CN112486253A

CN112486253A - Ultrathin notebook structure

Info

Publication number: CN112486253A
Application number: CN202011255723.8A
Authority: CN
Inventors: 单丹; 谢向群; 谢梓彤; 钟亮; 蒋智军
Original assignee: Shenzhen Jumper Computer Technology Lo Ltd
Current assignee: Shenzhen Jumper Computer Technology Lo Ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-03-12

Abstract

The application relates to an ultra-thin notebook structure, it includes first casing, articulate in the second casing of first casing, connect in the display screen of first casing and set up the operating keyboard in the second casing, operating keyboard is including using the screw fixation in the support frame of second shells inner wall upper end and connecting in a plurality of operation buttons of support frame, the operation button passes the terminal surface that the second casing is close to first casing. This application utilizes the support frame to support the position of operation button, no longer uses other structure to support the operation button this moment to required space that occupies when having reduced the setting operation keyboard, thereby reduced notebook computer's thickness.

Description

Ultrathin notebook structure

Technical Field

The application relates to the technical field of computers, in particular to an ultrathin notebook structure.

Background

At present, with the popularization of notebook computers, the frequency of using notebook computers is increasing, and the notebook computers are usually carried about when being used, and thinner notebook computers are needed for the convenience of carrying.

However, the integration density of the existing notebook computer accessories cannot be further improved in a short time, but the requirement of making the notebook computer thinner still needs to be met.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In order to further reduce the thickness of the notebook computer under the condition that the integration density of computer accessories is not changed, the application provides an ultrathin notebook structure.

The application provides an ultra-thin notebook structure adopts following technical scheme:

the utility model provides an ultra-thin notebook structure, includes first casing, articulates in the second casing of first casing, connects in the display screen of first casing and sets up the operating keyboard in the second casing, operating keyboard is including using the support frame of screw fixation in second casing inner wall upper end and connecting in a plurality of operation buttons of support frame, the operation button passes the terminal surface that the second casing is close to first casing.

By adopting the technical scheme, the position of the operation key is supported by the support frame, and the operation key is not supported by an additional structure, so that the space occupied by the operation keyboard is reduced, and the thickness of the notebook computer is reduced.

Optionally: the screw comprises a fastening screw and a reinforcing screw, the fastening screw is arranged around the edge of the end face, far away from the operation keys, of the support frame, and the reinforcing screw is arranged between the three adjacent keys.

Through adopting above-mentioned technical scheme, utilize the fastening screw to fix a position the whole shape of support frame, utilize the reinforcement screw to inject the middle part position of support frame, the spacing of support frame is more stable this moment to make operating keyboard's use be difficult for receiving the influence.

Optionally: the upper end of the inner wall of the second shell is fixedly provided with a plurality of positioning blocks, the positioning blocks are close to the end face of the support frame and provided with positioning grooves, the positioning grooves vertically arrange the positioning blocks and penetrate through the side wall adjacent to the support frame, and the support frame is clamped in the positioning grooves.

Through adopting above-mentioned technical scheme, utilize the locating piece to inject the mounted position of support frame, fix a position more accurately at the in-process of erection bracing frame to it is more convenient to make the installation of support frame.

Optionally: and a first insulating sheet is fixed on the end face of the support frame, which is far away from the operation key.

By adopting the technical scheme, the first insulating sheet is utilized to enable the electronic elements inside the operating keyboard and the computer not to be easily interfered with each other, and meanwhile, the end, away from the operating keys, of the supporting frame is covered by the first insulating sheet, so that the inside of the computer is simpler.

Optionally: still be connected with the touch control subassembly in the second casing, the touch control subassembly includes the touch-sensitive screen and is fixed in the second insulating piece that the first casing one end was kept away from to the touch-sensitive screen, the touch-control mouth rather than the inner chamber intercommunication is seted up to the terminal surface that the second casing is close to first casing, the touch-sensitive screen sets up in the touch-control mouth, the touch-sensitive screen passes through the data line electricity with the operation button and is connected.

By adopting the technical scheme, the touch screen and the electronic elements in the notebook computer are separated by the second insulating sheet, and the thickness of the second insulating sheet is thinner in the separation process, so that the thickness of the computer can be correspondingly thinned.

Optionally: the terminal surface that the touch-sensitive screen was kept away from to the second insulating piece runs through there is the groove of stepping down, the groove of stepping down runs through the terminal surface that the second insulating piece is close to the operation button, the inslot of stepping down is arranged in to the data line.

