CN115311911A - Intelligent education all-in-one machine based on AI intelligence - Google Patents

Abstract

The invention discloses an AI intelligence-based intelligent education all-in-one machine, which relates to the field of teaching aids and comprises a VR glasses body and two earphones, and further comprises: locking assembly: the earphone is arranged on the VR glasses body and used for locking the earphones; the insertion stroke of each earphone drives the locking assembly to lock the earphone, so that the earphone can rotate at any angle. According to the AI intelligence-based intelligent education all-in-one machine, provided by the invention, the VR glasses are connected with the education all-in-one machine, so that students can be more personally on the scene in the learning process, the learning interestingness is increased, the VR glasses are detachably connected with the headset through the VR glasses body, and then the VR glasses are connected with the headset, and the headset is convenient to replace and install.

Description

Intelligent education all-in-one machine based on AI intelligence

Technical Field

The invention relates to a 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 gained recognition of numerous schools, parents and education and training institutions in the modes of interest learning, autonomous learning and multimedia learning, and gradually opens wider and wider markets, and the Happy education all-in-one machine is particularly charpy. From the teaching of knowledge transmission, an education all-in-one machine integrating a projector, an electronic whiteboard and a computer is a powerful tool and an assistant, the existing education all-in-one machine is generally adopted, and AI intelligence is widely applied and educated along with the progress of the society.

Such as: the invention relates to an intelligent education system and method based on game interaction, which is disclosed as CN 111564064A, published as 2020.08.21 and comprises an education related data generating module, an education interactive game scene designing module, a dynamic information generating module and an education interactive game scene adjusting 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 related to a certain subject; the education interactive game scene design module is used for designing and obtaining an education interactive 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 a game interaction object in the running process of the education interaction game scene; and the education interactive game scene adjusting module is used for adjusting the interactive presenting state of the education interactive game scene according to the dynamic information. The intelligent education system and the intelligent education method based on game interaction can design an education interactive game scene according to corresponding course education data in a targeted mode, so that course teaching is conveniently carried out in the education interactive game scene, the teaching interestingness of related courses is improved, dynamic information of game interactive objects in the course education process can be detected in real time, the education interactive game scene is conveniently adjusted in an adaptive mode, the execution quality and efficiency of intelligent education are improved, and therefore the AI intelligence in the improved patent is applied to an education all-in-one machine and belongs to the existing known technical means.

In the prior art including the above patent, the related subject is generally generated into an interactive game scene through a display device to realize interaction, although students learn through game pictures, the students can only visually feel played pictures and cannot feel personally on the scene, so that the students need to be connected with an intelligent education system through VR glasses, the existing VR glasses basically adopt embedded headsets, the embedded headsets are externally placed, the users can replace the headsets and adjust the angles of the headsets when the embedded headsets are damaged or inconvenient.

Disclosure of Invention

The invention aims to provide an AI intelligence-based intelligent education all-in-one machine, which is used for solving the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

the utility model provides an intelligence education all-in-one based on AI intelligence, includes VR glasses body and two earphones, still includes: locking assembly: the earphone is arranged on the VR glasses body and used for locking the earphones; and the insertion stroke of each earphone drives the locking assembly to lock the earphone, so that the earphone can rotate at any angle.

Preferably, locking Assembly includes two fixed columns of fixed connection on VR glasses body, is a plurality of plug-in blocks of circumference array sliding connection on each fixed column.

Preferably, the locking assembly further comprises a driving unit for driving each of the insertion blocks to slide in a radial direction of each of the fixing columns.

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 of the inserting blocks through an arc-shaped rod.

Preferably, each of the insertion blocks is connected with each of the corresponding fixing columns through a spring.

Preferably, the method further comprises the following steps: a compression unit: the compression unit is used for compressing the spring, so that the spring does not generate elasticity in the unlocking process of the insertion block.

Preferably, the compression unit includes a plurality of gear tooth portions disposed on the rotation handle, and driven gears rotatably connected to the fixed column, each of the driven gears is disposed in one-to-one correspondence with each of the gear tooth portions, and each of the driven gears is engaged with each of the gear tooth portions.

Preferably, the compression unit further comprises 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 an inserting shaft, and each inserting shaft is provided with a circular clamping groove matched with each inserting block.

