CN117307928A - Notebook computer with embedded bracket - Google Patents

Abstract

The invention provides a notebook computer with an embedded bracket, which comprises a computer body and a supporting mechanism, wherein a first groove is formed in the bottom of the computer body, and a second groove is formed in the side wall of the computer body; the supporting mechanism comprises a supporting frame, a driving assembly, a universal connecting assembly and a base, and the top of the supporting frame is arranged in the first groove and hinged with the computer body; the driving component is slidably arranged in the second groove and is fixedly connected with the support frame; one end of the universal connecting component is hinged with the bottom of the supporting frame; one end of the base is connected with the other end of the universal connection assembly in a universal rotation way; by driving the driving component to slide along the second groove, the supporting frame rotates and drives the universal connection component and the base to rotate relative to the computer body to be unfolded or stored in the first groove. The invention can avoid the problems of inconvenient carrying and inconvenient operation caused by uneven use environment caused by using the traditional notebook computer bracket while not affecting the flatness of the whole machine.

Description

Notebook computer with embedded bracket

Technical Field

The invention relates to the technical field of notebook computers, in particular to a notebook computer with an embedded bracket.

Background

In the use process of a notebook computer, in order to obtain more comfortable user experience and good heat dissipation effect, people usually put the notebook computer on a notebook computer bracket for use. Among the prior art, notebook computer support is integrated into one piece design manufacturing generally, is mostly external support, and this support not only exists the inconvenient problem of use and carrying, can also appear not adapting to the circumstances of not enough smooth desktop, can appear rocking the condition during the use, and this condition can not only influence user's use experience, can also produce certain influence to notebook computer's stability in use and security, equals to the phase change and has promoted notebook computer maintenance and maintenance cost when daily use, reduces notebook computer's life.

Therefore, it is necessary to provide a notebook computer with an embedded bracket, which does not affect the flatness of the whole computer, and meanwhile, avoids the problems of inconvenient carrying and inconvenient operation caused by uneven use environment due to the use of the traditional notebook computer bracket.

Disclosure of Invention

The invention aims to provide a notebook computer with an embedded bracket, which can avoid the problems of inconvenient carrying and inconvenient operation caused by uneven use environment caused by using the traditional notebook computer bracket while not affecting the flatness of the whole computer.

In order to achieve the above purpose, the invention provides a notebook computer with an embedded bracket, which comprises a computer body and a supporting mechanism, wherein the bottom of the computer body is provided with a first groove, and the side wall of the computer body is provided with a second groove; the supporting mechanism comprises a supporting frame, a driving assembly, a universal connecting assembly and a base, and the top of the supporting frame is arranged in the first groove and hinged with the computer body; the driving component is slidably arranged in the second groove and is fixedly connected with the supporting frame; one end of the universal connection assembly is hinged with the bottom of the support frame; one end of the base is connected with the other end of the universal connection assembly in a universal rotation mode; the driving assembly is driven to slide along the second groove, so that the supporting frame rotates and drives the universal connecting assembly and the base to rotate relative to the computer body to be unfolded or stored in the first groove.

Preferably, the driving assembly comprises a transmission shaft, a swing rod and a controller, one end of the transmission shaft is fixedly connected with the supporting frame, the other end of the transmission shaft is fixedly connected with the top of the swing rod, the bottom of the swing rod is connected with the controller, and the controller is slidably arranged in the second groove.

Preferably, the notebook computer with the embedded bracket further comprises a safety mechanism, wherein the controller is movably arranged at the bottom of the swing rod in a penetrating way, and the safety mechanism is connected with the controller; the controller is stored in the computer body or moves to extend to the outer side of the computer body by locking or unlocking the controller through the safety mechanism.

Preferably, the safety mechanism comprises a limiter, a reset elastic piece, a limit elastic component and an unlocking component, wherein one side of the limiter is fixedly connected with one side of the controller, the reset elastic piece is arranged between the limiter and the computer body along the moving direction of the limiter, one end of the unlocking component is movably arranged in the computer body in a penetrating manner, the other end of the unlocking component is positioned at the outer side of the computer body, one end of the limit elastic component is inserted into the limiter, the other end of the limit elastic component is propped against the unlocking component, and the unlocking component stops the limiter from moving through the limit elastic component so as to lock the controller and store the controller in the computer body; the unlocking component is driven to move so as to push the limiting elastic component to move, so that the limiter and the controller are allowed to move under the elastic acting force of the resetting elastic component, and the controller extends out of the computer body.

