CN217039414U - Computer cabin - Google Patents

Abstract

This patent belongs to computer passenger cabin technical field, refers in particular to a keyboard layer board automatic regulating apparatus for computer passenger cabin, includes: a base; the rotating seat is provided with a seat for a person to sit on; the cantilever is movably arranged on the outer edge of the seat and used for mounting a computer screen; be equipped with keyboard layer board and drive on the seat the automatic regulating apparatus of keyboard layer board motion, automatic regulating apparatus includes: a first armrest for being disposed at one side of the seat; the linear driving piece is fixed on the first handrail; the keyboard supporting plate is positioned on one side of the first handrail and connected to the driving head of the linear driving piece; the computer cabin is fully automatically opened or closed by driving the keyboard supporting plate to do linear motion through the motor push rod, and the distance between the keyboard supporting plate and the seat is adjusted through the motor push rod, so that the fine adjustment of the placement of the keyboard is realized.

Description

Computer cabin

Technical Field

The patent belongs to the technical field of computer cabins, and particularly relates to an automatic adjusting device for a keyboard supporting plate of a computer cabin.

Background

At present, computers are one of the most advanced scientific and technical inventions in the 20 th century, have extremely important influence on the production activities and social activities of human beings, and become an essential tool in daily life and work. People now like to use computers to work, surf the internet, play games, watch movies and the like. When the computer is used for a long time, the health of a computer user can be influenced by the quality of the computer chair.

The utility model with application number 202020136758.9 discloses a zero gravity computer cabin, which comprises a keyboard supporting plate, wherein the keyboard supporting plate rotates through an optical axis to realize opening and closing; and the sliding frame moves to realize front and back adjustment. However, the keyboard support in the utility model needs to be opened by manual operation, which causes the computer cabin to be inconvenient in actual use.

Disclosure of Invention

The purpose of this patent is to provide a computer passenger cabin easy operation, it is convenient to use

The purpose of this patent is so realized:

a computer cockpit, comprising:

a base;

the rotating seat is movably arranged on the base, and a seat for a person to sit on is arranged on the rotating seat; and

the cantilever is movably arranged on the outer edge of the seat and used for mounting a computer screen;

be equipped with keyboard layer board and drive on the seat the automatic regulating apparatus of keyboard layer board motion, automatic regulating apparatus includes:

a first armrest for being disposed at one side of the seat;

the linear driving piece is fixed on the first handrail;

the keyboard supporting plate is positioned on one side of the first handrail and connected to the driving head of the linear driving piece;

the linear driving piece drives the keyboard supporting plate to be close to the seat or be far away from the seat.

Furthermore, a driving support sleeved outside the first handrail is connected to the keyboard supporting plate, a driving head of the linear driving piece is connected to the driving support, and the keyboard supporting plate is driven by driving the driving support to move.

Further, a guide rail assembly is arranged between the inner side of the driving support and the first handrail support, and the guide rail assembly comprises a sliding block arranged on the inner side of the driving support and a sliding rail arranged on the first handrail.

Furthermore, the first handrail is provided with an inner cavity, the linear driving piece is arranged in the inner cavity of the first handrail, and the surface of the first handrail is also provided with a yielding groove for communicating the inner cavity with the outside; the driving support and be equipped with linking bridge between the drive head, linking bridge passes the groove setting of stepping down.

Further, a second drive assembly for driving the cantilever is also included: the second drive assembly includes:

the second arc-shaped sliding rail is fixed on the cantilever;

the second rolling block is fixed on the base or the rotating seat and is positioned in the second arc-shaped sliding rail;

and the second telescopic cylinder is used for pushing the cantilever to move along the arc direction of the second arc-shaped sliding rail.

Furthermore, a connecting frame is arranged on the outer edge side of the rotating seat, the second rolling block is arranged on the inner side of the connecting frame, and the second arc-shaped sliding rails are arranged on two sides of the cantilever; the second telescopic cylinder is hinged to the rotating seat, and a driving head of the second telescopic cylinder is connected with the cantilever.

Further, the device also comprises a first driving component for driving the rotating seat; the first drive assembly includes:

the first arc-shaped sliding rail and the first rolling block are positioned in the first arc-shaped sliding rail; the first arc-shaped sliding rail and the first rolling block are respectively fixed on the rotating seat/base and the base/rotating seat; and

and the first telescopic cylinder is used for pushing the rotating seat to move along the arc direction of the first arc-shaped sliding rail.

Furthermore, the left side and the right side of the base are provided with support frames, and the support frames are fixed with the first rolling blocks; the first arc-shaped slide rails are provided with two arc-shaped slide rails which are respectively positioned at the left side and the right side of the rotating seat.

Furthermore, the first telescopic cylinder is hinged in the base, and a driving head of the first telescopic cylinder is connected with the rotating seat.

