Entertainment facility based on personal physical sign data
Technical Field
The invention relates to the field of entertainment facilities, in particular to an entertainment facility based on personal physical sign data.
Background
With the tremendous abundance of physical life, more and more adults are beginning to strive to improve children's standard of living, including providing them with new clothing, new toys, etc. In particular, various electric toys have become the mainstream of the children toy market. Since children naturally like shaking and swaying, the industry of the rocking car is applied. The electric rocking car can be seen at the door of various shops in a main street and a small street for children to play.
However, the existing electric rocking car has great potential safety hazard. Because the development degree of children is different, the shaking degree that can bear is different, and for the too small children, if bear too big range, the shaking of frequency will lead to children to suffer from the shaking syndrome.
Disclosure of Invention
The invention provides an entertainment facility based on personal physical sign data, which is characterized by comprising the following components: a housing, a "concave" shaped wobble body; the housing encloses the surface of the wobble body except for the recessed portion; the shell is arc-shaped.
The entertainment facility based on the personal physical sign data further meets the condition that a steering wheel is arranged on one vertical surface of the concave part of the shaking main body, a reference data input device is arranged on a part, close to the steering wheel, of the vertical surface of the concave part of the shaking main body, the part, close to the steering wheel, of the horizontal surface of the concave part of the shaking main body is a pedal surface, a seat is arranged on the rest part of the horizontal surface of the concave part of the shaking main body, the other vertical surface of the concave part of the shaking main body is a backrest, a control system is arranged in the shaking main body, and the reference data input device is in communication connection with the control system.
The entertainment facility based on personal physical sign data further meets the condition, and the reference data input device is used for inputting the month age of the user.
This amusement facility based on individual sign data, it still further satisfies the condition, the shell is pp material and the surface has anti-skidding line.
The entertainment facility based on personal physical sign data further meets the condition that the surface of the shell is provided with patterns.
The entertainment facility based on the personal physical sign data further meets the condition, and a back cushion is further arranged on the top of the backrest.
This amusement facilities based on individual sign data, it still further satisfies the condition, the back cushion includes pillowcase and pillow, pillow detachable is placed in the pillowcase.
This amusement facility based on individual sign data, it still further satisfies the condition, the pillow is the 3D latex material.
The entertainment facility based on the personal physical sign data further meets the condition that the steering wheel is in a circular ring shape and comprises a steering wheel communicator, a first storage battery, a first pressure sensor, a thermoelectric material layer and a cotton cloth layer from inside to outside; the cotton cloth layer is used for directly contacting with the hand, the thermoelectric material layer is used for directly converting heat emitted by the hand into electric energy when the hand is in contact with the cotton cloth layer and transmitting the electric energy to the first storage battery directly electrically connected with the thermoelectric material layer through an electric power line, and the first storage battery is used for storing the electric energy and supplying power to the steering wheel communicator and the first pressure sensor which are directly electrically connected with the first storage battery through the electric power line; the first pressure sensor always detects the numerical value of the hand force borne by the steering wheel and transmits the numerical value to the steering wheel communicator in communication connection with the first pressure sensor in real time, the steering wheel communicator immediately judges whether the numerical value does not reach a preset first threshold value after receiving the numerical value, if so, the steering wheel communicator sends out steering wheel empty load information to the outside, and otherwise, the steering wheel communicator does not send out any information.
The entertainment facility based on the personal sign data further meets the condition that the pedal surface is rectangular and comprises a pedal surface communicator, a second pressure sensor, a piezoelectric material layer and a silica gel layer from bottom to top; the silica gel layer is used for directly contacting the human foot, the piezoelectric material layer is used for directly converting the force of the human foot into electric energy under the action of the force of the human foot and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the treading face communicator and the second pressure sensor which are directly electrically connected with the energy storage device through power lines; the second pressure sensor detects the numerical value of the force of the human foot borne by the pedal face all the time, the numerical value is transmitted to the pedal face communicator in communication connection with the second pressure sensor in real time, the pedal face communicator judges whether the numerical value does not reach a preset second threshold value or not immediately after receiving the numerical value, if yes, pedal face no-load information is sent to the outside, and if not, no information is sent.