Through adopting above-mentioned technical scheme, set up the data line in the groove of stepping down, reduce the shared space of groove of stepping down this moment, further reduced the thickness of computer.

Optionally: the display screen is a full-lamination screen.

By adopting the technical scheme, the thickness of the display screen is thinner by fully fitting the screen, so that the thickness of the notebook computer is further reduced.

Optionally: the mounting groove has been seted up to the second casing lateral wall, the mounting groove runs through second casing lower extreme, be provided with the USB socket in the mounting groove.

By adopting the technical scheme, the lower end of the USB socket cannot be blocked by utilizing the mounting groove, and at the moment, when the plug is connected with the USB socket, the lower end of the plug protrudes out of the lower end of the notebook computer, so that the USB socket can be mounted on a thinner notebook computer.

Optionally: the mounting groove inner wall is hinged with a protective shell for opening and closing the opening at the lower end of the mounting groove, and the protective shell is connected with a first torsion spring for driving the protective shell to move towards the USB interface.

Through adopting above-mentioned technical scheme, utilize the protective housing to protect the USB socket when not using, make the USB socket be difficult for producing because of receiving the striking and damage to make the use of USB socket more stable.

Optionally: the holding tank has been seted up to the protective housing upper end, the position of keeping away from the second casing in the holding tank articulates there is the housing, its upper end and mounting groove roof butt when the housing rotates to vertical state, leave the clearance between protective housing and the USB socket, the housing is connected with its second torsional spring that rotates to vertical state of drive.

Through adopting above-mentioned technical scheme, utilize housing and protective housing to seal the both ends opening of mounting groove, the dust is difficult for piling up in the mounting groove when making USB socket not use to make USB socket's use be difficult for receiving the influence.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating a data line installation position according to an embodiment of the present application;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic diagram illustrating a USB interface mounting structure according to an embodiment of the present application;

fig. 5 is an enlarged view of a portion B of fig. 4.

In the figure, 1, a first housing; 2. a second housing; 21. positioning blocks; 211. positioning a groove; 22. a touch port; 24. a protective shell; 241. accommodating grooves; 25. a first torsion spring; 26. a housing; 27. a second torsion spring; 28. mounting grooves; 3. a display screen; 4. operating a keyboard; 41. a support frame; 411. connecting holes; 412. a spring plate; 42. operating a key; 43. a data line; 5. a screw; 51. fastening screws; 52. reinforcing the screw; 6. a first insulating sheet; 7. a touch control component; 71. a touch screen; 72. a second insulating sheet; 721. a yielding groove; 8. a USB socket.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

According to the ultrathin notebook computer structure, the thickness of the notebook computer is further reduced under the condition that the integration density of computer accessories is not changed.

As shown in fig. 1, including first casing 1, articulate in second casing 2 of first casing 1, connect in display screen 3 of first casing 1 and set up in operating keyboard 4 of second casing 2, still be provided with the processing module who carries out the processing and carry out the power module that supplies power in the second casing 2, display screen 3 is connected with the processing module electricity, and display screen 3 is the full laminating screen.

As shown in fig. 2 and 3, the operation keyboard 4 includes a supporting frame 41 fixed on the upper end of the inner wall of the second casing 2 by screws 5 and a plurality of operation keys 42 electrically connected to the processing module and connected to the supporting frame 41, a plurality of connection holes 411 are formed through the end surface of the supporting frame 41 close to the operation keys 42, elastic pieces 412 are integrally formed in the connection holes 411, and the elastic pieces 412 are abutted to the operation keys 42. The upper end of the supporting frame 41 is integrally formed with a plurality of connecting pieces, the connecting pieces are inserted into the operating keys 42, so that the supporting frame 41 is fixedly connected with the operating keys 42, and one ends of the operating keys 42 far away from the supporting frame 41 penetrate through the upper end surface of the second casing 2 and extend out of the second casing 2. At this time, an additional structure for supporting the operation keyboard 4 is not required to be arranged in the process of installing the operation keys 42, so that the thickness of the operation keyboard 4 during installation is reduced, and the thickness of the notebook computer is further reduced.

As shown in fig. 3, the screw 5 includes a fastening screw 51 and a reinforcing screw 52, the fastening screw 51 is disposed around the edge of the support plate far away from the end surface of the operation key 42, the overall outline shape of the support frame 41 is located, the reinforcing screw 52 is disposed on the end surface of the support frame 41 far away from the operation key 42 and is disposed between the three adjacent operation keys 42, the reinforcing screws 5 in the same column are disposed by two operation keys 42 at an interval, the structural strength of the support frame 41 between the three adjacent operation keys 42 is high, at this time, the support frame 41 is not easily deformed when being stressed by the reinforcing screw 52, so that the use process of the support frame 41 is more stable.