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

In the technical scheme, the AI intelligence-based intelligent education all-in-one machine provided by the invention has the advantages that the VR glasses are connected with the education all-in-one machine, so that students can be more personally on the scene in the learning process, the learning interestingness is increased, the VR glasses are detachably connected with the headset through the VR glasses body, the VR glasses are further connected with the headset, and the headset is convenient to replace and install.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIGS. 1-2 are overall schematic structural views provided in accordance with embodiments of the present invention;

FIG. 2a is an enlarged view of a portion of A in FIG. 2 according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a first state of the plugging block according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a second state of the plugging column according to the embodiment of the present invention;

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

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

FIG. 7 is a schematic structural diagram of a rotation handle according to an embodiment of the present invention;

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

FIG. 9 is a schematic structural diagram of a limiting block according to an embodiment of the present invention;

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

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

Description of reference numerals:

1. a VR glasses body; 1.1, fixing columns; 1.100, mounting holes; 1.102, mounting grooves; 1.103, a spring; 1.104, damping rotating shaft; 1.10, a rotating handle; 1.101, gear teeth; 1.11, a limiting block; 1.110, torsion spring; 1.12, an arc-shaped rod; 1.13, inserting blocks; 1.130, a bump; 1.14, a driven gear; 1.15, a transmission rod; 1.16, an abutting block; 1.2, an earphone; 1.20, inserting and connecting a shaft; 1.21, a circular slot.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 11, the invention 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: a locking assembly: the locking device 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 integrated by various technologies such as simulation technology and computer graphics man-machine interface technology multimedia technology sensor technology network technology, and are a brand-new man-machine interaction means created by computer and the latest sensor technology. VR glasses pass through bluetooth, electromagnetic wave or infrared lamp mode and are connected with the education all-in-one for the classmate can be more lively three-dimensional at the in-process of study, increases the interest in the learning process.

As shown in fig. 1, the VR glasses include an external display device and legs fixedly connected or rotatably connected to both sides of the external display device, each leg is provided with an earphone 1.2, and the earphones 1.2 are in-ear type or externally hung type.

The locking assembly is connected with the VR glasses body 1 in an inserting, clamping or other detachable mode, and is used for fixing the earphones 1.2 so as to install the earphones 1.2 on the VR glasses body 1; the locking assembly 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 in any angle in 360 degrees, and further enabling the earphone 1.2 to rotate after being installed on the VR glasses body 1;

insert the stabilizer blade department of VR glasses through the user with each earphone 1.2 respectively at the in-process that uses, at the male process, it moves towards earphone 1.2 direction to drive locking Assembly at earphone 1.2 male process, and then make locking Assembly carry out the butt to earphone 1.2, the butt power between locking Assembly and earphone 1.2 can make earphone 1.2 rotate, but earphone 1.2 can not break away from VR glasses body 1, and then the person of facilitating the use user dismantles earphone 1.2.

According to the AI intelligence-based intelligent education all-in-one machine, the VR glasses are connected with the education all-in-one machine, so that students can be more personally on the scene in the learning process, the learning interestingness is increased, the VR glasses body 1 is detachably connected with the headset, the VR glasses are further connected with the headset, and the headset is convenient to replace and install.

Referring to fig. 3-6, in another embodiment of the present invention, the locking assembly includes two fixing posts 1.1 fixedly connected to the VR glasses body 1, and a plurality of insertion blocks 1.13 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 inserting and connecting 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 coaxially and rotatably connected to the fixed column 1.1, and the rotating handle 1.10 is connected with each inserting block 1.13 through an arc-shaped rod 1.12.

Each plug-in block 1.13 is connected with each fixing column 1.1 correspondingly arranged through a spring 1.103.

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

Specifically, an installation hole 1.100 is formed in the axis position of a fixed column 1.1, a plurality of installation grooves 1.102 matched with insertion blocks 1.13 are formed in the installation hole 1.100 in a surrounding manner in the radial direction, a spring 1.103 is fixedly connected in each installation groove 1.102, one end of the spring 1.103 is abutted to the insertion blocks 1.13, a rotating handle 1.10 is coaxially and rotatably connected to the periphery of the fixed column 1.1, the rotating handle 1.10 is connected with each insertion block 1.13 through an arc-shaped rod 1.12, one end of each arc-shaped rod 1.12 is hinged to the rotating handle 1.10, and the other end of each arc-shaped rod 1.12 is hinged to each insertion block 1.13 correspondingly arranged;

as shown in fig. 8, the earphone 1.2 has an insertion shaft 1.20 adapted to the mounting hole 1.100, and a circular slot 1.21 adapted to each insertion block 1.13 is disposed around the outer circumference of the insertion shaft 1.20, so that each insertion block 1.13 is inserted into the circular slot 1.21, and the insertion shaft 1.20 can rotate in the insertion hole.

