CN115311911B - Intelligent education all-in-one based on AI intelligence - Google Patents

Abstract

The application discloses an intelligent education all-in-one machine based on AI intelligence, which relates to the field of teaching aids, and comprises a VR glasses body and two earphones, and further comprises: locking assembly: the pair of earphone locking devices is arranged on the VR glasses body and used for locking each earphone; after the insertion stroke of each earphone drives the locking assembly to lock the earphone, the earphone can rotate at any angle. According to the intelligent education all-in-one machine based on the AI intelligence, the VR glasses are connected with the education all-in-one machine, so that students can be more on the scene in the learning process, the learning interestingness is increased, the VR glasses body and the headset are connected in a detachable mode, and then the VR glasses and the headset are connected, so that the headset can be replaced and installed conveniently.

Description

Intelligent education all-in-one based on AI intelligence

Technical Field

The application relates to teaching aid technology, in particular to an intelligent education all-in-one machine based on AI intelligence.

Background

The education all-in-one machine has obtained the approval of numerous schools, parents and education and training institutions in the modes of interest learning, autonomous learning and multimedia learning, and is gradually opening an increasingly wide market, so that the Haoli education all-in-one machine is the pain in the market. From the aspect of 'teaching' of transmitting knowledge, an educational integrated machine integrating a projector, an electronic whiteboard and a computer is a powerful tool and an assistant, the conventional educational integrated machine is generally adopted, and along with the progress of society, AI intelligence is widely applied and educated.

Such as: in the application patent application with publication number of CN 111564064A and publication date of 2020.08.21, named as intelligent education system and method based on game interaction, the system comprises an education related data generation module, an education interaction game scene design module, a dynamic information generation module and an education interaction game scene adjustment module; the education-related data generation module is used for generating corresponding education-related image data and/or education-related sound data according to course education data about a certain subject; the education interaction game scene design module is used for designing an education interaction game scene matched with the certain subject according to the education-related image data and the education-related sound data; the dynamic information generation module is used for generating dynamic information about game interaction objects in the running process of the education interaction game scene; the education interaction game scene adjusting module is used for adjusting the interaction presentation state of the education interaction game scene according to the dynamic information. The intelligent education system and the method based on game interaction can design an education interaction game scene in a targeted manner according to corresponding course education information, so that teaching interest of relevant courses is improved, dynamic information of game interaction objects in the course education process can be detected in real time, the education interaction game scene can be adjusted in an adaptive manner, and therefore execution quality and efficiency of intelligent education are improved, and therefore AI intelligent application to an education all-in-one machine in improvement of patents belongs to the existing known technical means.

In the prior art including the above patent, the related subjects are generally generated into the interactive game scene through the display device to realize the interaction, although students learn through the game pictures, the students can only intuitively feel the played pictures and cannot feel the students personally on the scene, so that the students need to be connected with the intelligent education system by means of VR glasses, the existing VR glasses basically adopt embedded headsets, the embedded headsets are arranged outside, at least 20-30 students use the headsets simultaneously, and the embedded headsets are arranged outside, so that mutual interference of sounds is caused, and the embedded headsets are damaged or inconvenient for users to replace the headsets and adjust the angles of the headsets.

Disclosure of Invention

The application aims to provide an intelligent education all-in-one machine based on AI intelligence, which aims to solve the defects in the prior art.

In order to achieve the above object, the present application provides the following technical solutions:

intelligent education all-in-one based on AI intelligence, including VR glasses body and two earphones, still include: locking assembly: the pair of earphone locking devices is arranged on the VR glasses body and used for locking each earphone; after the insertion stroke of each earphone drives the locking assembly to lock the earphone, the earphone can rotate at any angle.

Preferably, the locking assembly comprises two fixing columns fixedly connected to the VR glasses body, and a plurality of plug-in blocks are slidably connected to the fixing columns in a circumferential array.

Preferably, the locking assembly further comprises a driving unit, and the driving unit is used for driving each plug-in block to slide in the radial direction of each fixing column.

Preferably, the driving unit comprises an upper rotating handle coaxially and rotatably connected to the fixed column, and the rotating handle is connected with each plug-in block through an arc-shaped rod.

Preferably, each plug block is connected with each fixing column correspondingly arranged through a spring.