As shown in fig. 3, it is more convenient to install the process location in the casing for making support frame 41, second casing 2 inner wall upper end integrated into one piece has two locating pieces 21, two locating pieces 21 are located the one side of keeping away from first casing 1, and locating slot 211 has all been seted up to the terminal surface that two locating pieces 21 are close to support frame 41, locating slot 211 is vertical setting with locating piece 21 and runs through adjacent to two lateral walls of support frame 41, support frame 41 joint is in locating slot 211, utilize locating slot 211 to inject the mounted position of support frame 41 this moment, no longer need constantly adjust the position at the in-process of mounted support frame 41, thereby make the installation of support frame 41 more convenient.

As shown in fig. 3, in order to prevent electromagnetic waves between the operation keys 42 and the processing module from interfering with each other, the first insulating sheet 6 is adhered to the end surface of the supporting frame 41 away from the operation keys 42, the supporting frame 41 and the processing module are separated by the first insulating sheet 6, so that mutual interference between the supporting frame 41 and the processing module is prevented, and the first insulating sheet 6 covers the supporting plate and the circuit on the operation keys 42, so that the wiring of the entire operation keyboard 4 is more concise.

As shown in fig. 1 and 2, the second housing 2 is further connected to a touch control assembly 7, and the touch control assembly 7 includes a touch screen 71 and a second insulating sheet 72 adhered to an end of the touch screen 71 away from the first housing 1. The end surface of the second casing 2 close to the first casing 1 is penetrated with a touch port 22 communicated with the inner cavity thereof, the touch screen 71 is arranged in the touch port 22 and fixedly connected with the second casing 2 by using a bolt, and the touch screen 71 is electrically connected with the operation key 42 by a data line 43. At this time, the touch screen 71 is separated from the electronic components inside the second casing 2 by the second insulating sheet 72, and the thickness of the second insulating sheet 72 is thinner, so that the thickness of the notebook computer is correspondingly reduced.

As shown in fig. 2, since the data line 43 connected between the touch screen 71 and the operation key 42 still has a certain thickness, in order to further reduce the overall thickness of the notebook computer, the end surface of the second insulating sheet 72 away from the touch screen 71 penetrates through the receding groove 721, the data line 43 is disposed in the receding groove 721, and the thickness of the data line 43 is less than or equal to the depth of the receding groove 721, at this time, the data line 43 no longer protrudes out of the lower end of the second insulating sheet 72, thereby further reducing the overall thickness of the notebook computer.

As shown in fig. 4, the side wall of the second casing 2 is further provided with a mounting groove 28, the mounting groove 28 penetrates through the lower end surface of the second casing 2, the mounting groove 28 is internally fixed with the USB socket 8 by using bolts, the USB socket 8 is electrically connected with the processing module, the lower end of the USB socket 8 is not limited when in use, and at this time, a space is no longer required to be reserved at the lower end of the USB socket 8, so that the overall thickness of the notebook computer is reduced.

As shown in fig. 5, since the USB socket 8 is directly exposed at the opening of the mounting groove 28, and is easily damaged when being accidentally bumped, a protective shell 24 for opening and closing the lower opening of the mounting groove 28 is hinged in the mounting groove 28, and the protective shell 24 is located below the USB socket 8. The rotating connection part of the protective shell 24 and the mounting groove 28 is coaxially provided with a first torsion spring 25, one end of the first torsion spring 25 is abutted against the inner wall of the mounting groove 28, and the other end of the first torsion spring 25 is abutted against the side wall of the protective shell 24. At this time, the lower end opening of the mounting groove 28 is sealed by the protective shell 24, and at this time, the USB interface is covered by the protective shell 24 and is not easily impacted, so that the USB can be used more stably and is not easily affected.

As shown in fig. 5, since dust is accumulated on the USB interface when not in use, thereby affecting the use of the USB interface, an accommodating groove 241 is provided on an end surface of the protective shell 24 close to the USB socket 8, the accommodating groove 241 penetrates through the end surface of the protective shell 24 away from the second housing 2, a housing 26 is hinged to a position of the accommodating groove 241 away from the rotation axis of the protective shell 24, when the housing 26 rotates to a vertical state, an upper end of the housing abuts against the top surface of the mounting groove 28, at this time, a gap is left between the protective shell 24 and the USB socket 8, and when the housing 26 rotates to be parallel to the protective shell 24, the. The housing 26 is connected with a second torsion spring 27 for driving the housing to rotate to a vertical state, one end of the second torsion spring 27 is abutted to the side wall of the accommodating groove 241, and the other end of the second torsion spring 27 is abutted to the side wall of the housing 26. The two openings of the mounting groove 28 are closed by the cover 26 and the protective shell 24, so that dust is not easily accumulated when the USB interface is not used, and the use of the USB interface is not easily affected.

