CN219626150U - Learning machine - Google Patents

Abstract

The utility model provides a learning machine which comprises an equipment main body, a camera component and a bracket component, wherein the equipment main body comprises a screen component and an audio output component, and the camera component and the bracket component are integrally arranged on the equipment main body. So set up, through all integrative setting up camera subassembly and bracket component on the equipment main part, have better structural stability, need not to carry out the dismouting repeatedly to camera subassembly and bracket component in the use, be favorable to promoting availability factor, portable is favorable to preventing that the part from losing the damage moreover.

Description

Learning machine

Technical Field

The utility model relates to the technical field of electronic equipment, in particular to a learning machine.

Background

In order to realize the function of assisting learning, the existing learning machine needs assembly and matching of various accessories, such as a bracket and a camera. When the learning machine is used, a user needs to assemble the learning machine main body and the accessories according to the designed positions and sequences, the reliability is low, the fault tolerance is poor, the individual accessories are inconvenient to carry, and the learning machine main body and the accessories are easy to lose.

Disclosure of Invention

In view of the above, the utility model provides a learning machine which does not need to repeatedly assemble and disassemble auxiliary accessories, has high reliability and is not easy to lose the auxiliary accessories.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a learning machine, includes equipment main part, camera subassembly and bracket component, the equipment main part includes screen subassembly and audio output subassembly, the camera subassembly with the bracket component is all integrative to be set up on the equipment main part.

Optionally, the camera assembly includes:

a camera body;

the camera body is integrally arranged on the equipment body through the first rotating structure, so that the camera body can rotate relative to the equipment body.

Optionally, the bracket assembly includes:

a holder main body;

the second rotating structure is integrally arranged on the equipment main body through the second rotating structure, so that the equipment main body can rotate relative to the equipment main body.

Optionally, the apparatus body includes:

the front shell component is connected with one end of the first rotating structure, and the other end of the first rotating structure is connected with the camera main body;

and one end of the second rotating structure is connected with the rear shell assembly, and the other end of the second rotating structure is connected with the bracket main body.

Optionally, the apparatus main body further includes:

the bearing piece is arranged between the front shell component and the rear shell component, and the first rotating structure and the second rotating structure are connected with the bearing piece.

Optionally, the first rotating structure and/or the second rotating structure is electrically connected with the apparatus main body, so as to be capable of transmitting a rotating state of the first rotating structure and/or the second rotating structure to the apparatus main body.

Optionally, the axes of rotation of the first and second rotational structures satisfy a parallel condition.

Optionally, the camera assembly is integrally disposed on top of the device body.

Optionally, an anti-slip structure is provided at one end of the stand body away from the apparatus body and at the bottom of the apparatus body.

Optionally, the anti-slip structure is provided as a silica gel pad.

The learning machine provided by the utility model comprises a screen component and an audio output component, wherein the screen component is used for displaying learning content to a user, the audio output component is used for outputting learning audio to the user, and the rich learning content is conveniently obtained by the user through the cooperation of the screen component and the audio output component. The camera subassembly and the support subassembly are all integrative to be set up in the equipment main part, integrate camera subassembly and support subassembly in the equipment main part to form a part in the equipment main part, when using the function of camera subassembly, can directly call through the equipment main part, when using the function of support subassembly, can directly make the support subassembly carry out the support of corresponding angle to the equipment main part, need not to carry out the dismouting repeatedly to camera subassembly and support subassembly, be favorable to promoting availability factor, can avoid the auxiliary component after the dismantlement to lose the damage simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view of the present learning machine shown in some embodiments;

FIG. 2 is a perspective view of a learning machine shown in some embodiments;

FIG. 3 is a perspective view of a first rotational structure shown in some embodiments;

fig. 4 is a perspective view of a second rotational structure shown in some embodiments.

In the figure: 1. an apparatus main body; 2. a camera assembly; 3. a bracket assembly; 11. a front housing assembly; 12. a rear housing assembly; 13. a screen assembly; 14. a functional circuit assembly; 21. a first rotating structure; 211. a first connection portion; 212. a second connecting portion; 22. a camera unit; 23. a camera front shell; 24. a camera back shell; 31. a second rotating structure; 311. a fixing part; 312. a rotating part; 32. a holder main body; 4. and a silica gel pad.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 4, an embodiment of the present utility model provides a learning machine including an apparatus main body 1, a camera assembly 2, and a stand assembly 3.

