CN220248645U - Pivot mechanism and notebook computer - Google Patents

Abstract

A pivot mechanism and a notebook computer are provided, wherein the pivot mechanism comprises a fixed plate, a shaft, a limiting piece and a movable plate. The fixed plate is provided with a slot, the slot is provided with a limiting section and a movable section, and the opening size of the limiting section is smaller than that of the movable section. The shaft piece is arranged in the slot in a penetrating way, the limiting piece is sleeved on the shaft piece and is positioned in the slot, and the limiting piece is provided with a first outer diameter and a second outer diameter. The first outer diameter is smaller than the second outer diameter, the opening size of the limiting section is between the first outer diameter and the second outer diameter, and the opening size of the movable section is larger than or equal to the second outer diameter. The shaft member and the limiting member can move in the slot relative to the fixed plate through the first outer diameter and can rotate in the movable section relative to the fixed plate through the second outer diameter. The movable plate is arranged on the shaft member and can move or rotate relative to the fixed plate according to the movement or rotation of the shaft member relative to the fixed plate.

Description

Pivot mechanism and notebook computer

Technical Field

The present utility model relates to a pivot mechanism and a notebook computer, and more particularly, to a pivot mechanism suitable for a notebook computer.

Background

Among various notebook designs, when the notebook is turned open for use, the display device is abutted against the desktop, which is generally called a "sink design".

However, when a hinge is used, the display device is required to be protruded from the host on the side close to the hinge, so that the display device and the host cannot interfere with each other during the pivoting process of the notebook. However, such a design may cause the internal space of the host to be limited by the size of the display device, so that the internal components are not easily configured. Some manufacturers can match the sinking design with more than two rotating shafts to avoid that the internal space of the host is limited by the size of the display device, but the structure is complicated.

Disclosure of Invention

The utility model aims to provide a pivot mechanism and a notebook computer, which are used for solving the problems that the structure of the notebook computer with a sinking design is complex, the size of a host is limited by the size of a display device, and the internal space configuration is limited.

The pivot mechanism disclosed in one embodiment of the utility model is used for pivoting a host and a display device. The pivot mechanism comprises a fixed plate, a shaft, a limiting piece and a movable plate. The fixed plate has a slot. The slot is provided with a limit section and a movable section. The limiting section has a first opening size in a first direction. The movable section has a second opening dimension in the first direction. The first opening size is smaller than the second opening size. The shaft piece is arranged in the slot in a penetrating way. The limiting piece is sleeved on the shaft piece and is positioned in the slot. The limiting piece is provided with a trimming edge, an outer periphery and a rotation center. The outer periphery is connected with the trimming. The straight line distance from the cutting edge to the outer periphery through the rotation center is a first outer diameter. The straight line distance between two opposite sides of the outer periphery passing through the rotation center is a second outer diameter. The first outer diameter is smaller than the second outer diameter. The first opening is sized between the first outer diameter and the second outer diameter. The second opening size is greater than or equal to the second outer diameter. The shaft and the limiting piece can move between the limiting section and the movable section in a second direction perpendicular to the first direction relative to the fixed plate through the first outer diameter. The shaft member and the limiting member can rotate relative to the fixed plate member in the movable section by a second outer diameter in a third direction perpendicular to the first direction and the second direction and passing through the rotation center as a rotation axis. The movable plate is arranged on the shaft piece. The movable plate can move or rotate relative to the fixed plate according to the movement or rotation of the shaft member relative to the fixed plate.

According to one embodiment of the present utility model, the fixing device further comprises a first assembling piece and a second assembling piece, wherein the first assembling piece and the second assembling piece sandwich the fixing plate and the limiting piece therebetween, the first assembling piece and the second assembling piece are sleeved on the shaft and can move together with the shaft and the limiting piece relative to the fixing plate, the first assembling piece has a first stopping portion, the shaft has a second stopping portion, and the first stopping portion is located on a rotating path of the second stopping portion to be used for propping against the second stopping portion and limiting a rotating angle of the second stopping portion together with the shaft.

