CN113434018A - Notebook computer structure with slowly fall function - Google Patents

Abstract

The utility model relates to a notebook computer structure with slowly fall function, the technical field who relates to the notebook computer structure, including base member and display panel, be provided with a plurality of damping pivots between base member and the display panel, the damping pivot includes the base member connecting plate, panel connection board and axis body, be provided with axle bed one on the base member connecting plate, be provided with axle bed two on the panel connection board, axle bed one and axle bed two pass through the axis body and rotate the connection, the base member connecting plate is fixed on the base member, the panel connection board is fixed on the display panel, the cover is equipped with the spring on the axis body, the spring sets up on one side of keeping away from axle bed one on axle bed two, spring one end is fixed on the axis body, other end butt is on axle bed two, the axis body is used for along length direction slip on axle bed one and axle bed two. This application has the effect that makes things convenient for the user of service to adjust display panel pivoted frictional force on the base member.

Description

Notebook computer structure with slowly fall function

Technical Field

The application relates to the technical field of notebook computer structures, in particular to a notebook computer structure with a slow descending function.

Background

The notebook computer is a widely applied tool in modern work and study, and compared with the traditional desktop computer, the notebook computer has the advantages of small weight, small volume, convenience in carrying and the like.

Relevant notebook computer structure includes base member and display panel, and the base member is shell structure, installs spare parts such as mainboard, treater on the base member, installs equipment such as display screen, camera on the display panel, is provided with the pivot between base member and the display panel, and base member and display panel rotate through the pivot and connect to make display panel rotate to the laminating on the base member. The pivot includes base member connecting plate, panel connecting plate and axis body, all is provided with the axle bed on base member connecting plate and the panel connecting plate, and the axis body runs through the axle bed, and then makes base member connecting plate and panel connecting plate can rotate through the axis body and connect, and the user of service connects the panel connecting plate on the panel through connecting the base member connecting plate on the base member to make base member and display panel rotate through the pivot and connect. The user of service mutually supports and rubs through the axle bed that makes on the base member connecting plate and the axle bed on the panel connecting plate, can promote the frictional force of base member and display panel junction, and then makes display panel rotate to arbitrary angle and static, makes things convenient for the user of service to watch the display screen at different angles.

The above prior art solutions have the following drawbacks: when the notebook computer is used for a long time, the friction force between the base body and the display panel is gradually reduced, and then the display panel is easily rotated under the action of self weight, so that the display screen is difficult to stand at any angle, and the notebook computer is required to be disassembled when the rotating shaft is replaced, and the use is inconvenient.

Disclosure of Invention

In order to facilitate the adjustment of the friction force of the display panel rotating on the base body by a user, the application provides a notebook computer structure with a slow descending function.

The application provides a notebook computer structure with slowly fall function adopts following technical scheme:

the utility model provides a notebook computer structure with slowly fall function, including base member and display panel, be provided with a plurality of damping pivots between base member and the display panel, the damping pivot includes the base member connecting plate, panel connecting plate and axis body, be provided with axle bed one on the base member connecting plate, be provided with axle bed two on the panel connecting plate, axle bed one and axle bed two pass through the axis body and rotate the connection, the base member connecting plate is fixed on the base member, the panel connecting plate is fixed on the display panel, the cover is equipped with the spring on the axis body, the spring sets up on the one side of keeping away from axle bed one on axle bed two, spring one end is fixed on the axis body, the other end butt is on axle bed two, the axis body is used for sliding along length direction on axle bed one and axle bed two.

By adopting the technical scheme, the damping rotating shaft is arranged between the base body and the display panel, so that the display panel can be rotatably connected on the base body through the damping rotating shaft, the first shaft seat is arranged on the base body connecting plate, a second shaft seat is arranged on the panel connecting plate, so that the first shaft seat and the second shaft seat can be mutually abutted on the shaft body, so that the panel connecting plate can rotate to any position and keep static when rotating, thereby achieving the effect of making the display panel and the base body static at any angle, one end of the spring is fixed on the shaft body, the other end of the spring is abutted against the second shaft seat, a user can change the tightening degree of the spring by sliding the shaft body along the length direction of the shaft body, so that the mutually abutted pressure between the first shaft seat and the second shaft seat is changed, and then the friction between the first shaft seat and the second shaft seat is changed, so that a user can adjust the friction of the display panel rotating on the base body conveniently.

