CN209951534U - System for subverting traditional visual habits and performing brain-eye coordination movement image training - Google Patents

System for subverting traditional visual habits and performing brain-eye coordination movement image training Download PDF

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CN209951534U
CN209951534U CN201820329004.8U CN201820329004U CN209951534U CN 209951534 U CN209951534 U CN 209951534U CN 201820329004 U CN201820329004 U CN 201820329004U CN 209951534 U CN209951534 U CN 209951534U
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optical machine
circuit
circuit board
camera
heat dissipation
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潘学龙
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Abstract

The utility model provides an image training system which overturns the traditional visual habits and carries out the coordination movement of brain and eyes, which consists of a head-wearing display system, a pocket controller operating system and a data connecting wire, and has the advantages of small volume, convenient carrying and convenient use; the technical scheme is as follows: a head-mounted display system is adopted to replace a display, a pocket controller operating system replaces a computer host, and the pocket controller operating system is connected with the computer host through a data connecting line to form a pocket-sized and small visual training system which is convenient to wear and operate. The working principle is as follows: the pocket controller operation system device is provided with visual training software, the visual training software is operated, the pocket controller operation system generates video signals, relevant visual training videos are transmitted to the head-mounted display system through the data connecting line, the head-mounted display system displays graphic and character information of relevant visual training for eyes to watch and train, and the purpose of carrying about visual training anytime and anywhere is achieved.

Description

System for subverting traditional visual habits and performing brain-eye coordination movement image training
Technical Field
The utility model relates to a portable vision training system equips, especially indicates that one kind overturns traditional vision custom and carries out brain eye coordination movement image training system.
Background
Along with the continuous development of scientific technology and the popularization of electronic products, the eye load for short distance is continuously increased, the incidence rate of myopia and the deepening of myopia diopter of teenagers and children are more and more serious, the myopia problem causes great inconvenience to the study and life of people, and brings much trouble to individuals and families, and the myopia problem is a problem which needs to be solved urgently by people; therefore, the prevention, delay and even control of myopia are highly valued in all the social circles, various treatment methods and related appliances appear at present, the most obvious vision training method and appliance without medicine and pain are deeply favored by patients, and especially, the current mature vision training equipment for treating amblyopia is composed of a computer host, a display, a focal length adjusting device and operating software, and the defects of the equipment are that the equipment is large in size and heavy and is inconvenient to carry and use by individuals.
Disclosure of Invention
The utility model provides a subversion traditional vision custom and carry out brain eye coordination movement image training system, this kind of system comprises head-mounted display system, pocket controller operating system and data link, small in size, portable facilitates the use.
The utility model discloses its scheme of solving technical problem is: a head-mounted display system is adopted to replace a display, a pocket controller operating system replaces a computer host, and the pocket controller operating system is connected with the computer host through a data connecting line to form a pocket-sized and small visual training system which is convenient to wear and operate. The working principle is as follows: the pocket controller operation system device is provided with visual training software, the visual training software is operated, the pocket controller operation system generates video signals, relevant visual training videos are transmitted to the head-mounted display system through the data connecting line, the head-mounted display system displays graphic and character information of relevant visual training for eye training, and the purpose of carrying about to carry out visual training anytime and anywhere is achieved.