The device body includes a screen assembly 13 and an audio output assembly, the screen assembly 13 is used for displaying learning content to a user, and the audio output assembly is used for outputting learning audio to the user, for example, the audio output assembly is set to be a sound box or a loudspeaker, so that the user can acquire rich learning content through cooperation of the screen assembly and the audio output assembly.

Specifically, the screen component 13 and the audio output component are both located on the same surface of the device main body, and when in use, a user can simultaneously face the screen component 13 and the audio output component, so that the use experience is further improved. Here, the audio output assembly is located below the screen assembly, and is close to the desktop with respect to the screen assembly 13 when the stand assembly supports and fixes the apparatus body on the desktop.

Wherein the equipment main body 1 is used for bearing the camera component 2 and the bracket component 3; the camera assembly 2 is used for acquiring video images so as to assist the device main body 1 to learn, such as character recognition, user face and gesture recognition, user sitting posture recognition and the like, so as to facilitate the interaction between the user and the device main body 1; the bracket component 3 is used for supporting the equipment main body 1 so as to prevent the equipment main body 1 from toppling over, and simultaneously the inclination of the equipment main body 1 can be adjusted by adjusting the supporting angle of the bracket component 3 relative to the equipment main body 1, namely, the inclination of the screen component 13 on the equipment main body 1 can be adjusted, so that diversified use scenes of users are met, and the use comfort of the users is improved.

Here, camera subassembly 2 and support subassembly 3 homogeneity setting are on equipment main part 1 to with camera subassembly 2 and support subassembly 3 integration on equipment main part 1, and form a part on the equipment main part 1, when using the function of camera subassembly 2, can directly call through equipment main part 1, when using the function of support subassembly 3, can directly make support subassembly 3 carry out the support of corresponding angle to equipment main part 1, need not to carry out the dismouting repeatedly to camera subassembly 2 and support subassembly 3, be favorable to promoting availability factor, auxiliary component after can avoiding dismantling loses the damage simultaneously.

The above-mentioned "integral arrangement" may be a form of being fixedly connected into an integral, or may be a form of being integrally molded or welded, for example, the camera component 2 and the bracket component 3 are fixedly connected to the apparatus main body 1 through screws, and at this time, the position separation of the camera component 2 and the bracket component 3 relative to the apparatus main body 1 cannot be achieved through simple manual disassembly, that is, compared with simple manual disassembly (such as clamping connection or magnetic attraction connection), the fixed connection through connecting pieces (screws and bolts) may also form an integrated integral structure; for another example, a part of the camera module 2 and the bracket module 3 is welded with the apparatus main body 1 to form a non-detachable integral structure, or the camera module 2, the bracket module 3 and the housing part of the apparatus main body 1 are integrally injection molded, and with respect to detachable connection, other forms similar to structural forms of welding and injection molding, which damage the connection relationship after hard detachment, are all integrally provided.

So set up, through setting up camera subassembly 2 and bracket component 3 homogeneity on equipment main part 1, have better structural stability, need not to carry out the dismouting repeatedly to camera subassembly 2 and bracket component 3 in the use, be favorable to promoting availability factor, portable is favorable to preventing the part loss damage moreover.

The camera assembly 2 comprises a camera main body and a first rotating structure 21, wherein the camera main body is integrally arranged on the equipment main body 1 through the first rotating structure 21, so that the camera main body can rotate relative to the equipment main body 1, and a user can adjust the inclination angle between the camera main body and the screen assembly 13 of the equipment main body 1 in a certain range according to the self requirement, so that different auxiliary learning functions are completed. For example, the camera body is directed to the front desktop of the apparatus body 1 for character recognition, and for example, the camera body is directed to the front user of the apparatus body 1 for gesture, face, and sitting posture recognition, and for example, the camera body is directed to the rear of the apparatus body 1 for recognition of the background of the recording environment.

It will be appreciated that the first rotating structure 21 has at least one rotation axis and two connection ends, one of the connection ends is integrally provided with the apparatus main body 1, and the other connection end is integrally provided with the camera main body, and the camera main body is rotated relative to the apparatus main body 1 along the rotation axis by the two connection ends (the rotation axis has at least one rotation to realize at least one reciprocating direction), so that the camera main body is rotated relative to the apparatus main body 1 along the rotation axis, and further the front-back rotation and the left-right rotation of the camera main body relative to the apparatus main body 1 are realized.

As shown in fig. 1, the camera body includes a camera front case 23, a camera rear case 24, and a camera unit 22, and the camera front case 23 and the camera rear case 24 are positioned by a positioning column and fixed by self-tapping screws. The camera unit 22 is fixed by means of double-sided adhesive tape and the camera front shell 23, is connected with the functional circuit assembly through the flexible circuit board, and is used for finishing information input of visible light images, and combining with an internal software algorithm, the functions of character recognition, finger reading, gesture recognition, sitting posture adjustment reminding and the like are finished.

