistors R16 and R17, the connection point of the resistors R16 and R17 is connected to an IO port (BAT _ DET) of the CPU U1, the positive terminal (VCC 5V) of the charging interface JP3 is grounded through the resistors R19 and R20, the connection point of the resistors R19 and R20 is connected to an IO port (USB _ DET) of the CPU U1, and the output terminal (VCC 3V 3) of the power management chip U4 is connected to an IO port (CHAGDET) of the CPU U1 through the resistor R21.

The working principle of the vibrating rod is explained as follows: when the user presses the long-press key SW2, the CPU U1 detects that the level of the resistor R13 is changed from low to high, and further controls the enabling end of the power management chip U4 to be changed to high level, so that the power supply module is started, and the vibrating rod starts to work. Then, the intelligent terminal is started and is connected with the vibrating bar.

After the vibrating rod starts to work, the pressure sensing chip U2 can detect the current pressure of the head of the rod body in real time and transmits the pressure to the CPU U1 through the I2C bus. CPU U1 sends to intelligent terminal through bluetooth module or WIFI module after handling this pressure measurement value. After receiving the pressure detection value, the intelligent terminal processes the pressure detection value and displays the pressure detection value on a display module of the intelligent terminal, so that a user can view the current pressure detection value. In addition, the user can also input a pressure set value through the intelligent terminal and transmit the pressure set value to the vibrating spear. The Bluetooth module or the WIFI module of the vibrating spear receives the pressure set value and then sends the pressure set value to the CPU U1 for processing, and the CPU U1 generates control signals of two motors according to the processed pressure set value and controls the motors JP1 and JP2 to rotate correspondingly through the triodes Q1 and Q2 respectively, so that the vibrating spear vibrates correspondingly. Furthermore, the user can also adjust the vibration intensity through the keys SW1 and SW 3.

In addition, CPU U1 comes to detect the battery power through the voltage on the sampling resistance R17, when detecting the power not enough, can send a power not enough cue signal to intelligent terminal through bluetooth module or WIFI module. After receiving the prompt signal, the intelligent terminal displays the prompt signal on a display module of the intelligent terminal so as to remind a user of charging. Meanwhile, the CPU U1 may also control the red LED lamp LED1 or the green LED lamp LED2 to flash to prompt the user to charge.

When a user charges the battery of the vibrating bar, a power adapter may be connected using a USB cable, and the charging management chip U5 processes the input 5V voltage and charges the battery. Meanwhile, the CPU U1 also detects the voltage input by the charging interface and the battery voltage.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, which may be modified, combined, and varied by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A vibrating spear control system with pressure control comprises a vibrating spear, the vibrating spear comprises a spear body and a motor module arranged in the spear body, and is characterized by also comprising an intelligent terminal, wherein,

the vibrating rod further includes:

the first wireless communication module is arranged in the rod body and is used for realizing wireless communication with the intelligent terminal;

the pressure sensor is arranged in the rod head and is used for detecting the pressure of the rod head in real time to generate a pressure detection signal;

the first control module is arranged in the rod body, is connected with the pressure sensor, the first wireless communication module and the motor module, and is used for processing the pressure detection signal, sending the processed pressure detection signal through the first wireless communication module, processing the pressure setting signal received through the first wireless communication module and controlling the motor module to vibrate correspondingly according to the pressure setting signal;

the intelligent terminal further comprises:

the second wireless communication module is used for realizing wireless communication with the vibrating spear;

the input module is used for receiving a pressure setting signal input by a user;

the second control module is connected with the second wireless communication module and the input module and is used for processing the pressure detection signal received by the second wireless communication module and processing the pressure setting signal from the input module;

and the display module is connected to the second control module and is used for displaying the processed pressure detection signal.

2. The pressure controlled vibrator rod control system of claim 1, wherein the first wireless communication module comprises at least one of: the system comprises a WIFI module, a Bluetooth module, a 3G/4G module, a ZigBee module, a UWB module and an infrared module;

the second wireless communication module includes at least one of: WIFI module, bluetooth module, 3G 4G module, zigBee module, UWB module, infrared module.

3. A vibration rod control system with pressure control as claimed in claim 1 wherein the vibration rod further comprises:

the key module is arranged on the rod body, connected to the first control module and used for receiving a power on/off setting signal and a mode selection signal.

4. A vibration rod control system with pressure control as claimed in claim 1 wherein the vibration rod further comprises:

the indication module is arranged on the rod body, connected to the first control module and used for indicating the working state of the vibrating rod.

5. A vibration rod control system with pressure control as claimed in claim 1 wherein the vibration rod further comprises:

the battery interface is arranged in the rod body and used for accessing a battery;

the power management module is arranged in the rod body, connected to the first control module and used for processing the voltage of the battery to supply power to the pressure sensor and the first control module.

6. A vibrating rod control system with pressure control as claimed in claim 5 wherein the vibrating rod further comprises:

the detection module is arranged in the rod body and used for detecting the electric quantity of the battery; furthermore, it is possible to provide a liquid crystal display device,

the first control module processes the detected electric quantity information and sends the electric quantity information to the intelligent terminal through the first wireless communication module, and the second control module of the intelligent terminal processes the electric quantity information received through the second wireless communication module and displays the electric quantity information through the display module.

7. A vibrating rod control system with pressure control as claimed in claim 5 wherein the vibrating rod further comprises:

and the charging module is arranged in the rod body and is used for processing the voltage of an external power supply so as to charge the battery.

8. A vibration rod control system with pressure control as claimed in claim 1 wherein the vibration rod further comprises:

the camera is arranged on the head of the rod body, is connected to the first control module and is used for collecting video information of a monitoring area; furthermore, it is possible to provide a liquid crystal display device,

the first control module sends the processed video information to the intelligent terminal through the first wireless communication module, and the second control module of the intelligent terminal processes the video information received through the second wireless communication module and displays the video information through the display module.

9. The system for controlling the vibrating spear with the pressure control as claimed in claim 1, wherein the second control module of the intelligent terminal processes the temperature set value received by the input module and sends the temperature set value to the vibrating spear through the second wireless communication module;

the vibrating rod further includes:

the temperature sensor is arranged in the rod body, is connected to the first control module and is used for detecting the temperature of the rod body in real time;

and the electric heating wire module is arranged in the rod body, is connected to the first control module and is used for heating according to a temperature set value.

10. The utility model provides a vibrating spear of area pressure control, includes the barred body and sets up motor module in the barred body, its characterized in that, the vibrating spear still includes:

the first wireless communication module is arranged in the rod body and is used for realizing wireless communication with the intelligent terminal;

the pressure sensor is arranged in the rod head and is used for detecting the pressure of the rod head in real time to generate a pressure detection signal;

the setting is in the stick is internal, connect in pressure sensor first wireless communication module with motor module, and be used for right the pressure detection signal handles and passes through the pressure detection signal after will handling first wireless communication module sends to intelligent terminal, and to passing through first wireless communication module receives the pressure setting signal who comes from intelligent terminal and handles, and according to pressure setting signal control motor module carries out the first control module of corresponding vibration.