CN215298174U - Glove type interaction information controller - Google Patents

Abstract

The utility model discloses a gloves type interactive information controller, including shell, finger crookedness data measurement unit, wireless data sending unit, system circuit board, its characterized in that: the glove comprises a shell, a finger curvature data measuring unit, a wireless data transmitting unit, a system circuit board and a receiving unit which is connected with a computer end and used for receiving glove data, wherein the system circuit board is connected with a data acquisition module; the finger bending data measuring unit is connected with the system circuit bottom plate, vertically mounted on the system circuit board and welded on the PCB through an SMT process. The device can be used for interactive design of the device and real-time stage performance of interactive music, and meets the requirements of the interactive device under the mainstream trend.

Description

Glove type interaction information controller

The technical field is as follows:

the utility model belongs to the technical field of music stage equipment, concretely relates to gloves type interactive information controller.

Background art:

currently, interactive music stage performance controllers do not have a glove type. The prior glove type interactive information controller products have three patents applied by sony, including: "thumb controls", "glove interaction objects", "systems and methods for providing feedback when a user interacts with content", and multi-interaction smart glove Miiglove (2017), which is very similar thereto. The glove interaction object can be used as a glove controller of a game and comprises a flexible sensor for sensing the position of a finger, a contact sensor for sensing whether contact occurs or not and a communication module for transmitting information to computing equipment; after obtaining the gesture information of the finger, the information is used for rendering a virtual hand in a head-mounted display, and the product displays application prospects in the VR field. In 2012, West Nie Philis, university of Columbia, Vancouver, developed a 3D interactive glove for assisting deaf-mute to perform speech synthesis communication, but the disadvantage of using the device requires at least 100 hours of learning and training, and uses a speech synthesizer to synthesize speech for output. In fact, the deaf-mute cannot judge whether the output content is correct.

In the prior art, a glove game controller is taken as a starting point, the glove game controller is suitable for a virtual reality game scene, finger posture information is acquired, the glove game controller has no interface with a visual programming language used by interactive music, and the interactive glove not only identifies the posture information, but also comprises finger stretching information, and can map the finger information to any output parameter.

The utility model has the following contents:

the utility model aims at overcoming the defects of the prior art, and provides a glove type interaction information controller which is suitable for interactive music stage performance. The problem that a computer cannot be operated while stage performance is carried out is solved, the stage performance is beautified, the glove-shaped shell is used in the shape, but the functions and the expansibility of the glove-shaped shell are different from those of the glove-shaped controller. The type and quantity of output information can be set according to different hand types and action habits.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a gloves type interactive information controller, includes shell, finger crookedness data measurement unit, wireless data transmission unit, system circuit board, its characterized in that: the finger bending data measuring unit, the wireless data transmitting unit, the system circuit board and the data receiving unit of the receiving glove connected with the computer are arranged in the shell, and the system circuit board is connected with the data acquisition module; the finger bending data measuring unit is electrically connected with the system circuit board, vertically arranged on the system circuit board and welded on the PCB through an SMT process.

Furthermore, the system circuit board comprises an arithmetic unit, a memory, an analog-digital signal converter, a displacement sensor and a Bluetooth interface; the arithmetic unit converts analog signals input by a plurality of input pins of the displacement sensor into digital signals containing corresponding ASCII codes, sends the digital signals to a computer through the Bluetooth interface, and communicates and interfaces with special software installed in the computer; the system circuit board in the ATMEGA32U4 singlechip is connected with the output end of the analog-digital signal converter through a plurality of input pins, the output end of the displacement sensor is connected with the input end of the analog-digital signal converter, the memory and the Bluetooth interface are both connected with the arithmetic unit, and the memory is used for storing a singlechip driver program and the like.