Further, the cantilever outer end is equipped with the screen mounting bracket, the screen mounting bracket includes the main mounting bracket and cup joints the vice mounting bracket at the main mounting bracket both ends, is equipped with the rigid coupling subassembly in main mounting bracket and vice mounting bracket, and the rigid coupling subassembly includes:

the central shaft penetrates through the intersection part of the main mounting frame and the auxiliary mounting frame, and the auxiliary mounting frame can vertically deviate around the central shaft; and

and the fine adjustment bolt is arranged between the main mounting frame and the auxiliary mounting frame on one side of the central shaft and is used for adjusting the vertical offset degree of the main mounting frame and the auxiliary mounting frame.

Compared with the prior art, the patent has the outstanding and beneficial technical effects that:

1. this patent passes through motor push rod drive keyboard layer board linear motion realizes the full-automatic opening or closing of computer passenger cabin to through motor push rod adjusts the distance of keyboard layer board apart from the seat realizes the fine setting that the keyboard was placed.

2. This patent is through setting up drive support and making its suit first handrail is connected the aim at of keyboard layer board provides the tie point for being connected of motor push rod and keyboard layer board, makes the one end of keyboard layer board can laminate the top of first handrail is transported. And the guide rail assembly and the roller piece are arranged between the first handrail and the driving support to enable the driving support to operate more stably, so that the keyboard supporting plate moves more stably.

3. According to the chair, the whole chair and the rotating seat are guided to rotate by taking the leaning position of a user as the center of a circle through the connection of the first rolling piece and the first arc-shaped track, so that zero gravity adjustment is realized, and the comfort of the chair during adjustment is greatly improved; meanwhile, when a user leans on the seat, most of the gravity action of the human body is transmitted to the base through the support frame and the transmission structure on the connecting frame, the gravity of the human body is supported through the base, and for the first telescopic cylinder, only partial gravity of the rotating seat and partial gravity of the human body need to be supported; therefore, the first driving assembly prevents the first telescopic cylinder from being damaged under the long-term action of the gravity of a user by adjusting the stress condition of the first telescopic cylinder, so that the service life of the first telescopic cylinder is prolonged; because the load of the first telescopic cylinder is reduced, the specification of the first telescopic cylinder can be correspondingly reduced when the first telescopic cylinder is selected and assembled, and the cost is saved.

4. This patent makes through the concertina movement of second telescoping cylinder the cantilever is along the motion of second arc slide rail, realizes the position suitability adjustment of computer screen. And after the second driving component is arranged between the rotating seat and the cantilever, the rotating seat adjusts the position of the rotating seat through the first driving component, and the second telescopic cylinder is arranged between the rotating seat and the cantilever and enables the cantilever to be linked with the rotating seat through the telescopic cylinder, so that the cantilever does not need to be further adjusted when the rotating seat is adjusted, and when the position of a computer screen needs to be further adjusted, the second telescopic cylinder is driven to adjust.

5. This patent passes through mounting groove and the regional structure of intercommunication in the connection, because the mounting groove sets up from top to bottom, after changing the mounting groove, can slightly adjust the height of screen mounting bracket, the user can adjust to the state that oneself wanted with it according to self demand, should adjust the structure moreover, need not to pull down the screen mounting bracket is whole, only need loosen nut spare and can adjust, adjusts convenient and fast, the operation of being convenient for. The installation groove is arranged to be the oblique tooth groove, and the connection pin can directly enter the bottom of the oblique tooth groove for limitation due to gravity after being placed into the oblique tooth groove, so that the position of the connection pin does not need to be further adjusted by a user, and the operation is convenient.

Drawings

Fig. 1 is a schematic view of the overall structure of the patent.

Fig. 2 is a schematic structural diagram of a rotary seat of the patent.

Fig. 3 is a side sectional view at the first telescopic cylinder of fig. 2.

Fig. 4 is a side sectional view at the first arcuate slide of fig. 2.

FIG. 5 is a side cross-sectional view of the second arcuate slide of FIG. 2

Fig. 6 is a schematic view of the structure at the first driving assembly.

Fig. 7 is a schematic view of the keyboard tray in the chair extended.

Fig. 8 is a schematic structural view of the keyboard tray in the chair when it is reset.

Fig. 9 is a perspective view of the keyboard tray automatic adjusting device.

FIG. 10 is a bottom schematic view of the keyboard tray automatic adjustment device

Fig. 11 is a schematic view of the structure of the driving bracket.

Fig. 12 is a schematic view of the internal structure of the first handrail.

Fig. 13 is an enlarged schematic view at a in fig. 12.

Fig. 14 is a schematic structural view of the motor push rod.

Fig. 15 is a schematic view of the structure at the screen mount.

FIG. 16 is a schematic view of the connection of the primary mount to the secondary mount.

Fig. 17 is a schematic view of the structure at the connection portion.

FIG. 18 is a schematic cross-sectional view of the intersection of the primary and secondary mounts.