According to one embodiment of the present utility model, the first assembly piece and the second assembly piece each include a main body portion and at least one lug portion, the at least one lug portion is disposed on the main body portion, the length and the width of the at least one lug portion are smaller than the length and the width of the main body portion, respectively, and the at least one lug portion is attached to the fixing plate.

According to one embodiment of the present utility model, the second assembly sheet further includes a protrusion, the protrusion is disposed on the main body of the second assembly sheet, one end of the reset member is disposed on the fixing plate, and the other end of the reset member is disposed on the protrusion.

According to one embodiment of the present utility model, the first assembly piece further comprises a first sliding column disposed on the main body of the first assembly piece, the first sliding column has a hollow hole, the second assembly piece further comprises a second sliding column disposed on the main body of the second assembly piece, the second sliding column penetrates through the hollow hole of the first sliding column, and the first sliding column and the second sliding column are disposed in the slot to stabilize the movement of the shaft relative to the fixed plate.

According to one embodiment of the present utility model, the torsion washer further comprises at least one torsion washer and a fixing member, wherein the at least one torsion washer is sleeved on the shaft member, and the fixing member is disposed on the shaft member to fix the shaft member and the fixing plate member in the third direction and adjust the torsion applied to the shaft member and the fixing plate member by abutting against the at least one torsion washer.

In another embodiment of the present utility model, a notebook computer includes a main unit, a pivot mechanism, and a movable plate. The pivot mechanism comprises a fixed plate, a shaft, a limiting piece and a movable plate. The fixed plate is connected with the host. The fixed plate has a slot. The slot is provided with a limit section and a movable section. The limiting section has a first opening size in a first direction. The movable section has a second opening dimension in the first direction. The first opening size is smaller than the second opening size. The shaft piece is arranged in the slot in a penetrating way. The limiting piece is sleeved on the shaft piece and is positioned in the slot. The limiting piece is provided with a trimming edge, an outer periphery and a rotation center. The outer periphery is connected with the trimming. The straight line distance from the cutting edge to the outer periphery through the rotation center is a first outer diameter. The straight line distance between two opposite sides of the outer periphery passing through the rotation center is a second outer diameter. The first outer diameter is smaller than the second outer diameter. The first opening is sized between the first outer diameter and the second outer diameter. The second opening size is greater than or equal to the second outer diameter. The shaft and the limiting piece can move between the limiting section and the movable section in a second direction perpendicular to the first direction relative to the fixed plate through the first outer diameter. The shaft member and the limiting member can rotate relative to the fixed plate member in the movable section by a second outer diameter in a third direction perpendicular to the first direction and the second direction and passing through the rotation center as a rotation axis. The movable plate is arranged on the shaft piece. The movable plate can move or rotate relative to the fixed plate according to the movement or rotation of the shaft member relative to the fixed plate. The display device is connected with the movable plate. When the shaft element and the limiting element are positioned at the limiting section of the groove, one side of the display device, which is close to the pivot mechanism, is substantially flush with one side of the host machine, which is close to the pivot mechanism.

According to one embodiment of the present utility model, the pivot mechanism further comprises a first assembling piece and a second assembling piece, the first assembling piece and the second assembling piece sandwich the fixed plate and the limiting piece therebetween, the first assembling piece and the second assembling piece are sleeved on the shaft and can move together with the shaft and the limiting piece relative to the fixed plate, the first assembling piece has a first stop portion, the shaft has a second stop portion, and the first stop portion is located on a rotation path of the second stop portion to be used for propping against the second stop portion and limiting a rotation angle of the second stop portion together with the shaft; the main machine is provided with a bottom surface and an operation surface which are opposite, the display device is provided with a display area, and when the shaft piece and the limiting piece are positioned at the movable section of the slot and the first stop part abuts against the second stop part, the space between the display area in the display device and the side of the display device, which is close to the pivot mechanism, is at least partially positioned between the extending surface of the bottom surface of the main machine and the extending surface of the operation surface.