The finger curvature data measuring unit is used for detecting and calculating a finger curvature signal under the glove, and comprises an absolute value potentiometer module, an inclination angle chip and a power supply voltage stabilizing module, wherein the absolute value potentiometer module and the rotating absolute value measuring unit transmit the measured data signal to the single chip microcomputer through the system circuit board; and the data of the finger curvature data measuring unit is wirelessly transmitted to the data receiving unit through the serial port switching Bluetooth.

Furthermore, the data transceiver unit consists of a wireless data transmitting unit and a data receiving unit, is used for transmitting the digital signal to a computer through a Bluetooth interface, and comprises a singlechip module, a Bluetooth module and a USB communication module; bluetooth module, single chip module are fixed on the system circuit board through double contact pin, and the single chip is connected and carries out data exchange with Bluetooth module through double contact pin. The communication and interface setting are carried out by specially designed software for signal analysis in the computer.

Further, the system circuit board comprises a power supply voltage stabilizing module, a buzzer, a voltage acquisition device, a power indicator lamp, a work indicator lamp and a crystal oscillator circuit which are vertically arranged on the system circuit board, wherein the power supply voltage stabilizing module, the buzzer, the voltage acquisition device, the power indicator lamp, the work indicator lamp and the crystal oscillator circuit are welded on the PCB circuit board.

Furthermore, the system circuit board further comprises a power switch, a potentiometer return-to-zero calibration key, a 5v power interface, a communication interface module, a buzzer, a 3.3v power voltage stabilizer, a main power indicator lamp and a data output prompt lamp, an external power supply for supplying power to the system is connected with the power voltage stabilizer module through the power switch, and the communication interface module is provided with an RS232 serial port communication interface, an analog i2c interface and a steering engine signal output interface. The external power supply was an 8v lithium battery.

Compared with the prior art, the utility model discloses following beneficial effect has:

the shell of the utility model is printed by 3D soft silica gel, which is soft and does not cut hands; the hand type output can be customized, and the hand type output corresponds to hands with different sizes and different musical instrument playing requirements; the wireless Bluetooth is directly connected without system obstacles; and the digital signals are used for communication, so that the computer can be conveniently accessed. The method can not occupy any serial port channel, and has the characteristics of safety, stability and good real-time performance in multimedia interactive performance (multi-interactive device performance).

Drawings

Fig. 1 is a schematic diagram of a controller circuit of the glove-type interactive information controller of the present invention.

Fig. 2 is a power interface diagram of the steering engine of the glove-type interactive information controller.

Fig. 3 is a 5V and 3.3V voltage-stabilizing module diagram of the glove-type interactive information controller.

Fig. 4 is a buzzer diagram of the glove type interactive information controller of the present invention.

Fig. 5 is a circuit diagram for downloading USB to TTL of the glove-type interactive information controller according to the present invention.

Fig. 6 is a mega328 chip diagram of the glove type interactive information controller of the present invention.

Fig. 7 is a voltage acquisition diagram of the glove-type interactive information controller of the present invention.

Fig. 8 is a power indicator light diagram of the glove-type interactive information controller of the present invention.

Fig. 9 is a working indicator light diagram of the glove-type interactive information controller of the present invention.

Fig. 10 is a circuit diagram of a crystal oscillator of the glove-type interactive information controller according to the present invention.

Fig. 11 is a steering engine interface diagram of the glove-type interactive information controller of the present invention.

Fig. 12 is a view of the potentiometer interface of the glove-type interactive information controller of the present invention.

Fig. 13 is a key diagram of the glove-type interactive information controller according to the present invention.

Fig. 14 is a chip diagram of the inclination angle of the glove-type interactive information controller according to the present invention.

Fig. 15 is a simulated IIC interface diagram of the glove type interactive information controller of the present invention.

Fig. 16 is an ICSP interface diagram of the glove-type interactive information controller according to the present invention.

Fig. 17 is a serial port diagram of the glove-type interactive information controller of the present invention.

Fig. 18 is a diagram of the communication switch of the glove-type interactive information controller of the present invention.

Fig. 19 is a side view of the interactive glove controller of the glove type interactive information controller of the present invention.