The entertainment facility based on the personal sign data further meets the conditions, the seat is a cuboid, and a seat communicator, a third pressure sensor, a piezoelectric material layer and a silica gel layer are sequentially arranged from the lower surface to the upper surface; the silica gel layer is used for directly contacting with the human hip, the piezoelectric material layer is used for directly converting the force of the human hip into electric energy under the action of the force of the human hip and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the seat communicator and a third pressure sensor which are directly electrically connected with the energy storage device through power lines; the third pressure sensor detects the numerical value of the force of the human body buttocks borne by the seat all the time, and transmits the numerical value to the seat communicator in communication connection with the third pressure sensor in real time, the seat communicator judges whether the numerical value does not reach a preset third threshold value or not immediately after receiving the numerical value, if so, seat no-load information is sent out, otherwise, no information is sent out.
The entertainment facility based on the personal physical sign data further meets the condition, and the control system comprises a control system communicator, a controller, a motor, an energy storage device, a timer and a loudspeaker; at any moment, when the control system communicator does not receive steering wheel no-load information sent by the steering wheel communicator, foot tread no-load information sent by the foot tread communicator and seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is one level; at any time, when the control system communicator receives the steering wheel empty information transmitted by the steering wheel communicator but does not receive the pedal face empty information transmitted by the pedal face communicator and the seat empty information transmitted by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the pedal surface no-load information sent by the pedal surface communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the seat no-load information sent by the seat communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the pedal surface no-load information sent by the pedal surface communicator but does not receive the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator but does not receive the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is four levels; the control system communicator transmits the ride safety level to the controller.
The entertainment facility based on the personal physical sign data further meets the conditions, the controller receives the age of the month transmitted by the reference data input device, and sets the rated rotating speed of the motor according to the age of the month, and the specific rule is as follows: the smaller the age of the month is, the smaller the rated rotational speed is, and when the age of the month is not less than the age upper limit, the rated rotational speed is the maximum rotational speed.
The entertainment facility based on the personal physical sign data further meets the condition, the controller also receives the riding safety level transmitted, when the riding safety level is one level, the controller controls the motor to run at a rated rotating speed so as to enable the electric rocking car for children to run at a rated amplitude and a rated frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is two-level, the controller controls the motor to operate at a preset first rotating speed so as to enable the child electric rocking car to operate at a first amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is three levels, the controller controls the motor to operate at a preset second rotating speed so as to enable the child electric rocking car to operate at a second amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is four, the controller controls the motor to stop running so as to stop running of the children electric rocking car, meanwhile, the controller enables the timer to start timing, and when the timing result reaches a preset time, the controller controls the loudspeaker to make a sound; the second rotating speed is less than the first rotating speed and less than the rated rotating speed, and the second amplitude and the frequency are less than the first amplitude and the frequency are less than the rated amplitude and the frequency.
The beneficial technical effects obtained by the invention are as follows:
1. parameters meeting the physical sign characteristics of children in different growth and development stages are set through the month age transmitted by the reference data input device;
2. the pressure sensors of the steering wheel, the pedal surface and the seat are adopted, so that the state of a child in the rocking car can be mastered in real time;
3. an operation mode which can meet the requirements of the children on shaking and ensure the safety of the children is set according to the state of the children;
4. energy is obtained by adopting a piezoelectric and thermoelectric mode, and the device is clean and sustainable;
5. the steering wheel adopts the self-powered mode, avoids setting up the power transmission line of overlength, has ensured the security performance.
Drawings
The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. In the drawings, like reference numerals designate corresponding parts throughout the different views.
FIG. 1 is a block diagram of an entertainment facility based on personal vital sign data in accordance with the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.
The first embodiment.
Please refer to the attached drawing.
An entertainment facility based on personal vital sign data, characterized in that the entertainment facility based on personal vital sign data comprises: a housing, a "concave" shaped wobble body; the housing encloses the surface of the wobble body except for the recessed portion; the shell is arc-shaped.