Preferably, the method further comprises: compression unit: the compression unit is used for compressing the spring, so that the spring does not generate elastic force in the unlocking process of the plug-in block.

Preferably, the compression unit includes a plurality of gear teeth portions provided on the rotation handle, and driven gears rotatably connected to the fixing posts, each of the driven gears is provided in one-to-one correspondence with each of the gear teeth portions, and each of the driven gears is engaged with each of the gear teeth portions.

Preferably, the compression unit further includes an abutment block for compressing the spring and a transmission rod hinged between the abutment block and the driven gear.

Preferably, each earphone is provided with a plug-in shaft, and each plug-in shaft is provided with a circular clamping groove matched with each plug-in block.

Preferably, a plurality of protrusions are arranged at the end part of each plug-in block, and each protrusion is used for increasing friction force between each plug-in block and the circular clamping groove.

In the technical scheme, the intelligent education all-in-one machine based on the AI intelligence is connected with the education all-in-one machine through the VR glasses, so that students can be more on the scene in the learning process, the learning interestingness is increased, the VR glasses body and the headset are connected in a detachable mode, and then the VR glasses and the headset are connected, so that the headset can be conveniently replaced and installed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIGS. 1-2 are schematic views of the overall structure provided by embodiments of the present application;

FIG. 2a is an enlarged schematic view of the partial structure of FIG. 2A according to an embodiment of the present application;

fig. 3 is a schematic diagram of a first state of a plug block according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a second state of a plug post according to an embodiment of the present application;

FIG. 5 is a schematic view of an installation structure of an arc rod according to an embodiment of the present application

Fig. 6 is a schematic view of an installation structure of an abutment block according to an embodiment of the present application;

FIG. 7 is a schematic view of a rotary handle according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an earphone according to an embodiment of the present application;

fig. 9 is a schematic structural view of a limiting block according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of an inserting block according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of a fixing post according to an embodiment of the present application.

Reference numerals illustrate:

1. VR glasses body; 1.1, fixing columns; 1.100, mounting holes; 1.102, mounting grooves; 1.103, springs; 1.104, damping rotating shaft; 1.10, a rotating handle; 1.101, tooth portions; 1.11, limiting blocks; 1.110, torsion spring; 1.12, arc-shaped rods; 1.13, a plug block; 1.130, protrusions; 1.14, driven gear; 1.15, a transmission rod; 1.16, an abutment block; 1.2, earphone; 1.20, a plug-in shaft; 1.21, circular clamping groove.

Detailed Description

In order to make the technical scheme of the present application better understood by those skilled in the art, the present application will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1-11, the application provides an intelligent education all-in-one machine based on AI intelligence, which comprises a VR glasses body 1 and two earphones 1.2, and further comprises: locking assembly: the pair of VR glasses is arranged on the VR glasses body 1 and used for locking each earphone 1.2;

after the insertion stroke of each earphone 1.2 drives the locking component to lock the earphone 1.2, the earphone 1.2 can rotate at any angle.

Specifically, VR glasses are products of a plurality of technical sets such as simulation technology, computer graphics man-machine interface technology, multimedia technology sensor technology network technology and the like, and are a brand-new man-machine interaction means created by means of computers and latest sensor technology. VR glasses are connected with the education all-in-one through bluetooth, electromagnetic wave or infrared lamp mode for the classmate can be more vivid three-dimensional at the in-process of study, increases the interest of study in-process.

As shown in fig. 1, the VR glasses include an external head display device and legs fixedly connected or rotatably connected to two sides of the external head display device, and each leg is provided with an earphone 1.2, where the earphone 1.2 is in-ear or out-hanging.

The locking component is connected with the VR glasses body 1 in a plugging, clamping or other detachable modes and is used for fixing the earphone 1.2, and then each earphone 1.2 is arranged on the VR glasses body 1; the locking component is used for limiting each earphone 1.2 not to be separated from the VR glasses body 1, but enabling the earphone 1.2 to rotate at any angle of 360 degrees, and further enabling the earphone 1.2 to rotate after being mounted on the VR glasses body 1;

in the use, through the stabilizer blade department that the user inserted VR glasses respectively with each earphone 1.2, in the male process, drive locking component at earphone 1.2 male process and remove towards earphone 1.2 direction, and then make locking component butt to earphone 1.2, the butt force between locking component and the earphone 1.2 can make earphone 1.2 rotate, but earphone 1.2 can not follow VR glasses body 1 and break away from, and then the user of facilitating the use dismantles earphone 1.2.