Optionally, a limiting piece is arranged at one end, close to the spring, of the shaft body, the limiting piece is connected to the base body connecting plate in a sliding mode, the sliding direction of the limiting piece is along the length direction of the shaft body, and the spring is arranged between the limiting piece and the second shaft seat.

Through adopting above-mentioned technical scheme, through setting up the limiting piece on the axis body, make limiting piece sliding connection on the base member connecting plate, thereby make the axis body can slide on axle bed one and axle bed two, through making the spring setting between limiting piece and axle bed two, the user passes through the adjustment axle body position, can make the interval change of axle bed two and limiting piece, and then make axle bed two and limiting piece can extrude the spring, make the spring promote the elasticity of axle bed two, reach the effect that makes the pressure increase of mutual butt between axle bed one and the axle bed two.

Optionally, a butting seat is arranged on the base connecting plate, a sliding rod is arranged on the butting seat, the sliding rod is connected with the limiting piece in a sliding mode, the limiting piece slides along the sliding direction of the sliding rod, and the limiting piece is clamped on the sliding rod.

Through adopting above-mentioned technical scheme, through setting up the butt joint seat on the base member connecting plate, set up the slide bar on the butt joint seat, make the slide bar play the effect of blocking the restriction piece, the slide bar can make axis body one end connect on the base member connecting plate through the restriction piece, and then promotes axle bed one and axle bed two pivoted stability on the axis body.

Optionally, the shaft body is connected with a nut in a threaded manner, the nut is arranged at one end, far away from the limiting piece, of the shaft body, and the nut is used for abutting against one side, far away from the second shaft seat, of the first shaft seat.

Through adopting above-mentioned technical scheme, through set up the nut on the axis body, make nut threaded connection on the axis body, the user revolves the nut soon, and the restriction card is on the slide bar, makes the axis body be difficult to along with the nut gyration, and then can make the relative axis body of nut remove, through making the nut butt on axle bed one, makes nut and restriction interval change, and then reaches the effect of the tight degree of adjustment spring.

Optionally, the nut is disposed on an end of the shaft body away from the other damping shaft.

Through adopting above-mentioned technical scheme, serve through making the nut setting keep away from another damping pivot on the axis body to make the nut can set up in base member edge, make things convenient for the user of service to revolve the nut.

Optionally, a regular hexagon chute is formed in the end face of one end, far away from the nut, of the limiting piece, the cross section of the sliding rod is in a regular hexagon shape, the sliding rod is inserted into the chute, and the sliding rod is used for clamping the limiting piece.

By adopting the technical scheme, the sliding grooves in the regular hexagon are formed in the limiting pieces, so that the sliding rods are inserted into the sliding grooves, the inner walls of the sliding grooves are abutted against the sliding rods, the limiting pieces can be clamped with the sliding rods, the sliding rods are arranged in the regular hexagon, stress on the sliding rods and the sliding grooves is uniform, and the probability of corner fracture of the sliding rods is reduced.

Optionally, a protective shell is arranged on the base connecting plate, and the protective shell covers the spring, the limiting piece and the sliding rod.

Through adopting above-mentioned technical scheme, through set up the protective housing on the base member connecting plate, make debris be difficult to the card in the spring and on the slide bar, make the protective housing can play the effect of protection spring, restriction spare and slide bar, make the axis body can smooth slip on the base member connecting plate.

Optionally, a filling plate is slidably connected to the protective shell and used for plugging the protective shell, the shaft body penetrates through the filling plate, the filling plate is slidably connected to the shaft body, and the filling plate is located between the spring and the second shaft seat.

Through adopting above-mentioned technical scheme, through setting up the infill panel in the protective housing, make infill panel sliding connection in the protective housing, and then make the spring can push up the infill panel, make the infill panel butt on axle bed two, through making infill panel shutoff protective housing, can reduce during debris gets into the protective housing, further play the effect that makes the axle body smooth gliding on the base member connecting plate.