Preferably, the limiting elastic component comprises a limiting spring and a buckle, the limiter is provided with a containing groove, one end of the limiting spring is connected with the inner wall of the containing groove, and one end of the buckle is slidably arranged in the containing groove and is connected with the other end of the limiting spring; the other end of the buckle is provided with a first concave structure, the unlocking component is provided with a second concave structure matched with the first concave structure, and the buckle is propped against the second concave structure of the unlocking component through the first concave structure so as to block the stopper from moving; the unlocking component is driven to move so as to push the buckle to move and compress the limiting spring, so that the first concave structure is separated from the second concave structure, and the limiter and the controller are allowed to move under the elastic acting force of the reset elastic piece; the controller and the limiter are driven to move to compress the reset elastic piece so as to drive the buckle to move to a position corresponding to the unlocking component, so that the buckle moves under the action of the elastic force of the limiting spring to enable the first concave structure to be propped against the second concave structure again.

Preferably, the unlocking component comprises an unlocking device and an unlocking rod, wherein the unlocking device is fixedly connected with one end of the unlocking rod, the second concave structure is formed on the unlocking device, and the other end of the unlocking rod movably penetrates through the computer body.

Preferably, the universal connection assembly comprises a supporting shaft and a universal shaft, one end of the supporting shaft is hinged to the bottom of the supporting frame, the other end of the supporting shaft is fixedly connected with one end of the universal shaft, and the other end of the universal shaft is connected with the base in a universal rotation mode.

Preferably, the end part of the universal shaft connected with the base is in a spherical structure, the base is provided with a spherical groove matched with the spherical structure, the spherical structure is in plug-in fit with the spherical groove, and the base can rotate universally relative to the spherical structure through the spherical groove.

Preferably, the supporting mechanism further comprises a supporting elastic piece, and the supporting elastic piece is arranged at the hinge joint of the supporting shaft and the supporting frame.

Preferably, the support mechanism further comprises an anti-slip pad, and the anti-slip pad is connected to the other end of the base.

Compared with the prior art, the notebook computer with the embedded bracket has the advantages that the supporting mechanism is arranged in the computer body, the supporting frame can rotate and drive the universal connecting assembly to rotate and spread relative to the computer body together with the base by driving the driving assembly of the supporting mechanism to slide along the second groove, and when an uneven desktop is encountered, the base can be subjected to universal rotation adjustment through the universal connecting assembly due to the fact that the universal connecting assembly is hinged to the bottom of the supporting frame, so that the uneven desktop is adapted, the supporting mechanism can achieve a good supporting effect on the computer body on the uneven desktop, the opening mode of the supporting mechanism is quicker, the notebook computer does not need to be overturned to open the bracket, the supporting mechanism is of embedded design, the notebook computer is convenient and efficient to use, space is saved, and the overall practicability and flexibility are improved; when the bottom of the computer body is not required to be supported, the driving assembly can be driven to reversely slide along the second groove, so that the support frame reversely rotates and drives the universal connection assembly and the base to reversely rotate relative to the computer body and be stored in the first groove. Therefore, the notebook computer with the embedded bracket can avoid the problems of inconvenient carrying and operation caused by uneven use environment caused by using the traditional notebook computer bracket while not affecting the flatness of the whole machine.

Drawings

Fig. 1 is a perspective view of a notebook computer with an embedded stand according to the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a bottom view of a notebook computer with an embedded stand of the present invention.

Fig. 4 is an enlarged view at B in fig. 3.

Fig. 5 is a perspective view of a supporting mechanism of a notebook computer with an embedded bracket according to the present invention.

Fig. 6 is an exploded view of the safety mechanism of the notebook computer with the embedded bracket of the present invention.

Fig. 7 is a top cross-sectional view of the safety mechanism of the notebook computer with the embedded bracket of the present invention.