According to one embodiment of the present utility model, the first assembly piece and the second assembly piece each include a main body portion and at least one lug portion, the at least one lug portion is disposed on the main body portion, the length and the width of the at least one lug portion are smaller than the length and the width of the main body portion, respectively, and the at least one lug portion is attached to the fixing plate.

According to one embodiment of the present utility model, the first assembly piece further comprises a first sliding column disposed on the main body of the first assembly piece, the first sliding column has a hollow hole, the second assembly piece further comprises a second sliding column disposed on the main body of the second assembly piece, the second sliding column penetrates through the hollow hole of the first sliding column, and the first sliding column and the second sliding column are disposed in the slot to stabilize the movement of the shaft relative to the fixed plate.

According to the pivot mechanism and the notebook computer disclosed in the above embodiments, only one rotation shaft is needed, and the display device can be moved backward and then rotated through the movable shaft member, so that the host computer does not need to be configured smaller than the display device in order to avoid rotational interference of the display device. Therefore, the size of the host can be freely designed, and the flexibility of the configuration of the internal space of the host is increased. Compared with the design of the sinking notebook computer in the scheme, the structure of the utility model is simple because the rotating shaft is designed to be more than two, so that the limitation of the internal space configuration of the host and the interference of the display device on the host during rotation can be avoided.

The foregoing description of the utility model and the following description of embodiments are presented to illustrate and explain the principles of the utility model and to provide a further explanation of the utility model as claimed.

Drawings

Fig. 1 is a schematic perspective view of a notebook computer according to an embodiment of the utility model.

Fig. 2 is an exploded view of the pivot mechanism of the notebook computer of fig. 1.

FIG. 3 is another exploded view of the pivot mechanism of the notebook computer of FIG. 1.

Fig. 4 is a schematic side view of a portion of the components of the notebook computer of fig. 1.

Fig. 5 to 6 are schematic side views of parts of the notebook computer of fig. 4 when the notebook computer is opened.

The reference numerals are as follows:

1 notebook computer

10 host computer

11 bottom surface

12 operation surface

20 pivot mechanism

100 fixed plate

110 slotting

111 limit section

112, active section

200 shaft element

210 second stop portion

300 spacing piece

301 trimming

302 outer perimeter

303 center of rotation

400 first assembled sheet

410 main body part

420 lug part

430 first slide column

431 hollow hole

440 first stop portion

500 second assembled piece

510 main body portion

520 lug part

530 second sliding column

540 convex column

600 torsion gasket

700 fixing piece

800 Movable plate

900 reset piece

30 display device

31 display area

D1 first outer diameter

D2 second outer diameter

S1 first opening size

S2 second opening size

R1, rotation direction

X is the first direction

Y is in the second direction

Z third direction

Detailed Description

An embodiment of the present utility model will be described below. Referring to fig. 1 to 4, fig. 1 is a schematic perspective view of a notebook computer according to an embodiment of the utility model, fig. 2 is an exploded schematic view of a pivot mechanism of the notebook computer of fig. 1, fig. 3 is another exploded schematic view of the pivot mechanism of the notebook computer of fig. 1, and fig. 4 is a schematic side view of part of the notebook computer of fig. 1.

The notebook computer 1 of the present embodiment includes a host 10, a pivot mechanism 20 and a display device 30. The host 10 has an opposite bottom surface 11 and an operating surface 12. The display device 30 has a display area 31. The pivot mechanism 20 is pivoted to the host 10 and the display device 30. The display device 30 is pivotable relative to the host 10 by the pivot mechanism 20, so that the notebook computer 1 can be unfolded for use or closed for storage. The pivot mechanism 20 will be described in detail below.