The utility model comprises a head-mounted display system, a pocket controller operating system and a data connecting line; head-mounted display system bear support, ray apparatus display, ray apparatus fixed cover, ray apparatus protecgulum, ray apparatus back lid, angle modulation damping axle, camera back lid, rotatory camera, camera protecgulum, lens, glasses circuit board, gyroscope, earth magnetometer, little control processor, button, connector socket by display system head hoop, ray apparatus part and constitute its characterized in that: the optical machine display, the optical machine fixing cover, the optical machine front cover and the optical machine rear cover are assembled into two integral structures which are respectively installed and fixed on the left side and the right side of the angle adjusting damping shaft; two ends of the angle adjusting damping shaft are embedded into two sides of the optical machine part bearing bracket; the camera back cover, the rotary camera, the camera front cover and the lens form an integral structure and are arranged on the front surface of the optical machine part bearing bracket; a micro-control processor chip circuit, a gyroscope, a geomagnetic instrument, a key and a connector socket are arranged on the glasses circuit board, and an optical mechanical part is arranged in a right side cover plate of a bearing support; the two ends of the tail part of the optical mechanical part bearing support are fixed in left and right adjusting through holes in the middle of a head band of the display system, and the components are connected by adopting a flexible printed circuit board to form a complete set of head-mounted display system; pocket controller operating system comprises host computer casing, host computer circuit board, touch-control board, power key, heating panel, radiator fan, GPS positioning circuit, WIFI bluetooth circuit, Z8700 microprocessor circuit, 32G memory circuit, TF card interface, earphone interface, pilot lamp, connector socket, lithium cell, its characterized in that: the GPS positioning circuit, the WIFI Bluetooth circuit, the Z8700 microprocessor circuit, the 32G memory circuit, the TF card insertion interface, the earphone interface, the indicator lamp and the connector socket circuit are sequentially arranged on a host circuit board, the host circuit board is arranged in a host shell and fixed, and a complete pocket controller operating system is formed by the host circuit board, the touch panel, the power key, the heat dissipation plate and the heat dissipation fan; the data connecting wire consists of two multi-pole terminal male plugs and a plurality of strands of insulated wires.
The utility model has the effects that: the device is small and convenient, can lead people to carry out rapid and efficient visual training at any time and any place, plays the aim of scientifically coordinating the movement of the brain and the eye, and achieves the beneficial effects of preventing and controlling myopia and treating amblyopia.
Drawings
Fig. 1 is a schematic diagram of the overall system structure of the present invention.
Fig. 2 is an explosion distribution diagram of the structural configuration of the head-mounted display system of the present invention.
Figure 3 is an explosion distribution diagram of the structural configuration of the pocket controller operating system of the product of the present invention.
In the drawings, 1, a system headpiece is shown; 2. the optical-mechanical part bearing bracket; 3. an opto-mechanical display; 4, fixing a light machine cover; 5. the optical machine comprises an optical machine front cover, an optical machine rear cover and an angle adjusting damping shaft, wherein the optical machine front cover is 6; 8. a camera back cover; 9. rotating the camera; 10. a camera front cover; 11. a lens; 12. a glasses circuit board; a gyroscope; 14. a geomagnetism instrument; 15. a micro-control processor; 16. pressing a key; 17. a connector; 18. a main housing; 19. a host circuit board; 20. a touch pad; 21. a power key; 22. a heat dissipation plate; 23. a heat radiation fan; GPS positioning circuitry; a WIFI bluetooth circuit; a Z8700 microprocessor circuit; 27.32G memory circuitry; 28.64GTF card insertion interface; 29. earphone interface, 30, indicator light; 31. a connector socket; 32. a lithium battery; 33. a head-mounted display system; 34. a data link; 35. the controller operates the system.
Detailed Description
In fig. 1, the present invention consists of a head-mounted display system, a pocket controller operating system and a data link.
In fig. 2, the head-mounted display system (33) is composed of a display system head band (1), an optical machine part bearing support (2), an optical machine display (3), an optical machine fixing cover (4), an optical machine front cover (5), an optical machine rear cover (6), an angle adjusting damping shaft (7), a camera rear cover (8), a rotary camera (9), a camera front cover (10), a lens (11), a glasses circuit board (12), a gyroscope (13), a geomagnetic instrument (14), a micro-control processor (15), a key (16) and a connector (17); the method is characterized in that: the optical machine display (3) is combined with the optical machine fixing cover (4), the optical machine front cover (5) and the optical machine rear cover (6) by fixing screws; the camera rear cover (8), the rotary camera (9) and the camera front cover (10) are combined by fixing screws; an MPU-9150 nine-axis motion sensing and tracking (MotionTracking) component used by the gyroscope (13) and the geomagnetic instrument (14), a micro-control processor (15), a key (16) and a connector (17) are ultrasonically welded and installed on the glasses circuit board (12); the glasses circuit board (12) is arranged on the optical machine part bearing support (2) and is electrically connected with the optical machine display (3) and the rotary camera (9) through a display socket and a camera socket by connecting wires (34); the rear end of the bearing support (2) is fixedly sleeved with a square fixing hole in the middle of the display system head hoop (1) and is screwed by a fixing adjusting screw.