Detailed Description

In order to describe the technical content and constructional features of the present invention in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 5, the notebook computer 100 with embedded bracket of the present invention includes a computer body 1 and a supporting mechanism 2, wherein a first groove 11 is provided at the bottom of the computer body 1, and a second groove 12 is provided on the side wall of the computer body 1; the supporting mechanism 2 comprises a supporting frame 21, a driving assembly 22, a universal connection assembly 23 and a base 24, wherein the top of the supporting frame 21 is arranged in the first groove 11 and hinged with the computer body 1; the driving component 22 is slidably arranged in the second groove 12, and the driving component 22 is fixedly connected with the supporting frame 21; one end of the universal connection assembly 23 is hinged with the bottom of the support frame 21; one end of the base 24 is connected with the other end of the universal connection assembly 23 in a universal rotation way; by driving the driving component 22 to slide along the second groove 12, the supporting frame 21 rotates and drives the universal connection component 23 and the base 24 to rotate and spread or store in the first groove 11 relative to the computer body 1. Specifically, the computer body 1 includes a body system portion 13 and a body display portion 14, the body display portion 14 is hinged to the body system portion 13, a first groove 11 is formed at the bottom of the body system portion 13, and a second groove 12 is formed at the side of the body system portion 13. The specific structure and principle of the fuselage system section 13 and the fuselage display section 14 are well known to those skilled in the art, and thus are not described herein.

When the computer body 1 is supported by the supporting mechanism 2, the driving component 22 of the supporting mechanism 2 is driven to slide along the second groove 12, so that the supporting frame 21 can rotate and drive the universal connection component 23 to rotate and spread relative to the computer body 1 together with the base 24, and the base 24 can perform universal rotation adjustment through the universal connection component 23 when the uneven desktop is encountered due to the fact that the universal connection component 23 is hinged to the bottom of the supporting frame 21, so that the uneven desktop is adapted, and the supporting mechanism 2 can have a good supporting effect on the computer body 1 on the uneven desktop. The opening mode of supporting mechanism 2 is more swift, need not overturn notebook computer in order to open the support any more, and supporting mechanism 2 is embedded design, and convenient to use is high-efficient moreover, saves space, promotes holistic practicality and flexibility. When the bottom of the computer body 1 is not required to be supported, the driving component 22 can be driven to reversely slide along the second groove 12, so that the supporting frame 21 reversely rotates and drives the universal connection component 23 and the base 24 to reversely rotate relative to the computer body 1 and be stored in the first groove 11.

Referring to fig. 4 and 5, in the present embodiment, the driving assembly 22 includes a driving shaft 221, a swing rod 222 and a controller 223, one end of the driving shaft 221 is fixedly connected with the supporting frame 21, the other end of the driving shaft 221 is fixedly connected with the top of the swing rod 222, the bottom of the swing rod 222 is connected with the controller 223, and the controller 223 is slidably disposed in the second groove 12; the controller 223 is driven to slide along the second groove 12, so as to drive the support frame 21 to rotate through the swing rod 222 and the transmission shaft 221. However, the structure of the driving assembly 22 is not limited thereto, and for example, the driving assembly 22 may employ only the controller 223 and directly connect the controller 223 with the supporting frame 21.

Referring to fig. 1 and 2, further, the notebook computer 100 with embedded bracket of the present invention further includes a safety mechanism 3, the controller 223 is movably disposed at the bottom of the swing link 222, and the safety mechanism 3 is connected to the controller 223; the controller 223 is locked or unlocked by the safety mechanism 3, so that the controller 223 is stored in the computer body 1 or moves to extend to the outside of the computer body 1. When the supporting mechanism 2 is not needed to support the computer body 1, the controller 223 is locked by the safety mechanism 3 and the controller 223 is stored in the computer body 1, so that the situation of mistakenly touching the controller 223 can be avoided; when the computer body 1 needs to be supported by the support mechanism 2, the controller 223 is released by the safety mechanism 3, so that the controller 223 can be movably extended out of the computer body 1.

Referring to fig. 6 and 7, in the present embodiment, the safety mechanism 3 includes a limiter 31, a reset elastic member 32, a limiting elastic member 33 and an unlocking member 34, wherein one side of the limiter 31 is fixedly connected with one side of the controller 223, the reset elastic member 32 is disposed between the limiter 31 and the computer body 1 along the moving direction of the limiter 31, one end of the unlocking member 34 is movably disposed in the computer body 1 in a penetrating manner, the other end of the unlocking member 34 is disposed outside the computer body 1, one end of the limiting elastic member 33 is inserted into the limiter 31, the other end of the limiting elastic member 33 abuts against the unlocking member 34, and the unlocking member 34 blocks the movement of the limiter 31 through the limiting elastic member 33 so as to lock and store the controller 223 in the computer body 1; by driving the unlocking component 34 to move to push the limiting elastic component 33 to move, the limiter 31 and the controller 223 are allowed to move under the elastic force of the reset elastic component 32, so that the controller 223 extends to the outside of the computer body 1.