The technical scheme includes that a steering wheel is arranged on one vertical surface of a concave part of the shaking body, a reference data input device is arranged on a part, close to the steering wheel, of one vertical surface of the concave part of the shaking body, a pedal surface is arranged on a part, close to the steering wheel, of a horizontal surface of the concave part of the shaking body, a seat is arranged on the rest part of the horizontal surface of the concave part of the shaking body, the other vertical surface of the concave part of the shaking body is used as a backrest, a control system is arranged in the shaking body, and the reference data input device is in communication connection with the control system.
The reference data input device is used for inputting the month age of the user.
The shell is pp material and the surface has anti-skidding line.
The surface of the shell is also provided with patterns.
The top of the backrest is also provided with a back cushion.
The back cushion comprises a pillow case and a pillow core, wherein the pillow core is detachably placed in the pillow case.
The pillow core is made of 3D latex.
The steering wheel is used for being in contact with a human hand, the pedal face is used for being in contact with feet of a person, and the seat is used for being in contact with the hip of the person.
The steering wheel is in a circular ring shape and comprises a steering wheel communicator, a first storage battery, a first pressure sensor, a thermoelectric material layer and a cotton cloth layer from inside to outside; the cotton cloth layer is used for directly contacting with the hand, the thermoelectric material layer is used for directly converting heat emitted by the hand into electric energy when the hand is in contact with the cotton cloth layer and transmitting the electric energy to the first storage battery directly electrically connected with the thermoelectric material layer through an electric power line, and the first storage battery is used for storing the electric energy and supplying power to the steering wheel communicator and the first pressure sensor which are directly electrically connected with the first storage battery through the electric power line; the first pressure sensor always detects the numerical value of the hand force borne by the steering wheel and transmits the numerical value to the steering wheel communicator in communication connection with the first pressure sensor in real time, the steering wheel communicator immediately judges whether the numerical value does not reach a preset first threshold value after receiving the numerical value, if so, the steering wheel communicator sends out steering wheel empty load information to the outside, and otherwise, the steering wheel communicator does not send out any information.
Considering that the body temperature of children is high but the strength is low, the thermoelectric material layer is arranged on the steering wheel, so that clean energy is fully utilized; and the pressure sensor can detect whether a hand exists, so that subsequent optimization control is facilitated.
The pedal surface is rectangular and comprises a pedal surface communicator, a second pressure sensor, a piezoelectric material layer and a silica gel layer from bottom to top; the silica gel layer is used for directly contacting the human foot, the piezoelectric material layer is used for directly converting the force of the human foot into electric energy under the action of the force of the human foot and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the treading face communicator and the second pressure sensor which are directly electrically connected with the energy storage device through power lines; the second pressure sensor detects the numerical value of the force of the human foot borne by the pedal face all the time, the numerical value is transmitted to the pedal face communicator in communication connection with the second pressure sensor in real time, the pedal face communicator judges whether the numerical value does not reach a preset second threshold value or not immediately after receiving the numerical value, if yes, pedal face no-load information is sent to the outside, and if not, no information is sent.
The seat is a cuboid, and a seat communicator, a third pressure sensor, a piezoelectric material layer and a silica gel layer are sequentially arranged from the lower surface to the upper surface; the silica gel layer is used for directly contacting with the human hip, the piezoelectric material layer is used for directly converting the force of the human hip into electric energy under the action of the force of the human hip and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the seat communicator and a third pressure sensor which are directly electrically connected with the energy storage device through power lines; the third pressure sensor detects the numerical value of the force of the human body buttocks borne by the seat all the time, and transmits the numerical value to the seat communicator in communication connection with the third pressure sensor in real time, the seat communicator judges whether the numerical value does not reach a preset third threshold value or not immediately after receiving the numerical value, if so, seat no-load information is sent out, otherwise, no information is sent out.
Because the time of the child in the rocking car cannot be too long and the time is not enough to realize heat energy exchange, piezoelectric materials are arranged on the pedal surface and the seat, and clean energy is fully utilized; and the pressure sensor who sets up can detect whether have the human body to sit on the seat and whether the foot is subaerial, and then be convenient for subsequent optimal control.