The optical machine display (3) adopts an SO-H294HM-SO display module, not less than 1280 × 960, 0.294' LCOS module, brand: the viewing angle is 30-40 degrees, and the transmission type LCOS display proportion of the SONY high-definition display screen panel is 15: 9, the lens focal length is fixed, and the transmission type brightness is 700cd/m2@0.3w (3V/100 mA); resolution 1280 × 960(WVGA), field angle 30-40 degrees, and external dimension: 98 × 53 × 32mm, display size at1.5msee 20 "Virtual screen", video interface SDR (RGB888)/DDR (double Data rate), video frequency 120HZ, LED power supply DC3.0V.
The camera rear cover (8), the rotary camera (9) and the camera front cover (10) form an independent unit which is arranged at the front end of the optical machine display (3) and used for shooting characters and scene images in front of a system user.
The micro-control processor circuit adopts an 8-bit microprocessor PIC12F508, the working voltage is 2-5.5V, the working current is lower than 350 muA, the standby current is 100nA, a high-precision 4MC oscillator is arranged in the micro-control processor circuit, 6 l/O pins are arranged outside the micro-control processor circuit, 5 l/O pins with independent direction control are arranged in the micro-control processor circuit, and one pin only needs to be input.
The gyroscope (13) and the geomagnetic instrument (14) adopt MPU-9150 nine-axis motion sensing tracking (motion tracking) components, the MPU-9150 comprises Invensense motion sensing fusion calculation (motion fusion) and running-time calibration firmware, and a motion sensing human-computer interface can track motion in free space, convert the motion into an input instruction and enable a consumer to interact with an electronic product intuitively. MPU-9150 is a System In Package (SiP) product, integrating two chips: one is MPU-6050, which contains three-axis gyroscope, three-axis accelerator, and Digital Motion sensing Processor (DMP) which can process complex nine-axis Motion sensing fusion algorithm; the other is AK8975, which is a three-axis digital electronic compass. The nine-axis motion sensing fusion algorithm contained in MPU-9150 can be connected with all internal sensors, collect the whole set of sensing data, and has the product size of 4x4x1 mm; for accurate tracking of fast and slow motions (motions), the gyroscope included in the product has a programmable (user-programmable) full-cell sensing range of ± 250 °, ± 500 °, ± 1000 °/sec (dps), the accelerator has a programmable full-cell sensing range of ± 2g, ± 4g, ± 8g, ± 16g, and the electronic compass has a full-cell sensing range of ± 1200 μ T.
The lens (11) is made of PC plastic and is made into a semitransparent film.
The socket of the connector (17) adopts the model and the brand: DESING, model USB3.1 TYPE-C connector female seat.
In fig. 3, the controller operating system (35) is composed of a host casing (18), a host circuit board (19), a touch panel (20), a power key (21), a heat dissipation plate (22), a heat dissipation fan (23), a GPS positioning circuit (24), a WIFI bluetooth circuit (25), a Z8700 microprocessor circuit (26), a 32G memory circuit (27), a 64GTF card insertion interface (28), an earphone interface (29), an indicator light (30), a connector socket (31), and a lithium battery (32); the method is characterized in that: circuit elements of a GPS positioning circuit (24), a WIFI Bluetooth circuit (25), a Z8700 microprocessor circuit (26), a 32G memory circuit (27), a 64GTF card insertion interface (28), an earphone interface (29), an indicator light (30) and a connector socket (31) are arranged on the host circuit board (19) in an ultrasonic welding mode; the heat dissipation plate (22) and the heat dissipation fan (23) are fixed together by combined screws, then the back of the heat dissipation plate is coated with a Z8700 microprocessor circuit (26), a 32G memory circuit (27) and a position corresponding part which are arranged on a host circuit board (19) or are coated with heat-conducting silica gel or are attached with heat-conducting fins, the back of the heat dissipation plate (22) is pressed on the host circuit board (19) after the coating is finished, the heat dissipation plate and the host circuit board are fixed into a whole by screws to form an integrated machine core circuit board assembly, the back of the lithium battery (32) is attached with double-sided adhesive and is arranged at the bottom in the host shell (18), and the machine core circuit board assembly is arranged in the.