As shown in fig. 3, the first rotating structure 21 includes a first connecting portion 211 and a second connecting portion 212, the first connecting portion 211 and the second connecting portion 212 are hinged through a rotating shaft, the first connecting portion 211 is fixed with the front camera housing 23 or the rear camera housing 24, the second connecting portion 212 is fixed with the apparatus main body 1, and further rotation of the camera main body relative to the apparatus main body 1 is achieved. Of course, for convenience of adjustment and support, a damping shaft is provided between the first connection portion 211 and the second connection portion 212.

The bracket component 3 comprises a bracket main body 32 and a second rotating structure 31, wherein the bracket main body 32 is integrally arranged on the equipment main body 1 through the second rotating structure 31, so that the bracket main body 32 can rotate relative to the equipment main body 1, and thus, a user can adjust the relative angle between the bracket main body 32 and the equipment main body 1 according to the self requirement, thereby realizing the relative angle adjustment of the screen component 13 of the equipment main body 1 and a desktop, meeting the diversified use situations of the user and improving the use comfort of the user. For example, when the angle between the screen component 13 of the device main body 1 and the desktop is large, the device can be suitable for a user to watch the screen component 13 on a lesson, and when the angle between the screen component 13 of the device main body 1 and the desktop is small, the device can be suitable for the user to work in combination with learning content or write and draw on the screen component 13.

It will be appreciated that the second rotating structure 31 has at least one rotation axis and two connection ends, one of the connection ends is integrally provided with the apparatus main body 1, and the other connection end is integrally provided with the stand main body 32, and the stand main body 32 is rotated along the rotation axis relative to the apparatus main body 1 by rotating the two connection ends along the rotation axis, so that the stand main body 32 is rotated up and down and rotated left and right relative to the apparatus main body 1.

As shown in fig. 4, the second rotating structure 31 includes a fixing portion 311 and a rotating portion 312, the two rotating portions 312 are provided, both are rotatably connected to the fixing portion 311, and the two rotating portions 312 are coaxially provided, the fixing portion 311 is fixed to the apparatus main body 1, the two rotating portions 312 are respectively fixed to both side portions of the bracket main body 32, and the rotation of the bracket main body 32 relative to the apparatus main body 1 is achieved by the rotation of the rotating portions 312 relative to the fixing portion 311. Of course, a damping shaft is provided between the rotating portion 312 and the fixed portion 311 for the convenience of adjustment and support.

The device main body 1 comprises a front shell component 11 and a rear shell component 12, wherein the front shell component 11 and the rear shell component 12 are connected to form a shell of the device main body 1, one end of a first rotating structure 21 is connected with the front shell component 11, the other end of the first rotating structure 21 is connected with a camera main body, specifically, a first connecting part 211 of the first rotating structure 21 is connected with a front shell 23 of the camera through a screw, a second connecting part 212 is connected with the front shell component 11 through a screw, and further the integral arrangement of the camera component 2 and the device main body 1 is realized; one end of the second rotating structure 31 is connected with the rear housing assembly 12, the other end is connected with the stand body 32, specifically, the fixing portion 311 of the second rotating structure 31 is connected with the rear housing assembly 12 through a screw, the rotating portion 312 is connected with the stand body 32 through a screw, and further, the stand assembly 3 and the apparatus body 1 are integrally arranged. Thus, the structure is simple, and the processing and the assembly are convenient.

As shown in fig. 1, the apparatus main body 1 includes a functional circuit assembly 14, a front case assembly 11, a rear case assembly 12, and a battery. The screen component 13 is fixed with the front shell component 11 through double faced adhesive tape, and is connected with the functional circuit component 14 through a flexible circuit board, and under the calculation and control of a main board, a user can realize the interaction function of information such as images, characters and the like through the screen component 13. The functional circuit components 14 are fixed with the front shell component 11 through screws, the functional circuit components 14 are connected through a flexible circuit board, so that the functions of inputting, processing, outputting and the like of external sound signals and optical signals can be realized, good interaction experience is provided for users, and the functions of assisting in learning such as reading, sitting posture correction and the like are realized by combining a built-in software algorithm. The battery and the front shell component 11 are fixed through back glue, and are connected with the functional circuit component 14 through a flexible circuit board to realize power supply connection. The front shell assembly 11 and the rear shell assembly 12 are fixed through buckles and screws which are arranged along the circumferential direction so as to support the functions.