The pivot mechanism 20 comprises a fixed plate 100, a shaft 200, a limiting member 300, a first assembling piece 400, a second assembling piece 500, a plurality of torsion shims 600, a fixed member 700 and a movable plate 800.

The fixed plate 100 is connected to the host 10. The fixed plate 100 has a slot 110. The slot 110 has a limiting section 111 and a movable section 112. As shown in fig. 4, the limiting section 111 has a first opening size S1 in a first direction X, wherein the first direction X is the same as the short axis direction of the host 10, for example. The movable segment 112 has a second opening dimension S2 in the first direction X. The first opening size S1 is smaller than the second opening size S2.

The shaft 200 is disposed through the slot 110. The limiting member 300 is sleeved on the shaft member 200 and is located in the slot 110. The stopper 300 has a cut edge 301, an outer periphery 302 and a rotation center 303. As shown in fig. 4, the outer perimeter 302 joins the cut edge 301. The straight line distance from the cutting edge 301 passing through the rotation center 303 to the outer periphery 302 is a first outer diameter D1, the straight line distance from the opposite sides of the outer periphery 302 passing through the rotation center 303 is a second outer diameter D2, and the first outer diameter D1 is smaller than the second outer diameter D2.

By designing the first opening dimension S1 to be between the first outer diameter D1 and the second outer diameter D2, the stopper 300 is rotationally restricted when located in the stopper section 111, but the movement of the stopper 300 in the slot 110 is not restricted. In addition, by designing the second opening dimension S2 to be equal to or larger than the second outer diameter D2, the rotation of the stopper 300 is not limited when moving to the movable section 112. In this way, the limiting member 300 can move between the limiting section 111 and the movable section 112 in a second direction Y relative to the fixed plate 100, and the limiting member 300 can rotate relative to the fixed plate 100 in a third direction Z relative to the movable section 112, wherein the second direction Y is perpendicular to the first direction X and is the same as the long axis direction of the slot 110, and the third direction Z is perpendicular to the first direction X and the second direction Y and passes through the rotation center 303.

The first and second assembly pieces 400 and 500 sandwich the fixing plate 100 and the stopper 300 therebetween. The first assembling piece 400 and the second assembling piece 500 are sleeved on the shaft member 200 and can move relative to the fixed plate 100 by connecting the shaft member 200 and the limiting member 300. The first assembly tab 400 includes a body portion 410 and a plurality of tab portions 420. The lug part 420 is provided to the main body part 410. The length and width of the lug part 420 are smaller than the length and width of the main body part 410, respectively, and the lug part 420 is attached to the fixed plate 100. Similarly, the second assembled sheet 500 includes a main body portion 510 and a plurality of tab portions 520. The lug part 520 is provided in the main body part 510. The length and width of the lug part 520 are smaller than those of the main body part 510, and the lug part 520 is attached to the fixed plate 100. Therefore, the inertia of the first assembly piece 400 and the second assembly piece 500 can be increased by the lug parts 420 and 520, so that the first assembly piece 400 and the second assembly piece 500 are not easy to shake due to the influence of the force in the non-moving direction when moving relative to the fixed plate 100, and the first assembly piece 400 and the second assembly piece 500, the shaft 200 and the limiting piece 300 can be stably moved relative to the fixed plate 100. Further, since the size of the lug portions 420 and 520 is small relative to the main body portions 410 and 510, excessive friction force is not generated when the first assembly sheet 400 and the second assembly sheet 500 are moved. In some embodiments, the first assembly piece and the second assembly piece may be disposed alternatively, which is not limited to the present utility model. In some embodiments, the number of the lug portions may be only a single, which is not limited by the present utility model.