The host shell (18) of the pocket controller operating system (35) is 120-150 mm long, 60-80mm wide and 25-30 mm thick, and is manufactured by adopting an engineering plastic injection mold through injection molding;
the host circuit board (19) is made of a laminated fiber epoxy copper-clad circuit board, and a GPS positioning circuit (24), a WIFI Bluetooth circuit (25), a Z8700 microprocessor circuit (26), a 32G memory circuit (27), a TF card insertion interface (28), an earphone interface (29), an indicator light (30) and a connector socket (31) are mounted on the host circuit board.
The heat dissipation fan (23) is arranged in the middle of the heat dissipation plate (22), the back surface of the heat dissipation plate (22) is tightly attached to the surfaces of the circuit chip of the Z8700 microprocessor and the chip of the 32G memory through heat conduction silica gel, and heat generated when the microprocessor (26) and the 32G memory (27) work is dissipated;
the touch panel (20) adopts a capacitive flexible conductive silica gel touch panel, the panel is 100 mm long and 120mm wide, and is 60-80mm wide, and the touch panel is installed on the surface of the host shell (18) of the operation system (35) of the pocket controller.
The power key (21) adopts a power control key controlled by pressing small protruding plastic and is used for starting up the computer.
The heat dissipation plate (22) is made of aluminum alloy materials through die casting of steel dies, heat dissipation ribs are arranged on the surface of the heat dissipation plate, and a heat dissipation fan is installed in the middle of the heat dissipation plate.
The heat dissipation fan (23) adopts a fan special for heat dissipation of a 5V0.3A flat notebook computer with the specification of 50x50x10 mm.
The positioning circuit (24) adopts a GOTOP brand Beidou receiving positioning module GAM-1513-MTR, the chip adopts an MTK chip scheme, a working channel is 22channel, the chip size is 15x13x6.8mm, the working voltage is 3.0-5.0V, the receiving sensitivity is-165 db, the precision is 10m @20RMSWITholtsA, the first positioning time is 38S, the starting time is 1S, the power consumption is 20mA, and the working temperature range is-40-85 ℃.
The WIFI Bluetooth circuit (25) the Bluetooth module transceiver circuit chip adopts a small-size Bluetooth module master-slave integrated USR-BLE101, supports V4.1BLE protocols, is compatible with V4.0, supports two configuration modes of TTL serial ports and Bluetooth, can be wirelessly transmitted with traditional serial port equipment or equipment controlled by an MCU (microprogrammed control Unit), has a module size of 10X10X3mm, a working voltage of 1.9-5.5V, 150 microamperes in a sleep mode, a built-in on-board antenna and a transmitting power of 3dbm, is mounted on a functional circuit board, has a wireless mode ITIR, supports a 2.4G frequency band and a highest wireless transmission rate of 150Mbqs, and has a maximum communication distance of 80m on an open square.
The Z8700 microprocessor circuit (26) adopts Surface 3 of an Atom x7-Z8700 processor produced by Intel corporation, the Atom x7-Z8700 processor is a four-core four-thread, the basic frequency is 1.6GHz, the highest speed can be up to 2.4GHz, the maximum support is 8GB LPDDR 31600 memory capacity, the maximum memory bandwidth is 25.6GB/s, the core display card HDgraphics is integrated at 200 MHz and 600MHz, and the heat power consumption is 2W.
The memory circuit (27) employs a BGA153 type package EMMC32G memory chip.
The earphone interface (29) adopts a universal multi-core earphone jack with the jack diameter of 3.5 mm;
the indicator lamp (30) (3RGB adopts a patch LED indicator lamp;
the connector socket (31) adopts the following model: DESING, model USB3.1 TYPE-C connector female seat.