Specifically, the limiting elastic component 33 includes a limiting spring 331 and a buckle 332, the limiter 31 is provided with a containing groove 311, one end of the limiting spring 331 is connected with the inner wall of the containing groove 311, and one end of the buckle 332 is slidably disposed in the containing groove 311 and the other end of the limiting spring 331 is connected; the other end of the buckle 332 is provided with a first concave structure 332a, the unlocking component 34 is provided with a second concave structure 341a matched with the first concave structure 332a, and the buckle 332 is propped against the second concave structure 341a of the unlocking component 34 through the first concave structure 332a so as to block the movement of the limiter 31; by driving the unlocking component 34 to move the pushing buckle 332 to move and compress the limiting spring 331, the first concave structure 332a is separated from the second concave structure 341a, so as to allow the limiter 31 and the controller 223 to move under the elastic force of the reset elastic piece 32; by driving the controller 223 and the retainer 31 to move to compress the reset elastic member 32, the buckle 332 is driven to move to a position corresponding to the unlocking component 34, so that the buckle 332 moves under the elastic force of the limiting spring 331 to make the first concave structure 332a re-prop against the second concave structure 341 a. The moving direction of the buckle 332 is perpendicular to the moving direction of the unlocking component 34, the first concave structure 332a is a cambered surface structure, and the second concave structure 341a is another cambered surface structure for the first concave structure 332a to be engaged. However, the movement direction of the buckle 332 may intersect with the movement direction of the unlocking component 34, and the first recess structure 332a and the second recess structure 341a may be inclined structures.

When the first concave structure 332a is clamped in the second concave structure 341a, the controller 223 is hidden in the body system portion 13 of the computer body 1, the reset elastic member 32 is in a compressed state by the controller 223 and the limiter 31, when the controller 223 needs to be driven to slide, the unlocking component 34 can be driven to move, so that the unlocking component 34 pushes the buckle 332 to move and compress the limiting spring 331, and the first concave structure 332a is separated from the second concave structure 341a, therefore, the controller 223 and the limiter 31 can move under the elastic force of the reset elastic member 32, and the controller 223 extends to the outer side of the body system portion 13 of the computer body 1, so that a user can drive the controller 223 to slide along the second groove 12. When the controller 223 needs to be hidden, the controller 223 is driven to move and retract into the body system portion 13 of the computer body 1, the limiter 31 moves to compress the reset elastic member 32, and the buckle 332 is driven to move to a position corresponding to the unlocking component 34, so that the buckle 332 moves under the elastic force of the limiting spring 331 to make the first concave structure 332a re-abut against and be clamped on the second concave structure 341 a.

With reference to fig. 6 and 7, in the present embodiment, the unlocking assembly 34 includes an unlocking device 341 and an unlocking rod 342, the unlocking device 341 is fixedly connected with one end of the unlocking rod 342, the second recess structure 341a is formed on the unlocking device 341, and the other end of the unlocking rod 342 is movably disposed on the computer body 1. Specifically, a space for the unlocking device 341 to move is provided in the body system portion 13 of the computer body 1, the unlocking device 341 can move in the space, meanwhile, an opening is provided in the space, and the buckle 332 can move through the opening and enter the space under the elastic force of the limiting spring 331, so that the first concave structure 332a is propped against and clamped on the second concave structure 341 a. In the process that the controller 223 moves and extends to the outer side of the body system part 13 of the computer body 1 under the action of the elastic force of the reset elastic element 32, the limiter 31 drives the limiting spring 331 and the buckle 332 to move together, and meanwhile, the buckle 332 can keep a state of extruding the limiting spring 331 under the action of the inner wall of the body system part 13 of the computer body 1.

Referring to fig. 5, in the present embodiment, the universal connection assembly 23 includes a support shaft 231 and a universal shaft 232, one end of the support shaft 231 is hinged to the bottom of the support frame 21, the other end of the support shaft 231 is fixedly connected to one end of the universal shaft 232, and the other end of the universal shaft 232 is in universal rotation connection with the base 24. However, the present invention is not limited thereto, and for example, the universal connection assembly 23 may be a universal rotation shaft with an integral structure. Specifically, the end of the universal shaft 232 connected with the base 24 is in a spherical structure (not shown in the figure), the base 24 is provided with a spherical groove (not shown in the figure) matched with the spherical structure, the spherical structure is in plug-in fit with the spherical groove, and the base 24 can rotate universally relative to the spherical structure through the spherical groove. However, it is not limited thereto, and in other embodiments, a ball structure may be disposed on the base 24, and a ball groove may be disposed on the universal shaft 232. Specifically, the two side walls of the body system part 13 of the computer body 1 are respectively provided with a second groove 12, the second grooves 12 are racetrack-shaped hollow grooves with 110 DEG radians, and the grooves are in sliding connection with the side walls of the controller 223. The shape of the support frame 21 is a linear runway-shaped three-dimensional plate structure with circular openings formed in the inner walls of the two ends, and the unfolding angle between the support frame 21 and the bottom of the machine body is 110 degrees.