According to the intelligent education all-in-one machine based on the AI intelligence, the VR glasses are connected with the education all-in-one machine, so that students can be more on the scene in the learning process, the learning interestingness is increased, the VR glasses body 1 and the headset are connected in a detachable mode, and then the VR glasses and the headset are connected, so that the headset can be replaced and installed conveniently.

Referring to fig. 3-6, in another embodiment of the present application, the locking assembly includes two fixing posts 1.1 fixedly connected to the VR glasses body 1, and a plurality of plug-in blocks 1.13 are slidably connected to each fixing post 1.1 in a circumferential array.

The locking assembly further comprises a driving unit, and the driving unit is used for driving each plug-in block 1.13 to slide in the radial direction of each fixing column 1.1.

The driving unit comprises an upper rotating handle 1.10 which is coaxially and rotatably connected with the fixed column 1.1, and the rotating handle 1.10 is connected with each plug-in block 1.13 through an arc-shaped rod 1.12.

The plug blocks 1.13 are connected with the corresponding fixed columns 1.1 through springs 1.103.

Each earphone 1.2 is provided with a plug-in shaft 1.20, and each plug-in shaft 1.20 is provided with a circular clamping groove 1.21 matched with each plug-in block 1.13; the end of each plug-in block 1.13 is provided with a plurality of bulges 1.130, and each bulge 1.130 is used for increasing the friction force between each plug-in block 1.13 and the circular clamping groove 1.21.

Specifically, a mounting hole 1.100 is formed in the axial center of the fixed column 1.1, a plurality of mounting grooves 1.102 matched with the plug-in blocks 1.13 are formed in the radial direction of the mounting hole 1.100 in a surrounding mode, a spring 1.103 is fixedly connected in each mounting groove 1.102, one end of the spring 1.103 abuts against the plug-in blocks 1.13, a rotary handle 1.10 is coaxially and rotatably connected to the periphery of the fixed column 1.1, the rotary handle 1.10 is connected with each plug-in block 1.13 through an arc-shaped rod 1.12, one end of each arc-shaped rod 1.12 is hinged to the rotary handle 1.10, and the other end of each arc-shaped rod 1.12 is hinged to each plug-in block 1.13 correspondingly arranged;

as shown in fig. 8, the earphone 1.2 is provided with a plugging shaft 1.20 matched with the mounting hole 1.100, and a circular clamping groove 1.21 matched with each plugging block 1.13 is formed around the periphery of the plugging shaft 1.20, so that each plugging block 1.13 is inserted into the circular clamping groove 1.21, and the plugging shaft 1.20 can rotate in the plugging hole.

The end of each plug block 1.13 is provided with a plurality of protruding points for increasing the static friction force between each plug block 1.13 and the circular clamping groove 1.21, the protruding points are made of rubber or other materials, and the static friction force between each plug block 1.13 and the plug shaft 1.20 is increased through the protruding points, so that the plug shaft 1.20 is subjected to magic increase after rotating at any angle, and the plug shaft 1.20 is not easy to rotate.

In the use process, the user manually inserts the grafting axle 1.20 on each earphone 1.2 in proper order into the mounting groove 1.102 in the VR glasses body 1, in the in-process that grafting axle 1.20 inserted, make the week side of grafting axle 1.20 carry out the butt to each grafting piece 1.13 that corresponds to it and set up, and then make each grafting piece 1.13 move in the radial direction of the week side of grafting axle 1.20, and then make each grafting piece 1.13 compress spring 1.103 in the moving process, make spring 1.103 take place deformation, after the circular draw-in groove 1.21 on grafting axle 1.20 just corresponds with grafting piece 1.13 one by one, at this moment spring 1.103 can produce a trend that resumes the original state, and then make the bump on grafting piece 1.13 insert in the circular draw-in groove 1.21 that corresponds to it, make bump on the grafting piece 1.13 contact with the inner wall of circular draw-in groove 1.21, and then increase the bump between grafting piece 1.13 and the inner wall of circular draw-in groove 1.21, make the friction between arbitrary friction angle between 1.20.20 can be in the friction between the friction angle and the circular draw-in groove.