The control system comprises a control system communicator, a controller, a motor, an energy storage device, a timer and a loudspeaker; at any moment, when the control system communicator does not receive steering wheel no-load information sent by the steering wheel communicator, foot tread no-load information sent by the foot tread communicator and seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is one level; at any time, when the control system communicator receives the steering wheel empty information transmitted by the steering wheel communicator but does not receive the pedal face empty information transmitted by the pedal face communicator and the seat empty information transmitted by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the pedal surface no-load information sent by the pedal surface communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the seat no-load information sent by the seat communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the pedal surface no-load information sent by the pedal surface communicator but does not receive the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator but does not receive the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is four levels; the control system communicator transmits the ride safety level to the controller.
The controller receives the month age transmitted by the reference data input device and sets the rated rotating speed of the motor according to the month age, and the specific rule is as follows: the smaller the age of the month is, the smaller the rated rotational speed is, and when the age of the month is not less than the age upper limit, the rated rotational speed is the maximum rotational speed.
Different rotating speeds are set for different ages of the month, so that the shaking amplitude and frequency of the rocking car can be different for children in different development stages, and balance between entertainment and safety is realized.
The controller also receives the transmitted riding safety level, when the riding safety level is one level, the controller controls the motor to operate at a rated rotating speed so as to enable the child electric rocking car to operate at a rated amplitude and a rated frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is two-level, the controller controls the motor to operate at a preset first rotating speed so as to enable the child electric rocking car to operate at a first amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is three levels, the controller controls the motor to operate at a preset second rotating speed so as to enable the child electric rocking car to operate at a second amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is four, the controller controls the motor to stop running so as to stop running of the children electric rocking car, meanwhile, the controller enables the timer to start timing, and when the timing result reaches a preset time, the controller controls the loudspeaker to make a sound; the second rotating speed is less than the first rotating speed and less than the rated rotating speed, and the second amplitude and the frequency are less than the first amplitude and the frequency are less than the rated amplitude and the frequency.
When the child does not sit in the vehicle stably, the amplitude and the speed of the rocking vehicle are reduced and even the rocking vehicle stops running, thereby avoiding accidents.
The energy storage device is electrically connected with the control system communicator, the controller, the motor, the timer and the loudspeaker and provides working power for the control system communicator, the controller, the motor, the timer and the loudspeaker.
The energy storage device comprises a super capacitor and a storage battery, wherein the super capacitor is used for storing electric energy in the energy storage device, and the storage battery is used for supplying power to the energy storage device.
The controller detects the electric quantity of a super capacitor and a storage battery in real time, and when the electric quantity of the storage battery is lower than a first preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a second preset electric quantity threshold value, the controller controls the super capacitor to charge the storage battery; when the electric quantity of the storage battery is higher than a third preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a fourth preset electric quantity threshold value, the controller controls the power line between the energy storage device and the piezoelectric material layer to be disconnected.
The first preset electric quantity threshold value, the second preset electric quantity threshold value, the third preset electric quantity threshold value and the fourth preset electric quantity threshold value are sequentially increased.
Example two.
An entertainment facility based on personal vital sign data, characterized in that the entertainment facility based on personal vital sign data comprises: a shell, a concave shaking main body and a sunshade; the housing encloses the surface of the wobble body except for the recessed portion; the shell is in a circular arc shape; the sunshade is disposed above the recess of the shaking body.
The technical scheme includes that a steering wheel is arranged on one vertical surface of a concave part of the shaking body, a reference data input device is arranged on a part, close to the steering wheel, of one vertical surface of the concave part of the shaking body, a pedal surface is arranged on a part, close to the steering wheel, of a horizontal surface of the concave part of the shaking body, a seat is arranged on the rest part of the horizontal surface of the concave part of the shaking body, the other vertical surface of the concave part of the shaking body is used as a backrest, a control system is arranged in the shaking body, and the reference data input device is in communication connection with the control system.
The reference data input device is used for inputting the month age of the user.
The steering wheel is used for being in contact with a human hand, the pedal face is used for being in contact with feet of a person, and the seat is used for being in contact with the hip of the person.