To sum up, the beneficial technical effect of this application does:

1. the damping rotating shaft is arranged between the base body and the display panel, so that the display panel can be rotatably connected to the base body through the damping rotating shaft, the first shaft seat is arranged on the base body connecting plate, a second shaft seat is arranged on the panel connecting plate, so that the first shaft seat and the second shaft seat can be mutually abutted on the shaft body, so that the panel connecting plate can rotate to any position and keep static when rotating, thereby achieving the effect of making the display panel and the base body static at any angle, one end of the spring is fixed on the shaft body, the other end of the spring is abutted against the second shaft seat, a user can change the tightening degree of the spring by sliding the shaft body along the length direction of the shaft body, so that the mutually abutted pressure between the first shaft seat and the second shaft seat is changed, the friction force between the first shaft seat and the second shaft seat is changed, so that a user can adjust the friction force of the display panel rotating on the base body conveniently;

2. the limiting piece is arranged on the shaft body, so that the limiting piece is connected to the base body connecting plate in a sliding mode, the shaft body can slide on the first shaft seat and the second shaft seat, the spring is arranged between the limiting piece and the second shaft seat, a user can change the distance between the second shaft seat and the limiting piece by adjusting the position of the shaft body, the second shaft seat and the limiting piece can extrude the spring, the elasticity of the spring to the second shaft seat is improved, and the effect of increasing the pressure of mutual abutting between the first shaft seat and the second shaft seat is achieved;

3. through set up the nut on the axis body, make nut threaded connection on the axis body, the user revolves the nut soon, and the restriction card is on the slide bar, makes the axis body be difficult to along with the nut gyration, and then can make the relative axis body of nut remove, through making the nut butt on axle bed one, makes nut and restriction interval change, and then reaches the effect of the tight degree of adjustment spring.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a partial sectional structural view of a damping rotating shaft according to an embodiment of the present application.

FIG. 4 is a schematic view illustrating a connection relationship between a shaft and a nut according to an embodiment of the present invention.

Reference numerals: 1. a substrate; 2. a display panel; 3. a damping rotating shaft; 31. a base connecting plate; 311. a first shaft seat; 312. a butting seat; 313. a slide bar; 314. a protective shell; 315. a infill panel; 32. a panel connecting plate; 321. a second shaft seat; 33. a shaft body; 331. a spring; 332. a limiting member; 333. a threaded end; 334. a chute; 34. and (4) a nut.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses notebook structure with slowly fall function. Referring to fig. 1, including base member 1 and display panel 2, base member 1 sets up to the rectangular plate structure, base member 1 is used for installing notebook computer's spare part, display panel 2 sets up to the rectangular plate structure, display panel 2 is used for installing notebook computer's display screen, be provided with damping pivot 3 between base member 1 and the display panel 2, be provided with two damping pivots 3 in this embodiment, damping pivot 3 is used for making base member 1 and display panel 2 rotate to be connected, thereby make display panel 2 can rotate to the laminating at base member 1 on the surface, play the effect of conveniently accomodating notebook computer.

Referring to fig. 2 and 3, the damping rotating shaft 3 includes a base connecting plate 31, a panel connecting plate 32 and a shaft body 33, the base connecting plate 31 is of a thin plate structure, the panel connecting plate 32 is of a thin plate structure, a plurality of through holes are formed in the base connecting plate 31, a user can fixedly connect the base connecting plate 31 to the base 1 through bolts, a plurality of through holes are formed in the panel connecting plate 32, and the user can fixedly connect the panel connecting plate 32 to the display panel 2 through bolts. The base connecting plate 31 is provided with a first shaft seat 311, the first shaft seat 311 is connected to the base connecting plate 31 through welding or integrated forming, the panel connecting plate 32 is provided with a second shaft seat 321, and the second shaft seat 321 is connected to the panel connecting plate 32 through welding or integrated forming. The shaft body 33 penetrates through the first shaft seat 311 and the second shaft seat 321, and the shaft body 33 is parallel to both the base connecting plate 31 and the panel connecting plate 32, so that the base connecting plate 31 and the panel connecting plate 32 can be rotatably connected, and the display panel 2 can rotate on the base body 1 through the damping rotating shaft 3. When the first shaft seat 311 and the second shaft seat 321 are disposed on the shaft body 33, the first shaft seat 311 and the second shaft seat 321 can slide on the shaft body 33 along the length direction of the shaft body 33.