Referring to fig. 3-6, in another embodiment, the present application further includes: compression unit: the compression unit is used for compressing the spring 1.103, so that the spring 1.103 does not generate elastic force in the unlocking process of the plug block 1.13.

The compression unit comprises a plurality of gear tooth parts 1.101 arranged on the rotary handle 1.10 and driven gears 1.14 rotatably connected to the fixed column 1.1, the driven gears 1.14 are arranged in one-to-one correspondence with the gear tooth parts 1.101, and the driven gears 1.14 are meshed with the gear tooth parts 1.101.

The compression unit further comprises an abutment block 1.16 for compressing the spring 1.103 and a transmission rod 1.15 hinged between the abutment block 1.16 and the driven gear 1.14.

Further comprises: the limiting blocks 1.11 are rotatably connected to the connecting column, and each limiting block 1.11 is rotatably connected to the connecting column through a damping rotating shaft 1.104.

Specifically, as shown in fig. 6, the compression unit includes a plurality of gear teeth 1.101 disposed on the rotating handle 1.10, at least 3 gear teeth 1.101 are coaxially and rotatably connected to the fixed end portion, a driven gear 1.14 is engaged at a position corresponding to each gear tooth 1.101, an abutment block 1.16 adapted to each installation groove 1.102 is slidably connected in each installation groove 1.102, a spring 1.103 is fixedly connected in each installation groove 1.102, the other end of each spring 1.103 is fixedly connected to the abutment block 1.16 correspondingly disposed, a first position where each abutment block 1.16 and each plug block 1.13 correspondingly disposed are mutually abutted and a second position where each abutment block 1.16 and each driven gear 1.14 are not mutually abutted are mutually hinged, three damping rotating shafts 1.104 are circumferentially disposed on the fixed column 1.1, and each limiting block 1.11 is rotatably connected to the rotating shaft 1.1.1 through the corresponding damping rotating shaft 1.104.

The limiting blocks 1.11 are correspondingly arranged in a state of being not meshed with the gear tooth parts 1.101, each limiting block 1.11 is connected with the damping rotating shaft 1.104 through a torsion spring 1.110, the torsion spring 1.110 is sleeved outside the damping rotating shaft 1.104 in an sleeved mode, one supporting leg of the torsion spring 1.110 is fixedly connected with the damping rotating shaft 1.104, and the other supporting leg of the torsion spring 1.110 is fixedly connected with the limiting block 1.11.

Damping shaft 1.104 in this embodiment: the shaft which is used for connecting the parts of the product and is used for bearing bending moment and torque in the rotating operation is called a damping rotating shaft 1.104, and the principle is that friction force is generated by extrusion between gaskets, and the friction force is related to the number of the installed gaskets and the tightness of screwing nuts. For example, when a notebook computer screen is turned over by a notebook computer rotating shaft, a certain force is needed, the force is not needed to be large, and when the notebook computer screen stops turning over, the screen does not shake up and down and left and right, but the notebook computer screen stays at a desired position by leaning against the friction force on the rotating shaft, and the damping rotating shaft 1.104 belongs to the prior known technical means, so that excessive redundant description is not needed in the implementation.

In the use process, a user manually inserts the plug-in shafts 1.20 on the earphone 1.2 into the mounting grooves 1.102 in the VR glasses body 1 in sequence, the peripheral sides of the plug-in shafts 1.20 are abutted against the plug-in blocks 1.13 correspondingly arranged in the plug-in shaft 1.20 in the insertion process, the plug-in blocks 1.13 are further moved in the radial direction of the peripheral sides of the plug-in shafts 1.20, the rotary handles 1.10 are further driven by the plug-in blocks 1.13 in the movement process, the driven gears 1.14 meshed with the rotary handles 1.101 are driven by the gear teeth 1.101 in the rotary handles 1.10 in the rotation process, the rotation speed of the driven gears 1.14 is faster than that of the rotary handles 1.10, the abutting blocks 1.16 are further compressed with the springs 1.103, at the moment, the abutting blocks 1.16 are in a state of not abutting against the plug-in blocks 1.13 in the connection process, the spring 1.103 can not generate elastic force to the plug-in shaft 1.20 in the process, and the plug-in shaft 1.20 can be easily compressed by the plug-in the opposite direction, and the plug-in shaft 1.20 can be easily installed by the plug-in the process;