The first assembly tab 400 may further include a first sliding post 430. The first sliding column 430 is disposed at the body portion 410 of the first assembly sheet 400. The first sliding column 430 has a hollow hole 431. The second assembly tab 500 may further include a second sliding post 530. The second sliding column 530 is provided to the main body 510 of the second assembly sheet 500. The second sliding column 530 is disposed through the hollow hole 431 of the first sliding column 430. The first sliding post 430 and the second sliding post 530 are located in the slot 110 and may be located at one side of the limiting member 300, for example. Thus, the shaft 200 and the limiting member 300 can be stably moved relative to the fixed plate 100. In some embodiments, the second sliding column may have a hollow hole, and the first sliding column may be inserted into the hollow hole of the second sliding column.

The first assembly tab 400 may further include a first stop 440. The shaft 200 may have a second stop 210. The first stop 440 is located on the rotation path of the second stop 210 to abut against the second stop 210 and limit the rotation angle of the second stop 210 together with the shaft 200. In some embodiments, the first stop portion may be disposed on the second assembly sheet instead, which is not limited to the present utility model.

The torsion washer 600 is, for example, a tapered washer having elasticity. The torque pad 600 is sleeved on the shaft member 200. The fixing member 700 is, for example, a nut. The fixing member 700 is disposed on the shaft member 200 to fix the shaft member 200 and the fixing plate member 100 in the third direction Z, and adjusts the torsion applied to the shaft member 200 and the fixing plate member 100 by abutting against the torsion washer 600, thereby balancing the mobility of the shaft member 200 relative to the fixing plate member 100 and the stability of the shaft member 200.

The movable plate 800 is disposed on the shaft 200 and connected to the display device 30. The movable plate 800 is movable or rotatable with respect to the fixed plate 100 according to the movement or rotation of the shaft 200 with respect to the fixed plate 100.

Fig. 5 to 6 are schematic side views of the notebook computer of fig. 4, showing partial parts operating when the notebook computer is opened. When the notebook computer 1 is closed, as shown in fig. 4, the shaft member 200 and the limiting member 300 are located at the limiting section 111 of the slot 110, and at this time, a side of the display device 30 near the pivot mechanism 20 is substantially flush with a side of the host 10 near the pivot mechanism 20. Next, as shown in fig. 5, the display device 30, along with the shaft 200, the limiting member 300 and the movable plate 800, is pushed along the second direction Y until the shaft 200 and the limiting member 300 move to the movable section 112 of the slot 110. Next, as shown in fig. 6, the display device 30, the shaft 200, the limiting member 300 and the movable plate 800 may be rotated in the rotation direction R1 with the third direction Z as the rotation axis until the second stop portion 210 of the shaft 200 abuts against the first stop portion 440 of the first assembly piece 400. At this time, between the display area 31 in the display device 30 and the side of the display device 30 near the pivot mechanism 20, or may be referred to as a lower screen frame, may be at least partially located between the extended surface of the bottom surface 11 of the host 10 and the extended surface of the operation surface 12. In this way, when the notebook computer 1 is turned over for use, the lower frame of the screen of the display device 30 is at least partially covered by the host 10 and is not easily perceived by the user, so as to generate a visual effect of a narrow frame for the user. Note that when the notebook computer 1 is turned over, the outer periphery 302 of the rotated limiting member 300 abuts against the edge of the movable section 112 of the slot 110, so that the limiting member 300 cannot move between the limiting section 111 and the movable section 112, and further the movement of the shaft 200, the movable plate 800 and the display device 30 in the second direction Y is limited.

According to an embodiment of the present utility model, the second assembly tab 500 may further comprise a protrusion 540. The boss 540 is provided to the body portion 510 of the second assembly tab 500. The pivot mechanism 20 may further comprise a reset member 900. The return member 900 is, for example, a spring. One end of the reset element 900 is disposed on the fixed plate 100, and the other end of the reset element 900 is disposed on the boss 540. When the notebook computer 1 is to be closed, the display device 30, the shaft 200, the limiting member 300 and the movable plate 800 are only required to rotate along the opposite direction of the rotation direction R1 until the display device 30 is attached to the host 10. At this time, the restriction of the movement of the shaft 200, the limiting member 300, the movable plate 800 and the display device 30 in the second direction Y is released, and the reset member 900 pulls the boss 540 of the second assembly sheet 500, and drives the shaft 200, the limiting member 300, the movable plate 800 and the display device 30 to reset, thereby completing the closing of the notebook computer 1.