Referring to fig. 3, a spring 331 is disposed on the shaft body 33, the spring 331 is disposed on the shaft body 33, and the spring 331 is disposed on the second shaft seat 321 on a side away from the first shaft seat 311. One end of the spring 331 is abutted against the base connecting plate 31, and the other end is abutted against the second shaft seat 321. Spring 331 keeps the contraction state and butt on axle seat two 321 under natural state to make axle seat two 321 can pass through spring 331 butt on axle seat one 311, and then make the second 321 of axle seat and the first 311 of axle seat produce frictional force, make axle seat two 321 produce the resistance when rotating on axis body 33, and then when making display panel 2 rotate to arbitrary angle, axle seat two 321 homoenergetic keeps static under the frictional force effect, and then make display panel 2 can be static at arbitrary angle, make things convenient for the orientation of display screen on the user's adjustment display panel 2.

Referring to fig. 3 and 4, a limiting member 332 is disposed on one end of the shaft body 33, the limiting member 332 is disposed on one end of the shaft body 33 close to the shaft seat 321, and the limiting member 332 is configured to slide on the base connecting plate 31 along the length direction of the shaft body 33. The shaft body 33 has a threaded end 333 at an end thereof remote from the limiting member 332, and the threaded end 333 has an external thread. One end of the spring 331 far away from the second shaft seat 321 abuts against the limiting piece 332. The screw end 333 is screwed with the screw cap 34, and the screw cap 34 abuts against one side of the first shaft seat 311 far away from the second shaft seat 321. A nut 34 is arranged on the shaft body 33 at the end remote from the other damping spindle 3. A user can enable the shaft body 33 to move relative to the nut 34 under the limiting effect of the limiting piece 332 by screwing the nut 34, so that the limiting piece 332 and the shaft body 33 slide, the distance between the limiting piece 332 and the second shaft seat 321 is changed by sliding, the tightening degree of the spring 331 located between the second shaft seat 321 and the limiting piece 332 can be adjusted, the effect of adjusting the pressure between the first shaft seat 311 and the second shaft seat 321 is achieved, the friction force of the first shaft seat 311 and the second shaft seat 321 can be changed, and the purpose of adjusting the rotation flexibility of the display panel 2 on the base body 1 is achieved. When the number of times of rotation of the display panel 2 is large, the number of times of friction between the first shaft seat 311 and the second shaft seat 321 is large, the display panel 2 is easy to rotate on the base body 1 flexibly, namely, the display panel 2 is easy to rotate under the action of self weight and is attached to the base body 1, a user is not convenient to adjust the included angle between the display panel 2 and the base body 1, the limiting piece 332 and the nut 34 are arranged on the shaft body 33, the user can rotate the nut 34, the spring 331 is enabled to be continuously tightened and abutted to the second shaft seat 321, and then the friction force between the first shaft seat 311 and the second shaft seat 321 is adjusted to the range which can enable the display panel 2 to incline and be still on the base body 1.

Referring to fig. 3 and 4, the base connecting plate 31 is provided with an abutting base 312, a sliding rod 313 is fixed on the abutting base 312 by welding, a limiting member 332 is slidably connected to the sliding rod 313, and the sliding rod 313 is coaxially arranged with the shaft body 33. The sliding bar 313 is disposed on a side of the restriction 332 remote from the spring 331. The end face of one end of the limiting piece 332, which is far away from the spring 331, is provided with a sliding groove 334, the cross sections of the sliding groove 334 and the sliding rod 313 are in regular hexagon shapes, the sliding rod 313 is inserted into the sliding groove 334, so that the sliding rod 313 plays a role in guiding and limiting, and the limiting piece 332 can slide along the length direction of the sliding rod 313 and is difficult to rotate by clamping the limiting piece 332 by the sliding rod 313. When a user screws the nut 34, the shaft body 33 is difficult to rotate through the clamping connection of the limiting piece 332 and the sliding rod 313, and then the nut 34 moves on the shaft body 33, so that the effect of adjusting the distance between the nut 34 and the limiting piece 332 is achieved, the tightening degree of the spring 331 can be changed, and the effect of adjusting the friction force between the first shaft seat 311 and the second shaft seat 321 is achieved.

Referring to fig. 2 and 3, the base connecting plate 31 is provided with a protective shell 314, and the protective shell 314 is fixed to the base connecting plate 31 by welding. The protective shell 314 is used for covering the spring 331, the limiting member 332 and the sliding rod 313, so that sundries are prevented from being stuck on the spring 331 and the sliding rod 313, and the shaft body 33 can move smoothly. A filler plate 315 is slidably connected to the protective case 314, the shaft body 33 penetrates the filler plate 315, the filler plate 315 can slide on the shaft body 33, and the filler plate 315 is disposed in the protective case 314 and blocks the protective case 314. The filling plate 315 is arranged between the second shaft seat 321 and the spring 331, and the spring 331 is abutted on the second shaft seat 321 through the filling plate 315. By providing the filling plate 315 in the protective case 314, the possibility of foreign matter entering the protective case 314 can be reduced, and the spring 331 and the shaft 33 can be protected.