Fig. 20 is a schematic view of the housing of the glove-type interactive information controller according to the present invention.

Fig. 21 is a top view of the glove type interactive information controller of the present invention.

Fig. 22 is a schematic view of the glove-type interactive information controller according to the present invention.

Detailed Description

For a better explanation of the invention, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

As shown in fig. 1 to 22, a glove-type interactive information controller includes a housing, a finger curvature data measuring unit, a wireless data transmitting unit, and a system circuit board, wherein the finger curvature data measuring unit, the wireless data transmitting unit, the system circuit board, and a data receiving unit connected to a computer and used for receiving gloves are installed inside the housing, and the housing plays a role in protecting electronic components inside the interactive glove controller. The system circuit board is connected with the data acquisition module; the finger bending data measuring unit is electrically connected with the system circuit board, vertically arranged on the system circuit board and welded on the PCB through an SMT process. The singlechip is ATMEGA32U4 singlechip. The shell is made of soft silica gel. The soft glue mounting system circuit board plays a role in soft flexibility, no cutting, and improvement of use comfort.

The system circuit board comprises an arithmetic unit, a memory, an analog-digital signal converter, a displacement sensor and a Bluetooth interface; the arithmetic unit converts analog signals input by a plurality of input pins of the displacement sensor into digital signals containing corresponding ASCII codes, sends the digital signals to a computer through the Bluetooth interface, and communicates and interfaces with special software installed in the computer; the system circuit board in the ATMEGA32U4 singlechip is connected with the output end of the analog-digital signal converter through a plurality of input pins, the output end of the displacement sensor is connected with the input end of the analog-digital signal converter, the memory and the Bluetooth interface are both connected with the arithmetic unit, and the memory is used for storing a singlechip driver program and the like.

The finger curvature data measuring unit is used for detecting and calculating a finger curvature signal under the glove, and comprises an absolute value potentiometer module, an inclination angle chip and a power supply voltage stabilizing module, wherein the absolute value potentiometer module and the rotating absolute value measuring unit transmit the measured data signal to the single chip microcomputer through a system circuit board; and the data of the finger curvature data measuring unit is wirelessly transmitted to the data receiving unit through the serial port switching Bluetooth.

The data receiving and transmitting unit consists of a wireless data transmitting unit and a data receiving unit, is used for transmitting the digital signals to the computer through the Bluetooth interface, and comprises a singlechip module, a Bluetooth module and a USB communication module; bluetooth module, single chip module are fixed on the system circuit board through double contact pin, and the single chip is connected and carries out data exchange with Bluetooth module through double contact pin. The data receiving unit is also a singlechip with a microprocessor, the processor contains a program for setting glove dynamic numerical value mapping, and the processor operates under a win and Mac dual system.

The system circuit board comprises a power supply voltage stabilizing module, a buzzer, a voltage acquisition device, a power indicator lamp, a work indicator lamp and a crystal oscillator circuit which are vertically arranged on the system circuit board, wherein the power supply voltage stabilizing module, the buzzer, the voltage acquisition device, the power indicator lamp, the work indicator lamp and the crystal oscillator circuit are welded on the PCB circuit board. The device comprises a power supply switch, a potentiometer return-to-zero calibration key, a 5v power supply interface, a communication interface module, a buzzer, a 3.3v power supply voltage stabilizer, an indicator lamp mainly used for observing the state of equipment, a main power supply indicator lamp and a data output indicator lamp, wherein an external power supply for supplying power to the system is connected with the power supply voltage stabilizing module through the power supply switch, and the communication interface module is provided with an RS232 serial port communication interface, an analog i2c interface and a steering engine signal output interface. The external power supply was an 8v lithium battery.