The lithium battery (32) adopts a flat rectangular polymer lithium ion battery, the working voltage is 3.7V, and the capacity is 6000 Mh.
In addition above, the utility model discloses can also utilize the smart mobile phone to replace controller operating system, other embodiments such as speech recognition input are utilized to the operation input, and all adopt to equate technical scheme that replacement or equivalent transform formed, all belong to the utility model discloses the claimed protection scope.

Claims (1)

1. A system for subverting the traditional visual habit and performing brain-eye coordination movement image training mainly comprises a head-wearing display system, a pocket controller operating system and a data connecting line; the method is characterized in that: the head-mounted display system (33) consists of a display system head hoop (1), an optical machine part bearing support (2), an optical machine display (3), an optical machine fixing cover (4), an optical machine front cover (5), an optical machine rear cover (6), an angle adjusting damping shaft (7), a camera rear cover (8), a rotary camera (9), a camera front cover (10), lenses (11), a glasses circuit board (12), a gyroscope (13), a geomagnetic instrument (14), a micro-control processor (15), keys (16) and a connector (17); the optical machine display (3) is combined with the optical machine fixing cover (4), the optical machine front cover (5) and the optical machine rear cover (6) by fixing screws; the camera rear cover (8), the rotary camera (9) and the camera front cover (10) are combined by fixing screws; an MPU-9150 nine-axis motion sensing and tracking (MotionTracking) component used by the gyroscope (13) and the geomagnetic instrument (14), a micro-control processor (15), a key (16) and a connector (17) are ultrasonically welded and installed on the glasses circuit board (12); the glasses circuit board (12) is arranged on the optical machine part bearing support (2) and is electrically connected with the optical machine display (3) and the rotary camera (9) through a display socket and a camera socket by connecting wires (34); the rear end of the bearing bracket (2) is fixedly sleeved with a square fixing hole in the middle of the display system head hoop (1) and is screwed by a fixing adjusting screw; the controller operating system (35) is composed of a host shell (18), a host circuit board (19), a touch pad (20), a power key (21), a heat dissipation plate (22), a heat dissipation fan (23), a GPS positioning circuit (24), a WIFI Bluetooth circuit (25), a Z8700 microprocessor circuit (26), a 32G memory circuit (27), a 64GTF card insertion interface (28), an earphone interface (29), an indicator lamp (30), a connector socket (31) and a lithium battery (32); circuit elements of a GPS positioning circuit (24), a WIFI Bluetooth circuit (25), a Z8700 microprocessor circuit (26), a 32G memory circuit (27), a 64GTF card insertion interface (28), an earphone interface (29), an indicator light (30) and a connector socket (31) are arranged on the host circuit board (19) in an ultrasonic welding mode; the heat dissipation plate (22) and the heat dissipation fan (23) are fixed together by combined screws, then the back of the heat dissipation plate is coated with a Z8700 microprocessor circuit (26), a 32G memory circuit (27) and positions corresponding to the positions of the heat dissipation plate and a host circuit board (19) or is attached with a heat conducting silicone or a heat conducting sheet, the back of the heat dissipation plate (22) is pressed on the host circuit board (19) after the coating is finished, the heat dissipation plate and the host circuit board are fixed into a whole by screws to assemble an integrated machine core circuit board assembly, the back of the lithium battery (32) is attached with a double-sided adhesive and is arranged at the bottom in the host shell (18), and the machine core circuit board assembly is arranged in the; the camera rear cover (8), the rotary camera (9) and the camera front cover (10) form an independent unit which is arranged at the front end of the optical machine display (3) and used for shooting a scene image in front of a system user.
CN201820329004.8U 2018-03-02 2018-03-02 System for subverting traditional visual habits and performing brain-eye coordination movement image training Active CN209951534U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109124869A (en) * 2018-03-02 2019-01-04 潘学龙 One kind overturning Conventional visual and is accustomed to and carries out brain eye coordinate motion image training system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109124869A (en) * 2018-03-02 2019-01-04 潘学龙 One kind overturning Conventional visual and is accustomed to and carries out brain eye coordinate motion image training system

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