The steering wheel is in a circular ring shape and comprises a steering wheel communicator, a first storage battery, a first pressure sensor, a thermoelectric material layer and a cotton cloth layer from inside to outside; the cotton cloth layer is used for directly contacting with the hand, the thermoelectric material layer is used for directly converting heat emitted by the hand into electric energy when the hand is in contact with the cotton cloth layer and transmitting the electric energy to the first storage battery directly electrically connected with the thermoelectric material layer through an electric power line, and the first storage battery is used for storing the electric energy and supplying power to the steering wheel communicator and the first pressure sensor which are directly electrically connected with the first storage battery through the electric power line; the first pressure sensor always detects the numerical value of the hand force borne by the steering wheel and transmits the numerical value to the steering wheel communicator in communication connection with the first pressure sensor in real time, the steering wheel communicator immediately judges whether the numerical value does not reach a preset first threshold value after receiving the numerical value, if so, the steering wheel communicator sends out steering wheel empty load information to the outside, and otherwise, the steering wheel communicator does not send out any information.
The pedal surface is rectangular and comprises a pedal surface communicator, a second pressure sensor, a piezoelectric material layer and a silica gel layer from bottom to top; the silica gel layer is used for directly contacting the human foot, the piezoelectric material layer is used for directly converting the force of the human foot into electric energy under the action of the force of the human foot and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the treading face communicator and the second pressure sensor which are directly electrically connected with the energy storage device through power lines; the second pressure sensor detects the numerical value of the force of the human foot borne by the pedal face all the time, the numerical value is transmitted to the pedal face communicator in communication connection with the second pressure sensor in real time, the pedal face communicator judges whether the numerical value does not reach a preset second threshold value or not immediately after receiving the numerical value, if yes, pedal face no-load information is sent to the outside, and if not, no information is sent.
The seat is a cuboid, and a seat communicator, a third pressure sensor, a piezoelectric material layer and a silica gel layer are sequentially arranged from the lower surface to the upper surface; the silica gel layer is used for directly contacting with the human hip, the piezoelectric material layer is used for directly converting the force of the human hip into electric energy under the action of the force of the human hip and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the seat communicator and a third pressure sensor which are directly electrically connected with the energy storage device through power lines; the third pressure sensor detects the numerical value of the force of the human body buttocks borne by the seat all the time, and transmits the numerical value to the seat communicator in communication connection with the third pressure sensor in real time, the seat communicator judges whether the numerical value does not reach a preset third threshold value or not immediately after receiving the numerical value, if so, seat no-load information is sent out, otherwise, no information is sent out.
The control system comprises a control system communicator, a controller, a motor, an energy storage device, a timer and a loudspeaker; at any moment, when the control system communicator does not receive steering wheel no-load information sent by the steering wheel communicator, foot tread no-load information sent by the foot tread communicator and seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is one level; at any time, when the control system communicator receives the steering wheel empty information transmitted by the steering wheel communicator but does not receive the pedal face empty information transmitted by the pedal face communicator and the seat empty information transmitted by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the pedal surface no-load information sent by the pedal surface communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the seat no-load information sent by the seat communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the pedal surface no-load information sent by the pedal surface communicator but does not receive the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator but does not receive the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is four levels; the control system communicator transmits the ride safety level to the controller.
The controller receives the month age transmitted by the reference data input device and sets the rated rotating speed of the motor according to the month age, and the specific rule is as follows: the smaller the age of the month is, the smaller the rated rotational speed is, and when the age of the month is not less than the age upper limit, the rated rotational speed is the maximum rotational speed.
The controller also receives the transmitted riding safety level, when the riding safety level is one level, the controller controls the motor to operate at a rated rotating speed so as to enable the child electric rocking car to operate at a rated amplitude and a rated frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is two-level, the controller controls the motor to operate at a preset first rotating speed so as to enable the child electric rocking car to operate at a first amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is three levels, the controller controls the motor to operate at a preset second rotating speed so as to enable the child electric rocking car to operate at a second amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is four, the controller controls the motor to stop running so as to stop running of the children electric rocking car, meanwhile, the controller enables the timer to start timing, and when the timing result reaches a preset time, the controller controls the loudspeaker to make a sound; the second rotating speed is less than the first rotating speed and less than the rated rotating speed, and the second amplitude and the frequency are less than the first amplitude and the frequency are less than the rated amplitude and the frequency.
The energy storage device is electrically connected with the control system communicator, the controller, the motor, the timer and the loudspeaker and provides working power for the control system communicator, the controller, the motor, the timer and the loudspeaker.