According to the pivot mechanism and the notebook computer of the embodiments, only one rotating shaft is needed, the display device can be moved backwards and then rotated through the movable shaft piece, and the host computer does not need to be configured smaller than the display device in order to avoid rotation interference of the display device. Therefore, the size of the host can be freely designed, and the flexibility of the configuration of the internal space of the host is increased. Compared with the design of the sinking notebook computer in the scheme, the structure of the utility model is simple because the rotating shaft is designed to be more than two, so that the limitation of the internal space configuration of the host and the interference of the display device on the host during rotation can be avoided.

Although the present utility model has been described with reference to the above embodiments, it should be understood that the utility model is not limited thereto, but rather may be modified or altered somewhat by persons skilled in the art without departing from the spirit and scope of the utility model.

Claims (10)

1. A pivot mechanism for pivoting a host and a display device, the pivot mechanism comprising:

the fixed plate is provided with a slot, wherein the slot is provided with a limit section and a movable section, the limit section is provided with a first opening size in a first direction, the movable section is provided with a second opening size in the first direction, and the first opening size is smaller than the second opening size;

the shaft piece is arranged in the slot in a penetrating way;

the limiting piece is sleeved on the shaft piece and is positioned in the groove, the limiting piece is provided with a trimming edge, an outer periphery and a rotating center, the outer periphery is connected with the trimming edge, the straight line distance from the trimming edge to the outer periphery through the rotating center is a first outer diameter, the straight line distance from two opposite sides of the outer periphery through the rotating center is a second outer diameter, the first outer diameter is smaller than the second outer diameter, the first opening size is between the first outer diameter and the second outer diameter, the second opening size is larger than or equal to the second outer diameter, the shaft piece and the limiting piece can move between the limiting section and the movable section relative to the fixed plate in a second direction perpendicular to the first direction through the first outer diameter, and the shaft piece and the limiting piece can rotate relative to the fixed plate in the movable section in a third direction perpendicular to the first direction and the second direction through the rotating center through the second outer diameter as a rotating shaft; and

the movable plate is arranged on the shaft piece, and the movable plate can move or rotate relative to the fixed plate according to the movement or rotation of the shaft piece relative to the fixed plate.

2. The pivot mechanism of claim 1, further comprising a first assembly tab and a second assembly tab, wherein the first assembly tab and the second assembly tab sandwich the fixed plate and the retainer therebetween, the first assembly tab and the second assembly tab are sleeved on the shaft and movable with the shaft and the retainer relative to the fixed plate, the first assembly tab has a first stop portion, the shaft has a second stop portion, and the first stop portion is located on a rotation path of the second stop portion for abutting the second stop portion and limiting a rotation angle of the second stop portion with the shaft.

3. The pivot mechanism of claim 2, wherein the first assembly tab and the second assembly tab each comprise a main body portion and at least one tab portion, the at least one tab portion is disposed on the main body portion, the at least one tab portion has a length and a width that are smaller than the length and the width of the main body portion, respectively, and the at least one tab portion engages the fixing plate.

4. The pivot mechanism of claim 3, further comprising a restoring member, wherein the second assembly tab further comprises a protrusion disposed on the main body of the second assembly tab, one end of the restoring member is disposed on the fixed plate, and the other end of the restoring member is disposed on the protrusion.