With continued reference to fig. 5, in the present embodiment, the supporting mechanism 2 further includes a supporting elastic member 25, and the supporting elastic member 25 is disposed at the hinge of the supporting shaft 231 and the supporting frame 21. By providing the supporting elastic member 25, stability when the supporting shaft 231 rotates relative to the supporting frame 21 can be improved.

Referring to fig. 5 again, in the present embodiment, the supporting mechanism 2 further includes a non-slip pad 26, and the non-slip pad 26 is connected to the other end of the base 24. The anti-slip pad can improve the friction of the base 24 on the tabletop and can play a role in anti-slip.

Referring to fig. 3, in the present embodiment, four sets of supporting mechanisms 2 are symmetrically disposed at the bottom of the body system portion 13 of the computer body 1 with the computer body 1 as a center line, and four sets of safety mechanisms 3 are disposed on inner walls of four sets of controllers 223 in the four sets of supporting mechanisms 2. However, the number of the supporting mechanism 2 and the safety mechanism 3 is not limited thereto.

Referring to fig. 1 to 7, the specific working principle of the notebook computer 100 with embedded bracket of the present invention is as follows:

when the computer body 1 is required to be supported by the support mechanism 2, the controller 223 of the driving assembly 22 is driven to slide along the second groove 12 so as to drive the support frame 21 to rotate through the swing rod 222 and the transmission shaft 221, so that the support frame 21 can rotate and drive the universal connection assembly 23 to rotate and spread relative to the computer body 1 together with the base 24, and as the bottom of the support frame 21 is hinged with the support shaft 231 and the universal shaft 232, when an uneven tabletop is encountered, the base 24 can be subjected to universal rotation adjustment through the support shaft 231 and the universal shaft 232, and thus the uneven tabletop is adapted. When the bottom of the computer body 1 is not required to be supported, the controller 223 of the driving component 22 can be driven to reversely slide along the second groove 12, so that the supporting frame 21 reversely rotates and drives the universal connection component 23 and the base 24 to reversely rotate relative to the computer body 1 and be stored in the first groove 11.

When the controller 223 needs to be driven to slide, the unlocking component 34 can be driven to move, so that the unlocking component 34 pushes the buckle 332 to move and compress the limiting spring 331, and the first concave structure 332a is separated from the second concave structure 341a, so that the controller 223 and the limiter 31 can move under the action of the elastic force of the reset elastic piece 32, the controller 223 extends to the outer side of the body system part 13 of the computer body 1, and a user can drive the controller 223 to slide along the second groove 12. When the controller 223 needs to be hidden, the controller 223 is driven to move and retract into the body system portion 13 of the computer body 1, the limiter 31 moves to compress the reset elastic member 32, and the buckle 332 is driven to move to a position corresponding to the unlocking component 34, so that the buckle 332 moves under the elastic force of the limiting spring 331 to make the first concave structure 332a re-abut against and be clamped on the second concave structure 341 a.

In summary, the notebook computer 100 with the embedded bracket of the present invention can avoid the problem of inconvenient carrying and operation caused by uneven use environment due to the conventional notebook computer bracket while not affecting the flatness of the whole machine. The support mechanism 2 optimizes the traditional notebook support frame 21, the embedded design saves space, the controller 223 on the side wall of the body of the computer body 1 rotates and opens more conveniently and rapidly, and the overall practicability and flexibility are improved. In order to prevent the situation that the controller 223 is touched by mistake in the using process of the notebook computer, by arranging the safety mechanism 3, the controller 223 can be stored in the inner wall of the body of the computer body 1 when not in use, the limiter 31 on the inner wall of the controller 223 is provided with the buckle 332, the buckle 332 can be embedded into the accommodating groove 311 of the limiter 31, the unlocking rod 342 is pushed to control the unlocking rod 341 to push out the buckle 332 when in use, and then the controller 223 is ejected under the pushing of the reset elastic piece 32.