when the circular clamping grooves 1.21 on the plug-in shaft 1.20 are just in one-to-one correspondence with the plug-in blocks 1.13, the springs 1.103 generate a restoring trend at the moment, and then the elastic abutting blocks 1.16 generated by the springs 1.103 move in the mounting grooves 1.102, so that after the abutting blocks 1.16 and the plug-in blocks 1.13 are in the first mutually abutted positions, the abutting blocks 1.16 drive the plug-in blocks 1.13 to be inserted into the circular clamping grooves 1.21 correspondingly arranged under the action of the elastic force of the springs 1.103, the salient points on the plug-in blocks 1.13 are contacted with the inner walls of the circular clamping grooves 1.21, further friction force between the plug-in blocks 1.13 and the inner walls of the circular clamping grooves 1.21 is increased, the plug-in shaft 1.20 can hover at any rotation angle through static friction force between the salient points and the circular clamping grooves 1.21, and further the rotation angle of the earphone 1.2 is adjusted;

as shown in fig. 3, the plug block 1.13 just moves to the inner wall position of the mounting hole 1.100, that is, the plug shaft 1.20 just can be inserted into the plug hole, at this time, each limiting block 1.11 does not limit each gear tooth portion 1.101, and at this time, the circular clamping groove 1.21 on the plug shaft 1.20 just aligns with the plug block 1.13.

When the user needs to detach the earphone 1.2, the rotary ice is rotated to rotate the rotary handle 1.10 from the position of fig. 6 to the position of fig. 5, so that the earphone 1.2 can be detached and replaced.

While certain exemplary embodiments of the present application have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the application, which is defined by the appended claims.

Claims (3)

1. Intelligent education all-in-one based on AI intelligence, including VR glasses body (1) and two earphone (1.2), its characterized in that still includes: locking assembly: the pair of VR glasses is arranged on the VR glasses body (1) and used for locking each earphone (1.2);

after the insertion stroke of each earphone (1.2) drives the locking assembly to lock the earphone (1.2), the earphone (1.2) can rotate at any angle;

the locking assembly comprises two fixing columns (1.1) fixedly connected to the VR glasses body (1), and a plurality of plug-in blocks (1.13) are connected to each fixing column (1.1) in a sliding mode in a circumferential array;

the locking assembly further comprises a driving unit, wherein the driving unit is used for driving each plug-in block (1.13) to slide in the radial direction of each fixed column (1.1);

the driving unit comprises an upper rotating handle (1.10) which is coaxially and rotatably connected with the fixed column (1.1), and the rotating handle (1.10) is connected with each plug-in block (1.13) through an arc-shaped rod (1.12);

the plug blocks (1.13) are connected with the corresponding fixed columns (1.1) through springs (1.103);

compression unit: the compression unit is used for compressing the spring (1.103) so that the spring (1.103) does not generate elastic force in the unlocking process of the plug block (1.13);

the compression unit comprises a plurality of gear tooth parts (1.101) arranged on the rotary handle (1.10) and driven gears (1.14) rotatably connected to the fixed column (1.1), the driven gears (1.14) are arranged in one-to-one correspondence with the gear tooth parts (1.101), and the driven gears (1.14) are meshed with the gear tooth parts (1.101);

the compression unit further comprises an abutting block (1.16) for compressing the spring (1.103) and a transmission rod (1.15) hinged between the abutting block (1.16) and the driven gear (1.14);

the limiting blocks (1.11) are rotatably connected to the connecting column, each limiting block (1.11) is rotatably connected to the connecting column through a damping rotating shaft (1.104), each limiting block (1.11) is correspondingly arranged in a state of being not meshed with each gear tooth part (1.101), and each limiting block (1.11) is connected with the damping rotating shaft (1.104) through a torsion spring (1.110).

2. The intelligent education all-in-one machine based on AI intelligence of claim 1, wherein each earphone (1.2) is provided with a plug-in shaft (1.20), and each plug-in shaft (1.20) is provided with a circular clamping groove (1.21) matched with each plug-in block (1.13).

3. The intelligent education all-in-one machine based on the AI intelligence of claim 2, wherein a plurality of protrusions (1.130) are arranged at the end parts of the plug blocks (1.13), and each protrusion (1.130) is used for increasing friction force between each plug block (1.13) and the circular clamping groove (1.21).