The energy storage device comprises a super capacitor and a storage battery, wherein the super capacitor is used for storing electric energy in the energy storage device, and the storage battery is used for supplying power to the energy storage device.
The controller detects the electric quantity of a super capacitor and a storage battery in real time, and when the electric quantity of the storage battery is lower than a first preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a second preset electric quantity threshold value, the controller controls the super capacitor to charge the storage battery; when the electric quantity of the storage battery is higher than a third preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a fourth preset electric quantity threshold value, the controller controls the power line between the energy storage device and the piezoelectric material layer to be disconnected.
The first preset electric quantity threshold value, the second preset electric quantity threshold value, the third preset electric quantity threshold value and the fourth preset electric quantity threshold value are respectively 20%, 60%, 80% and 95% of rated electric quantity.
Smooth bulges are uniformly distributed on the surface of the silica gel layer.
The protrusion is made of silica gel.
Example three.
An entertainment facility based on personal vital sign data, characterized in that the entertainment facility based on personal vital sign data comprises: the shell, the concave shaking main body and the storage basket are arranged on the shell; the housing encloses the surface of the wobble body except for the recessed portion; the shell is in a circular arc shape; the storage basket is fixedly arranged on the shell.
The technical scheme includes that a steering wheel is arranged on one vertical surface of a concave part of the shaking body, a reference data input device is arranged on a part, close to the steering wheel, of one vertical surface of the concave part of the shaking body, a pedal surface is arranged on a part, close to the steering wheel, of a horizontal surface of the concave part of the shaking body, a seat is arranged on the rest part of the horizontal surface of the concave part of the shaking body, the other vertical surface of the concave part of the shaking body is used as a backrest, a control system is arranged in the shaking body, and the reference data input device is in communication connection with the control system.
The reference data input device is used for inputting the month age of the user.
And a sound box and a USB socket are further arranged on a part, close to the steering wheel, of a vertical surface of the sunken part of the shaking main body, and the USB socket is used for connecting external equipment with a USB interface so that the sound box can play music stored in the external equipment.
The steering wheel is used for being in contact with a human hand, the pedal face is used for being in contact with feet of a person, and the seat is used for being in contact with the hip of the person.
The steering wheel is in a circular ring shape and comprises a steering wheel communicator, a first storage battery, a first pressure sensor, a thermoelectric material layer and a cotton cloth layer from inside to outside; the cotton cloth layer is used for directly contacting with the hand, the thermoelectric material layer is used for directly converting heat emitted by the hand into electric energy when the hand is in contact with the cotton cloth layer and transmitting the electric energy to the first storage battery directly electrically connected with the thermoelectric material layer through an electric power line, and the first storage battery is used for storing the electric energy and supplying power to the steering wheel communicator and the first pressure sensor which are directly electrically connected with the first storage battery through the electric power line; the first pressure sensor always detects the numerical value of the hand force borne by the steering wheel and transmits the numerical value to the steering wheel communicator in communication connection with the first pressure sensor in real time, the steering wheel communicator immediately judges whether the numerical value does not reach a preset first threshold value after receiving the numerical value, if so, the steering wheel communicator sends out steering wheel empty load information to the outside, and otherwise, the steering wheel communicator does not send out any information.
The pedal surface is rectangular and comprises a pedal surface communicator, a second pressure sensor, a piezoelectric material layer and a silica gel layer from bottom to top; the silica gel layer is used for directly contacting the human foot, the piezoelectric material layer is used for directly converting the force of the human foot into electric energy under the action of the force of the human foot and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the treading face communicator and the second pressure sensor which are directly electrically connected with the energy storage device through power lines; the second pressure sensor detects the numerical value of the force of the human foot borne by the pedal face all the time, the numerical value is transmitted to the pedal face communicator in communication connection with the second pressure sensor in real time, the pedal face communicator judges whether the numerical value does not reach a preset second threshold value or not immediately after receiving the numerical value, if yes, pedal face no-load information is sent to the outside, and if not, no information is sent.