The tip of each grafting piece 1.13 all is provided with a plurality of bumps for increase the static friction between each grafting piece 1.13 and circular draw-in groove 1.21, the bump adopts the making of rubber or other materials, and then increases the static friction between each grafting piece 1.13 and the grafting axle 1.20 through the bump, makes grafting axle 1.20 receive through the magic power increase after rotating arbitrary angle, and then makes grafting axle 1.20 be difficult to take place to rotate.

In the using process, a user manually inserts the insertion shafts 1.20 on the earphones 1.2 into the mounting grooves 1.102 in the VR glasses body 1 in sequence, the peripheral sides of the insertion shafts 1.20 are abutted to the insertion blocks 1.13 correspondingly arranged to the insertion shafts 1.20 in the insertion process of the insertion shafts 1.20, the insertion blocks 1.13 move in the radial direction of the peripheral sides of the insertion shafts 1.20, the insertion blocks 1.13 compress the springs 1.103 in the moving process, the springs 1.103 deform, when the circular clamping grooves 1.21 on the insertion shafts 1.20 are exactly in one-to-one correspondence with the insertion blocks 1.13, the springs 1.103 tend to restore to the original shape, the elastic force generated by the springs 1.103 drives the insertion blocks 1.13 to be inserted into the circular clamping grooves 1.21 correspondingly arranged to the insertion blocks, the convex points on the insertion blocks 1.13 are in contact with the inner walls of the circular clamping grooves 1.21, the friction force between the insertion blocks 1.13 and the inner walls of the circular clamping grooves 1.21 is increased, and the friction force between the convex points and the circular clamping grooves 1.21 can be rotated at any angle through the static force of the insertion shafts 20.

Referring to fig. 3-6, in another embodiment, the present invention further comprises: a 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 rotating handle 1.10 and driven gears 1.14 rotationally connected to the fixed column 1.1, each driven gear 1.14 is arranged corresponding to each gear tooth part 1.101 one by one, and each driven gear 1.14 is meshed with each gear tooth part 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 comprising: a plurality of stopper 1.11 of rotating the connection on the spliced pole, each stopper 1.11 all rotates through a damping pivot 1.104 and connects on the spliced pole.

Specifically, as shown in fig. 6, the compression unit includes a plurality of gear teeth 1.101 disposed on the rotary handle 1.10, the number of the gear teeth 1.101 is at least 3, the rotary handle 1.10 is coaxially and rotatably connected to the fixed end, a driven gear 1.14 is engaged with a position corresponding to each gear teeth 1.101, a contact block 1.16 adapted to the rotary handle is slidably connected in each mounting groove 1.102, a spring 1.103 is fixedly connected in each mounting groove 1.102, the other end of each spring 1.103 is fixedly connected to a contact block 1.16 disposed corresponding to the spring 1.103, a first position where the contact block 1.16 and each plug-in block 1.13 disposed corresponding to the contact block have mutual contact and a second position where the contact block does not have mutual contact, a transmission rod 1.15 is hinged between each contact block 1.16 and each driven gear 1.14, three damping rotation stoppers are disposed on the fixed column 1.1.1, and each damping rotation shaft 1.11 is rotatably connected to the fixed column 1.1.1 through the damping rotation stoppers.

The limiting blocks 1.11 are correspondingly arranged in a state of not being 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 externally sleeved on the damping rotating shaft 1.104 and internally sleeved in the limiting block 1.11, one support leg of the torsion spring 1.110 is fixedly connected with the damping rotating shaft 1.104, and the other support leg of the torsion spring 1.110 is fixedly connected with the limiting block 1.11.

Damping spindle 1.104 in this implementation: the shaft which is used for connecting product parts and is used for bearing bending moment and torque in the rotating work is called as a damping rotating shaft 1.104, the principle is that friction force is generated through extrusion between gaskets, and the friction force is related to the number of the installed gaskets and the screwing tightness of nuts. For example, when the notebook computer screen is turned over, the notebook computer rotating shaft needs a certain force, but the force is not large, and when the notebook computer screen stops turning over, the screen cannot shake down up and down, but the notebook computer screen stays at a desired position by means of friction force on the rotating shaft, and as the damping rotating shaft 1.104 belongs to the existing known technical means, the implementation is not described in detail.