The finger is fixed with the front end part 1, the middle part 2 of the finger joint can be pulled simultaneously when the finger moves after being fixed, the middle part 2 of the finger joint drives the adjustable double-ball-head connecting rod to move forwards and backwards horizontally and pulls the rear part 3 of the finger joint, the rear part 4 of the finger joint collects analog signals and then sends the analog signals to the single chip microcomputer through the data interface to process data, the single chip microcomputer sends the analog signals to the data receiver through the Bluetooth interface in a wireless mode, and the wireless data receiver receives the data and then carries out data calculation and converts the data into computer keyboard data to interact with computer equipment.

The utility model discloses mutual gloves controller can have two kinds of modes of reading data, and one kind of mode is the data that read mutual gloves controller through USB line connection serial ports commentaries on classics MiniUSB interface, and another kind of mode is through bluetooth module with data wireless transmission to data receiver, through resolving back output keyboard control data.

On the basis, the device can be used for interactive design of the device and stage implementation performance of interactive music by combining artists. The interactive device is very suitable for teaching processes, artists and musicians, and meets the requirements of the interactive device under the mainstream trend.

The above description is only for the purpose of illustrating embodiments of the present invention and should not be taken as limiting the invention, and any modifications, equivalents, improvements and the like made by those skilled in the art within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The utility model provides a gloves type interactive information controller, includes shell, finger crookedness data measurement unit, wireless data transmission unit, system circuit board, its characterized in that: the finger bending data measuring unit, the wireless data transmitting unit, the system circuit board and the data receiving unit of the receiving glove connected with the computer are arranged in the shell, and the system circuit board is connected with the data acquisition module; the finger bending data measuring unit is electrically connected with the system circuit board, vertically arranged on the system circuit board and welded on the PCB through an SMT process.

2. The glove-type interactive information controller according to claim 1, wherein the system circuit board comprises an arithmetic unit, a memory, an analog-digital signal converter, a displacement sensor and a bluetooth interface; the arithmetic unit converts the analog signal of the displacement sensor into a digital signal and sends the digital signal to a computer through the Bluetooth interface; the system circuit board in the single chip microcomputer is connected with the output end of the analog-digital signal converter through a plurality of input pins, the output end of the displacement sensor is connected with the input end of the analog-digital signal converter, and the memory and the Bluetooth interface are connected with the arithmetic unit.

3. The glove-type interactive information controller according to claim 1, wherein the finger curvature data measuring unit is used for detecting and calculating a finger curvature signal under the glove, and comprises an absolute value potentiometer module, an inclination angle chip and a power supply voltage stabilizing module, wherein the absolute value potentiometer module and the rotating absolute value measuring unit transmit the measured data signal to the single chip microcomputer through the system circuit board; and the data of the finger curvature data measuring unit is wirelessly transmitted to the data receiving unit through the serial port switching Bluetooth.

4. The glove-type interaction information controller according to claim 1, wherein the wireless data transmitting unit and the data receiving unit constitute a data transceiving unit for transmitting digital signals to a computer via a bluetooth interface, and the data transceiving unit comprises a single chip module, a bluetooth module and a USB communication module; bluetooth module, single chip module pass through double contact pin to be fixed on system circuit board, and single chip module passes through double contact pin and is connected with Bluetooth module and carry out data exchange.

5. The glove-type interactive information controller according to claim 1, wherein the system circuit board comprises a power voltage stabilizing module, a buzzer, a voltage collector, a power indicator, a work indicator and a crystal oscillator circuit vertically mounted on the system circuit board, and the power voltage stabilizing module, the buzzer, the voltage collector, the power indicator, the work indicator and the crystal oscillator circuit are welded on the PCB circuit board.

6. The glove-type interactive information controller according to claim 1, wherein the system circuit board further comprises a power switch, a potentiometer return-to-zero calibration key, a 5v power interface, a communication interface module, a buzzer, a 3.3v power voltage stabilizer, a main power indicator and a data output prompting lamp, an external power supply for supplying power to the system is connected with the power voltage stabilizing module through the power switch, and the communication interface module is provided with an RS232 serial communication interface, an analog i2c interface and a steering engine signal output interface.

Images