The seat is a cuboid, and a seat communicator, a third pressure sensor, a piezoelectric material layer and a silica gel layer are sequentially arranged from the lower surface to the upper surface; the silica gel layer is used for directly contacting with the human hip, the piezoelectric material layer is used for directly converting the force of the human hip into electric energy under the action of the force of the human hip and transmitting the electric energy to an energy storage device which is electrically connected with the piezoelectric material layer and is positioned in the control system, and the energy storage device is used for storing the electric energy and supplying power to the seat communicator and a third pressure sensor which are directly electrically connected with the energy storage device through power lines; the third pressure sensor detects the numerical value of the force of the human body buttocks borne by the seat all the time, and transmits the numerical value to the seat communicator in communication connection with the third pressure sensor in real time, the seat communicator judges whether the numerical value does not reach a preset third threshold value or not immediately after receiving the numerical value, if so, seat no-load information is sent out, otherwise, no information is sent out.
The control system comprises a control system communicator, a controller, a motor, an energy storage device, a timer and a loudspeaker; at any moment, when the control system communicator does not receive steering wheel no-load information sent by the steering wheel communicator, foot tread no-load information sent by the foot tread communicator and seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is one level; at any time, when the control system communicator receives the steering wheel empty information transmitted by the steering wheel communicator but does not receive the pedal face empty information transmitted by the pedal face communicator and the seat empty information transmitted by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the pedal surface no-load information sent by the pedal surface communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is in a second level; at any moment, when the control system communicator receives the seat no-load information sent by the seat communicator but does not receive the steering wheel no-load information sent by the steering wheel communicator and the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the pedal surface no-load information sent by the pedal surface communicator but does not receive the seat no-load information sent by the seat communicator, the control system communicator judges that the riding safety level is three levels; at any moment, when the control system communicator receives the steering wheel no-load information sent by the steering wheel communicator and the seat no-load information sent by the seat communicator but does not receive the pedal no-load information sent by the pedal face communicator, the control system communicator judges that the riding safety level is four levels; the control system communicator transmits the ride safety level to the controller.
The controller receives the month age transmitted by the reference data input device and sets the rated rotating speed of the motor according to the month age, and the specific rule is as follows: the smaller the age of the month is, the smaller the rated rotational speed is, and when the age of the month is not less than the age upper limit, the rated rotational speed is the maximum rotational speed.
The controller also receives the transmitted riding safety level, when the riding safety level is one level, the controller controls the motor to operate at a rated rotating speed so as to enable the child electric rocking car to operate at a rated amplitude and a rated frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is two-level, the controller controls the motor to operate at a preset first rotating speed so as to enable the child electric rocking car to operate at a first amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is three levels, the controller controls the motor to operate at a preset second rotating speed so as to enable the child electric rocking car to operate at a second amplitude and frequency, and meanwhile, the controller enables the timer to be reset; when the riding safety level is four, the controller controls the motor to stop running so as to stop running of the children electric rocking car, meanwhile, the controller enables the timer to start timing, and when the timing result reaches a preset time, the controller controls the loudspeaker to make a sound; the second rotating speed is less than the first rotating speed and less than the rated rotating speed, and the second amplitude and the frequency are less than the first amplitude and the frequency are less than the rated amplitude and the frequency.
The energy storage device is electrically connected with the control system communicator, the controller, the motor, the timer and the loudspeaker and provides working power for the control system communicator, the controller, the motor, the timer and the loudspeaker.
The energy storage device comprises a super capacitor and a storage battery, wherein the super capacitor is used for storing electric energy in the energy storage device, and the storage battery is used for supplying power to the energy storage device.
The controller detects the electric quantity of a super capacitor and a storage battery in real time, and when the electric quantity of the storage battery is lower than a first preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a second preset electric quantity threshold value, the controller controls the super capacitor to charge the storage battery; when the electric quantity of the storage battery is higher than a third preset electric quantity threshold value and the electric quantity of the super capacitor is higher than a fourth preset electric quantity threshold value, the controller controls the power line between the energy storage device and the piezoelectric material layer to be disconnected.
The first preset electric quantity threshold value, the second preset electric quantity threshold value, the third preset electric quantity threshold value and the fourth preset electric quantity threshold value are sequentially increased.
Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. It is therefore intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is the following claims, including all equivalents, that are intended to define the spirit and scope of this invention. The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.