Since the front shell component 11 and the rear shell component 12 are mostly made of plastic materials, the bearing performance is poor, the device main body 1 is also provided with a bearing piece, the bearing piece is arranged between the front shell component 11 and the rear shell component 12 and can play a role in supporting and bearing the front shell component 11 and the rear shell component 12, meanwhile, the first rotating structure 21 and the second rotating structure 31 are both connected with the bearing piece, specifically, the second connecting part 212 of the first connecting structure is connected with the front shell component 11 and the bearing piece through screws, namely, the screws are simultaneously arranged on the second connecting part 212, the front shell component 11 and the bearing piece; the fixing portion 311 of the second connection structure is connected to the rear case assembly 12 and the carrier by screws, i.e., the screws are simultaneously mounted to the fixing portion 311, the rear case assembly 12 and the carrier. In this way, the stability and the integrity of the connection of the camera module 2 and the bracket module 3 can be further improved.

Here, the carrier is provided as a metal part to have a good structural rigidity.

In some preferred embodiments, the first rotating structure 21 is electrically connected to the device main body 1, so as to transmit the rotating state of the first rotating structure 21 to the device main body 1, specifically, the first rotating structure 21 has a detecting member for detecting the relative rotating state (i.e. the relative rotating angle) of the first connecting portion 211 and the second connecting portion 212, and the detecting member is electrically connected to a motherboard in the device main body 1, so as to transmit the rotating state of the first connecting portion 211 and the second connecting portion 212 to the motherboard, so that the screen assembly 13 of the device main body 1 displays the parameter of the rotating state, and further, the rotating state of the first connecting portion 211 and the second connecting portion 212 can be feedback-adjusted through the motherboard, which is beneficial to realizing automatic control of rotation adjustment of the camera main body.

And/or the number of the groups of groups,

the second rotating structure 31 is electrically connected to the apparatus main body 1 so as to be able to transmit the rotating state of the second rotating structure 31 to the apparatus main body 1. Specifically, the second rotating structure 31 has a detecting member for detecting the relative rotation states (i.e. the relative rotation angles) of the fixing portion 311 and the rotating portion 312, and the detecting member is electrically connected with the main board in the apparatus main body 1, so as to transmit the rotation states of the fixing portion 311 and the rotating portion 312 to the main board, so that the screen assembly 13 of the apparatus main body 1 displays the parameters of the rotation states, and further, the rotation states of the fixing portion 311 and the rotating portion 312 can be feedback-adjusted through the main board, which is beneficial to realizing the automatic control of the rotation adjustment of the camera main body.

It should be noted that, the above-mentioned functional structures for detecting the rotation state of the first rotation structure 21 and the second rotation structure 31 are all existing designs, and in this scheme, only the structural functions in the prior art are utilized to implement the corresponding innovative design.

When the camera is used, the support angle of the bracket main body 32 relative to the equipment main body 1 is adjusted, namely, the inclination angle of the screen assembly 13 of the equipment main body 1 relative to the desktop is adjusted, meanwhile, the camera main body can incline along with the inclination of the equipment main body 1, further, the angle of the camera main body relative to the equipment main body 1 is required to be further adjusted, in order to facilitate the alignment of the angle of the camera main body, the rotation axes of the first rotation structure 21 and the second rotation structure 31 meet the parallel condition, so that the rotation angle of the camera main body relative to the equipment main body 1 and the rotation angle of the bracket main body 32 relative to the equipment main body 1 are mutually compensated, and the orientation of the camera can be restored to the initial state by correspondingly rotating the bracket main body 32 and the camera main body, thereby being convenient and quick.

It should be noted that, the "parallel condition" is a state close to parallel, that is, the rotation axes of the first rotation structure 21 and the second rotation structure 31 are close to parallel, and an included angle formed by the two is less than 5 degrees and greater than or equal to 0 degrees.

The camera assembly 2 is integrally arranged at the top of the equipment main body 1 so as to obtain a better visual angle, and the adjustable range is large and the practicality is strong.

In some preferred schemes, the bottom of support main part 32 and equipment main part 1 is provided with anti-skidding structure, and support main part 32 one end sets up with equipment main part 1 an organic whole, and the other end sets up anti-skidding structure, and when using, anti-skidding structure on equipment main part 1 and the support main part 32 is direct with the desktop contact, can prevent that equipment main part 1 from skidding and toppling over, promotes supporting stability.

Here, the antiskid structure sets up to silica gel pad 4 to through the double faced adhesive tape bonding, the structure is firm, and the reliability is high, convenient processing preparation.