The implementation principle of the embodiment is as follows: utilize support frame 41 to support operation button 42, utilize second insulating piece 72 to support touch-sensitive screen 71 simultaneously, make data line 43 set up in the groove 721 of stepping down of seting up on second insulating piece 72, set up the USB interface in lower extreme open-ended mounting groove 28 simultaneously, thereby notebook computer's thickness has been reduced, in the plug inserts the installation when using USB socket 8, push down housing 26 and rotate to the holding tank 241 in, later drive protective housing 24 and rotate downwards, make the plug be connected with USB socket 8. After the plug is unplugged, the protective shell 24 returns to the horizontal by the elastic force exerted by the first torsion spring 25, while the cover 26 returns to the vertical by the elastic force exerted by the second torsion spring 27.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. An ultra-thin notebook structure which characterized in that: including first casing (1), articulate in second casing (2) of first casing (1), connect in display screen (3) of first casing (1) and set up operating keyboard (4) in second casing (2), operating keyboard (4) are including using screw (5) to be fixed in support frame (41) of second casing (2) inner wall upper end and connecting in a plurality of operation button (42) of support frame (41), operation button (42) pass the terminal surface that second casing (2) are close to first casing (1).

2. The ultra-thin notebook structure of claim 1, wherein: the screw (5) comprises a fastening screw (51) and a reinforcing screw (52), the fastening screw (51) is arranged around the edge of the end face, far away from the operation key (42), of the support frame (41), and the reinforcing screw (52) is arranged between three adjacent keys.

3. The ultra-thin notebook structure of claim 1, wherein: second casing (2) inner wall upper end is fixed with a plurality of locating pieces (21), locating piece (21) are close to the terminal surface of support frame (41) and have been seted up constant head tank (211), constant head tank (211) are locating piece (21) vertical setting and adjacent to the lateral wall of support frame (41) to run through, support frame (41) joint is in constant head tank (211).

4. The ultra-thin notebook structure of claim 1, wherein: and a first insulating sheet (6) is fixed on the end face of the support frame (41) far away from the operation key (42).

5. The ultra-thin notebook structure of claim 1, wherein: still be connected with touch control subassembly (7) in second casing (2), touch control subassembly (7) include touch-sensitive screen (71) and are fixed in touch-sensitive screen (71) and keep away from second insulating piece (72) of first casing (1) one end, touch-control mouth (22) rather than the inner chamber intercommunication are seted up to the terminal surface that second casing (2) are close to first casing (1), touch-sensitive screen (71) set up in touch-control mouth (22), touch-sensitive screen (71) are connected through data line (43) electricity with operation button (42).

6. The ultra-thin notebook structure of claim 5, wherein: the terminal surface that touch-sensitive screen (71) were kept away from in second insulating piece (72) runs through and has abdomens groove (721), abdomens groove (721) and runs through the terminal surface that second insulating piece (72) are close to operation button (42), abdomens groove (721) is arranged in data line (43).

7. The ultra-thin notebook structure of claim 1, wherein: the display screen (3) is a full-lamination screen.

8. The ultra-thin notebook structure of claim 1, wherein: mounting groove (28) have been seted up to second casing (2) lateral wall, mounting groove (28) run through second casing (2) lower extreme, be provided with USB socket (8) in mounting groove (28).

9. The ultra-thin notebook structure of claim 8, wherein: the mounting groove (28) inner wall articulates there is protective housing (24) of opening and close mounting groove (28) lower extreme opening, protective housing (24) are connected with its first torsional spring (25) of moving towards USB socket (8) of drive.

10. The ultra-thin notebook structure of claim 9, wherein: holding tank (241) have been seted up to protective housing (24) upper end, the position of keeping away from second casing (2) in holding tank (241) articulates there is housing (26), its upper end and mounting groove (28) roof butt when housing (26) rotates to vertical state, leave the clearance between protective housing (24) and USB socket (8), housing (26) are connected with its second torsional spring (27) that rotate to vertical state of drive.