The foregoing disclosure is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A notebook computer with an embedded bracket, comprising:

the computer comprises a computer body, wherein a first groove is formed in the bottom of the computer body, and a second groove is formed in the side wall of the computer body;

the support mechanism comprises a support frame, a driving assembly, a universal connection assembly and a base, wherein the top of the support frame is arranged in the first groove and hinged with the computer body; the driving component is slidably arranged in the second groove and is fixedly connected with the supporting frame; one end of the universal connection assembly is hinged with the bottom of the support frame; one end of the base is connected with the other end of the universal connection assembly in a universal rotation mode; the driving assembly is driven to slide along the second groove, so that the supporting frame rotates and drives the universal connecting assembly and the base to rotate relative to the computer body to be unfolded or stored in the first groove.

2. The notebook computer with embedded bracket according to claim 1, wherein the driving assembly comprises a transmission shaft, a swinging rod and a controller, one end of the transmission shaft is fixedly connected with the supporting frame, the other end of the transmission shaft is fixedly connected with the top of the swinging rod, the bottom of the swinging rod is connected with the controller, and the controller is slidably arranged in the second groove; the controller is driven to slide along the second groove, so that the support frame is driven to rotate through the swing rod and the transmission shaft.

3. The notebook computer with embedded bracket according to claim 2, further comprising a safety mechanism, wherein the controller is movably arranged at the bottom of the swing rod in a penetrating way, and the safety mechanism is connected with the controller; the controller is stored in the computer body or moves to extend to the outer side of the computer body by locking or unlocking the controller through the safety mechanism.

4. The notebook computer with the embedded bracket according to claim 3, wherein the safety mechanism comprises a limiter, a reset elastic piece, a limit elastic component and an unlocking component, one side of the limiter is fixedly connected with one side of the controller, the reset elastic piece is arranged between the limiter and the computer body along the moving direction of the limiter, one end of the unlocking component is movably penetrated in the computer body, the other end of the unlocking component is positioned at the outer side of the computer body, one end of the limit elastic component is inserted into the limiter, the other end of the limit elastic component is propped against the unlocking component, and the unlocking component stops the movement of the limiter through the limit elastic component so as to lock and store the controller in the computer body; the unlocking component is driven to move so as to push the limiting elastic component to move, so that the limiter and the controller are allowed to move under the elastic acting force of the resetting elastic component, and the controller extends out of the computer body.

5. The notebook computer with the embedded bracket according to claim 4, wherein the limiting elastic component comprises a limiting spring and a buckle, the limiter is provided with a containing groove, one end of the limiting spring is connected with the inner wall of the containing groove, and one end of the buckle is slidably arranged in the containing groove and is connected with the other end of the limiting spring; the other end of the buckle is provided with a first concave structure, the unlocking component is provided with a second concave structure matched with the first concave structure, and the buckle is propped against the second concave structure of the unlocking component through the first concave structure so as to block the stopper from moving; the unlocking component is driven to move so as to push the buckle to move and compress the limiting spring, so that the first concave structure is separated from the second concave structure, and the limiter and the controller are allowed to move under the elastic acting force of the reset elastic piece; the controller and the limiter are driven to move to compress the reset elastic piece so as to drive the buckle to move to a position corresponding to the unlocking component, so that the buckle moves under the action of the elastic force of the limiting spring to enable the first concave structure to be propped against the second concave structure again.

6. The notebook computer with embedded bracket according to claim 5, wherein the unlocking component comprises an unlocking device and an unlocking rod, the unlocking device is fixedly connected with one end of the unlocking rod, the second concave structure is formed on the unlocking device, and the other end of the unlocking rod is movably arranged on the computer body in a penetrating mode.

7. The notebook computer with embedded support according to claim 1, wherein the universal connection assembly comprises a supporting shaft and a universal shaft, one end of the supporting shaft is hinged to the bottom of the supporting frame, the other end of the supporting shaft is fixedly connected with one end of the universal shaft, and the other end of the universal shaft is in universal rotation connection with the base.

8. The notebook computer with embedded support according to claim 7, wherein the end part of the universal shaft connected with the base is in a sphere structure, the base is provided with a spherical groove matched with the sphere structure, the sphere structure is in plug-in fit with the spherical groove, and the base can universally rotate relative to the sphere structure through the spherical groove.

9. The notebook computer with embedded stand according to claim 7, wherein the supporting mechanism further comprises a supporting elastic member, and the supporting elastic member is disposed at a hinge joint of the supporting shaft and the supporting frame.

10. The notebook computer with embedded stand according to claim 1, wherein the support mechanism further comprises a non-slip mat, the non-slip mat being connected to the other end of the base.