Specifically, as shown in fig. 1, the bottom of the rear shell component 12 of the device main body 1 is provided with the silica gel pad 4, the bottom of the rear shell component 12 is fixed through the double faced adhesive tape, and the silica gel pad 4 is arranged to ensure that good friction force exists between the bottom of the device main body 1 and the desktop under various unfolding angles, so that a user cannot easily move when operating the device main body 1. Set up silica gel pad 4 on the support main part 32, silica gel pad 4 is fixed between through double faced adhesive tape and the support, and silica gel pad 4 and desktop contact when support main part 32 is expanded, realizes the antiskid function of support main part 32 through the frictional force between silica gel pad 4 and the desktop, avoids the user to take place to remove when operating equipment main part 1.

The basic principles of the present utility model have been described above in connection with specific embodiments, however, it should be noted that the advantages, benefits, effects, etc. mentioned in the present utility model are merely examples and not intended to be limiting, and these advantages, benefits, effects, etc. are not to be considered as essential to the various embodiments of the present utility model. Furthermore, the specific details disclosed herein are for purposes of illustration and understanding only, and are not intended to be limiting, as the utility model is not necessarily limited to practice with the above described specific details.

The block diagrams of the devices, apparatuses, devices, systems referred to in the present utility model are only illustrative examples and are not intended to require or imply that the connections, arrangements, configurations must be made in the manner shown in the block diagrams. As will be appreciated by one of skill in the art, the devices, apparatuses, devices, systems may be connected, arranged, configured in any manner. Words such as "including," "comprising," "having," and the like are words of openness and mean "including but not limited to," and are used interchangeably therewith. The terms "or" and "as used herein refer to and are used interchangeably with the term" and/or "unless the context clearly indicates otherwise. The term "such as" as used herein refers to, and is used interchangeably with, the phrase "such as, but not limited to.

It is also noted that in the apparatus, devices and methods of the present utility model, the components or steps may be disassembled and/or assembled. Such decomposition and/or recombination should be considered as equivalent aspects of the present utility model.

The previous description of the disclosed aspects is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these aspects will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other aspects without departing from the scope of the utility model. Thus, the present utility model is not intended to be limited to the aspects shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

It should be understood that the terms "first", "second", "third", "fourth", "fifth" and "sixth" used in the description of the embodiments of the present utility model are used for more clearly describing the technical solutions, and are not intended to limit the scope of the present utility model.

The foregoing description has been presented for purposes of illustration and description. Furthermore, this description is not intended to limit embodiments of the utility model to the form disclosed herein. Although a number of example aspects and embodiments have been discussed above, a person of ordinary skill in the art will recognize certain variations, modifications, alterations, additions, and subcombinations thereof.

Claims (10)

1. The learning machine is characterized by comprising an equipment main body, a camera component and a bracket component, wherein the equipment main body comprises a screen component and an audio output component, and the camera component, the bracket component and the equipment main body are fixedly connected into a whole or are integrally injection-molded or welded into a whole.

2. The learning machine of claim 1 wherein the camera assembly comprises:

a camera body;

the camera body is integrally arranged on the equipment body through the first rotating structure, so that the camera body can rotate relative to the equipment body.

3. The learning machine of claim 2 wherein the stand assembly comprises:

a holder main body;

the second rotating structure is integrally arranged on the equipment main body through the second rotating structure, so that the equipment main body can rotate relative to the equipment main body.

4. A learning machine according to claim 3, wherein the apparatus body includes:

the front shell component is connected with one end of the first rotating structure, and the other end of the first rotating structure is connected with the camera main body;

and one end of the second rotating structure is connected with the rear shell assembly, and the other end of the second rotating structure is connected with the bracket main body.

5. The learning machine of claim 4 wherein the device body further comprises:

the bearing piece is arranged between the front shell component and the rear shell component, and the first rotating structure and the second rotating structure are connected with the bearing piece.

6. A learning machine according to claim 3, wherein the first rotating structure and/or the second rotating structure is electrically connected to the apparatus main body so as to be able to transmit the rotating state of the first rotating structure and/or the second rotating structure to the apparatus main body.

7. A learning machine according to claim 3, wherein the axes of rotation of the first and second rotational structures satisfy a parallelism condition.

8. The learning machine of claim 1 wherein the camera assembly is integrally provided on top of the device body.

9. A learning machine according to claim 3, wherein an end of the stand body remote from the apparatus body and a bottom of the apparatus body are provided with an anti-slip structure.

10. The learning machine of claim 9 wherein the anti-slip structure is provided as a silica gel pad.