During the use process, a user manually inserts the insertion shafts 1.20 on the earphones 1.2 into the mounting grooves 1.102 in the VR glasses body 1 in sequence, the peripheral sides of the insertion shafts 1.20 abut against the insertion blocks 1.13 correspondingly arranged to the insertion shafts 1.20 in the insertion process of the insertion shafts 1.20, and then the insertion blocks 1.13 move in the radial direction of the peripheral sides of the insertion shafts 1.20, so that the insertion blocks 1.13 drive the rotation handle 1.10 to rotate in the moving process, each gear tooth part 1.101 on the rotation handle 1.10 drives the driven gear 1.14 engaged with the rotation handle to move in the rotating process, the rotating speed of the driven gear 1.14 is faster than that of the rotation handle 1.10, so that the abutting blocks 1.16 compress the springs 1.103, at this time, the abutting blocks 1.16 are in a state where the spring blocks 1.13 are not mutually abutted against the insertion blocks 1.13, and the spring force of the insertion shafts 1.103 can not be generated by the user in the insertion process of inserting the insertion shafts 1.20, so that the spring 1.103 can be easily installed without generating the opposite elastic force in the insertion process of inserting shafts 20;

when the circular clamping grooves 1.21 on the insertion shaft 1.20 are exactly in one-to-one correspondence with the insertion blocks 1.13, at the moment, the spring 1.103 tends to restore to the original state, and further, the elastic abutting blocks 1.16 generated by the spring 1.103 move in the mounting groove 1.102, so that the abutting blocks 1.16 and the insertion blocks 1.13 are in the first mutually abutting positions, at the moment, the abutting blocks 1.16 drive the insertion blocks 1.13 to be inserted into the circular clamping grooves 1.21 correspondingly arranged under the action of the elastic force of the spring 1.103, the salient points on the insertion blocks 1.13 are in contact with the inner walls of the circular clamping grooves 1.21, and further, the friction force between the insertion blocks 1.13 and the inner walls of the circular clamping grooves 1.21 is increased, the insertion shaft 1.20 can hover when rotating at any angle through the static friction force between the salient points and the circular clamping grooves 1.21, and further, and the adjustment of the rotation angle of the earphone 1.2 is realized;

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

When a user needs to detach the earphone 1.2, the user rotates the rotating ice to rotate the rotating handle 1.10 from the position shown in fig. 6 to the position shown in fig. 5, so that the earphone 1.2 can be detached and replaced.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The utility model provides an intelligence education all-in-one based on AI intelligence, includes VR glasses body (1) and two earphones (1.2), its characterized in that still includes: locking assembly: the locking device is arranged on a VR glasses body (1) and used for locking the earphones (1.2);

the insertion stroke of each earphone (1.2) drives the locking component to lock the earphone (1.2), so that the earphone (1.2) can rotate at any angle.

2. The AI intelligence based intelligent integrated teaching machine according to claim 1, wherein the locking assembly comprises two fixing posts (1.1) fixedly connected to the VR glasses body (1), and a plurality of insertion blocks (1.13) are slidably connected to each fixing post (1.1) in a circumferential array.

3. An AI-intelligence-based smart educational integrator according to claim 2, wherein the locking assembly further comprises a driving unit for driving each of the plug-in blocks (1.13) to slide in a radial direction of each of the fixing posts (1.1).

4. An AI intelligence based intelligent integrated teaching machine according to claim 3, characterized in that the driving unit comprises an upper rotary handle (1.10) coaxially and rotatably connected to a fixed column (1.1), and the rotary handle (1.10) is connected with each plug-in block (1.13) through an arc-shaped rod (1.12).

5. The AI intelligence based intelligent integrated teaching machine according to claim 4, wherein each plug-in block (1.13) is connected with each fixing column (1.1) through a spring (1.103).

6. The AI intelligence-based intelligent education kiosk of claim 5 further comprising: a compression unit: the compression unit is used for compressing the spring (1.103), so that the spring (1.103) can not generate elastic force in the unlocking process of the insertion block (1.13).

7. The AI-intelligence based intelligent integrated teaching machine according to claim 6, wherein the compression unit comprises a plurality of gear teeth (1.101) arranged on the rotary handle (1.10), and driven gears (1.14) rotatably connected to the fixed column (1.1), each driven gear (1.14) is arranged corresponding to each gear tooth (1.101), and each driven gear (1.14) is meshed with each gear tooth (1.101).

8. AI intelligence based smart educational integrator according to claim 7 wherein 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).

9. The AI intelligence based intelligent integrated machine of claim 2, wherein each earphone (1.2) has a plug-in shaft (1.20), and each plug-in shaft (1.20) has a circular slot (1.21) matching with each plug-in block (1.13).

10. The AI intelligence-based smart education integrator of claim 9, wherein a plurality of protrusions (1.130) are provided at an end of each plug-in block (1.13), and each protrusion (1.130) is used to increase friction between each plug-in block (1.13) and the circular slot (1.21).

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