The implementation principle of the embodiment of the application is as follows: through set up damping pivot 3 between base member 1 and display panel 2, make display panel 2 can rotate on base member 1, through set up the axis body 33 between axle bed 311 and axle bed two 321, make base member connecting plate 31 and panel connecting plate 32 can rotate through axis body 33, through set up spring 331 on axis body 33, make spring 331 butt between limiting member 332 and axle bed two 321, the user can be through the position of adjustment limiting member 332, make spring 331 tighten and butt on axle bed two 321, play the effect of adjustment display panel 2 pivoted frictional force size on base member 1.

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 (8)

1. A notebook computer structure with slowly fall function which characterized in that: comprises a base body (1) and a display panel (2), a plurality of damping rotating shafts (3) are arranged between the base body (1) and the display panel (2), the damping rotating shafts (3) comprise base body connecting plates (31), the display panel comprises a panel connecting plate (32) and a shaft body (33), wherein a first shaft seat (311) is arranged on a base body connecting plate (31), a second shaft seat (321) is arranged on the panel connecting plate (32), the first shaft seat (311) and the second shaft seat (321) are rotatably connected through the shaft body (33), the base body connecting plate (31) is fixed on a base body (1), the panel connecting plate (32) is fixed on the display panel (2), a spring (331) is sleeved on the shaft body (33), the spring (331) is arranged on one side, far away from the first shaft seat (311), of the shaft body (321), one end of the spring (331) is fixed on the shaft body (33), the other end of the spring is abutted to the second shaft seat (321), and the shaft body (33) is used for sliding on the first shaft seat (311) and the second shaft seat (321) along the length direction.

2. The notebook computer installation structure with slow descending function according to claim 1, wherein: a limiting piece (332) is arranged at one end, close to the spring (331), of the shaft body (33), the limiting piece (332) is connected to the base body connecting plate (31) in a sliding mode, the sliding direction of the limiting piece (332) is along the length direction of the shaft body (33), and the spring (331) is arranged between the limiting piece (332) and the second shaft seat (321).

3. The notebook computer installation structure with slow descending function according to claim 2, wherein: the base body connecting plate (31) is provided with an abutting seat (312), the abutting seat (312) is provided with a sliding rod (313), the sliding rod (313) is in sliding connection with a limiting piece (332), the limiting piece (332) slides along the sliding direction of the sliding rod (313), and the limiting piece (332) is clamped on the sliding rod (313).

4. The notebook computer installation structure with slow descending function according to claim 3, wherein: the shaft body (33) is in threaded connection with a nut (34), the nut (34) is arranged at one end, far away from the limiting piece (332), of the shaft body (33), and the nut (34) is used for being abutted to one side, far away from the second shaft seat (321), of the first shaft seat (311).

5. The notebook computer installation structure with slow descending function according to claim 4, wherein: the nut (34) is arranged on one end of the shaft body (33) far away from the other damping rotating shaft (3).

6. The notebook computer installation structure with slow descending function according to claim 5, wherein: an end face of one end, far away from the nut (34), of the limiting piece (332) is provided with a regular hexagon sliding groove (334), the cross section of the sliding rod (313) is in a regular hexagon shape, the sliding rod (313) is inserted into the sliding groove (334), and the sliding rod (313) is used for clamping the limiting piece (332).

7. The notebook computer installation structure with slow descending function according to claim 3, wherein: a protective shell (314) is arranged on the base body connecting plate (31), and the protective shell (314) covers the spring (331), the limiting piece (332) and the sliding rod (313).

8. The notebook computer installation structure with slow descending function according to claim 7, wherein: the protective shell (314) is connected with a filling plate (315) in a sliding mode, the filling plate (315) is used for sealing the protective shell (314), the shaft body (33) penetrates through the filling plate (315), the filling plate (315) is connected to the shaft body (33) in a sliding mode, and the filling plate (315) is located between the spring (331) and the second shaft seat (321).

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