5. The pivot mechanism of claim 3, wherein the first assembly tab further comprises a first sliding post disposed in the main portion of the first assembly tab, the first sliding post having a hollow hole, the second assembly tab further comprises a second sliding post disposed in the main portion of the second assembly tab, the second sliding post passing through the hollow hole of the first sliding post, the first sliding post and the second sliding post being disposed in the slot to stabilize the movement of the shaft relative to the fixed plate.

6. The pivot mechanism of claim 1, further comprising at least one torsion washer and a fixing member, wherein the at least one torsion washer is sleeved on the shaft member, the fixing member is disposed on the shaft member to fix the shaft member and the fixing plate member in the third direction and adjust torsion applied to the shaft member and the fixing plate member by abutting against the at least one torsion washer.

7. A notebook computer, comprising:

a host;

a pivot mechanism, comprising:

the fixed plate is connected with the host, wherein the fixed plate is provided with a slot, the slot is provided with a limit section and a movable section, the limit section is provided with a first opening size in a first direction, the movable section is provided with a second opening size in the first direction, and the first opening size is smaller than the second opening size;

the shaft piece is arranged in the slot in a penetrating way;

the limiting piece is sleeved on the shaft piece and is positioned in the groove, the limiting piece is provided with a trimming edge, an outer periphery and a rotating center, the outer periphery is connected with the trimming edge, the straight line distance from the trimming edge to the outer periphery through the rotating center is a first outer diameter, the straight line distance from two opposite sides of the outer periphery through the rotating center is a second outer diameter, the first outer diameter is smaller than the second outer diameter, the first opening size is between the first outer diameter and the second outer diameter, the second opening size is larger than or equal to the second outer diameter, the shaft piece and the limiting piece can move between the limiting section and the movable section relative to the fixed plate in a second direction perpendicular to the first direction through the first outer diameter, and the shaft piece and the limiting piece can rotate relative to the fixed plate in the movable section in a third direction perpendicular to the first direction and the second direction through the rotating center through the second outer diameter as a rotating shaft; and

the movable plate is arranged on the shaft piece, and can move or rotate relative to the fixed plate according to the movement or rotation of the shaft piece relative to the fixed plate; and

and the display device is connected with the movable plate, wherein when the shaft piece and the limiting piece are positioned at the limiting section of the slot, one side of the display device, which is close to the pivot mechanism, is flush with one side of the host, which is close to the pivot mechanism.

8. The notebook computer of claim 7, wherein the pivot mechanism further comprises a first assembly piece and a second assembly piece, the first assembly piece and the second assembly piece sandwich the fixed plate and the limiting piece therebetween, the first assembly piece and the second assembly piece are sleeved on the shaft piece and can move relative to the fixed plate together with the shaft piece and the limiting piece, the first assembly piece has a first stop part, the shaft piece has a second stop part, and the first stop part is positioned on a rotating path of the second stop part to be used for propping against the second stop part and limiting a rotating angle of the second stop part together with the shaft piece;

the main machine is provided with a bottom surface and an operation surface which are opposite, the display device is provided with a display area, and when the shaft piece and the limiting piece are positioned at the movable section of the slot and the first stop part abuts against the second stop part, the space between the display area in the display device and the side of the display device, which is close to the pivot mechanism, is at least partially positioned between the extending surface of the bottom surface of the main machine and the extending surface of the operation surface.

9. The notebook computer of claim 8, wherein the first assembly piece and the second assembly piece each comprise a main body portion and at least one lug portion, the at least one lug portion is disposed on the main body portion, the length and the width of the at least one lug portion are respectively smaller than the length and the width of the main body portion, and the at least one lug portion is attached to the fixing plate.

10. The notebook computer of claim 9, wherein the first assembly piece further comprises a first sliding column disposed in the main body of the first assembly piece, the first sliding column having a hollow hole, the second assembly piece further comprises a second sliding column disposed in the main body of the second assembly piece, the second sliding column passing through the hollow hole of the first sliding column, the first sliding column and the second sliding column being disposed in the slot to stabilize the movement of the shaft relative to the fixed plate.