Fig. 19 is a schematic view of the entire structure of the simulator assembly of the present patent.

The reference numerals in the figures denote the meanings:

1. a base; 11. a support frame; 12. installing a bin;

2. rotating the base; 21. a seat; 22. a connecting frame; 23. a connecting arm; 24. a leg pad; 241. a fourth telescopic cylinder; 242. a fourth link; 243. a fifth link; 244. a sixth link; 245. a seventh link; 25. a first armrest; 251. a bearing seat; 26. A second armrest; 261. a handrail rotating shaft; 262. a support bar; 263. a handrail roller; 264. a roller supporting seat; 265. a guide slope; 266. a positioning groove for the sliding wheel; 27. an outlet; 28. a soft cushion;

3. a cantilever; 31. a computer screen; 32. a connecting portion; 321. mounting grooves; 322. a connected region; 33. a first positioning plate; 331. positioning holes; 332. a first mounting hole; 34. a telescopic cylinder mounting cavity;

41. a first arc-shaped slide rail; 42. a first scroll thumb; 43. a first telescoping cylinder;

51. a second arc-shaped slide rail; 52. a second scroll thumb; 53. a second telescoping cylinder;

6. a screen mounting bracket; 61. a main mounting frame; 62. a secondary mounting bracket; 621. an offset end; 631. a central shaft; 633. an arc groove; 634. a first through hole; 64. a fixed head; 641. a fixed head mounting hole; 66. fixing the clamping plate; 67. a third through hole; 671. A fourth via hole; 672. a first threaded hole; 68. a panel; 69. a second through hole;

7. a foot pedal;

8. a third drive assembly; 81. a first link; 82. a second link; 83. a third link; 84. a third telescopic cylinder; 85. A pedal mounting bracket; 851. an arc-shaped positioning groove; 86. a connecting pair; 87. a lap joint;

91. simulating a steering wheel; 92. simulating a pedal; 93. simulating a gear; 94. a keyboard tray; 95. a motor push rod; 951. a drive head; 952. a cylinder body; 953. a rod body; 96. a drive bracket; 961. a roller member; 962. a roller bracket; 971. a slider; 972. A slide rail; 981. an inner cavity; 982. a yielding groove; 983. connecting a bracket; 9831. a first connection end; 9832. a second connection end; 833. a first connection hole; 9834. a second connection hole; 984. a first fabrication hole; 985. a second fabrication hole; 986. an extension edge; 99. an operation table; 991. an operation panel;

Detailed Description

This patent is further described below in conjunction with specific examples:

example 1:

a guide rail type computer cabin comprises a base 1; the rotating seat 2 is movably arranged on the base 1, and a seat 21 for a person to sit is arranged on the rotating seat 2; the cantilever 3 is movably arranged on the outer edge of the rotating seat 2 and is used for installing a computer screen 31; and a first driving assembly for driving the rotating base 2; wherein the first driving assembly comprises a first driving component,

a first arc-shaped slide rail 41 and a first rolling block 42, wherein the first rolling block 42 is located in the first arc-shaped slide rail 41; the first arc-shaped sliding rail 41 and the first rolling block 42 are respectively fixed on the rotating seat 2/the base 1 and the base 1/the rotating seat 2; and a first telescopic cylinder 43 for pushing the rotating base 2 to move along the arc direction of the first arc-shaped sliding rail 41.

Referring to fig. 1 and 2, the base 1 of the computer case is used to support the suspension arm 3 and the rotating seat 2, and the base 1 may be provided with a wheel assembly to drive the whole computer case to move, or the base 1 may be provided with a step to facilitate a user to enter the seat 21 on the base 1. In the patent, the base 1 is a frame which is formed by assembling a plurality of plates and sectional materials and is integrally square, a plurality of convex edges with certain aesthetic feeling are arranged on the frame, and a supporting frame 11 which is raised on the base 1 and is used for connecting the rotating seat 2 is arranged on the frame; in this embodiment, the two support frames 11 are provided and are located at the left and right sides of the base 1 in a protruding manner.

As shown in fig. 2, the shape of the rotating seat 2 is adapted to the shape of the base 1, and is used for mounting and carrying the seat 21, and a driving assembly for driving the seat 21 to move back and forth, or a leg pad 24, a backrest and other components attached to the seat 21, and a driving assembly for driving the leg pad 24 and the backrest to move are further installed on the rotating seat 2. In this example, the rotating seat 2 includes connecting frames 22 disposed at two sides thereof, the connecting frames 22 are specifically vertically disposed profile plates, the outer end surfaces of the connecting frames 22 are vertically intersected with the supporting frame 11, the first arc-shaped sliding rail 41 and the first rolling block 42 are respectively disposed at opposite sides of the connecting frames 22 and the supporting frame 11, and the first rolling block 42 is limited in the first arc-shaped sliding rail 41 by adjusting the distance between the connecting frames 22 and the supporting frame 11, so as to fix the rotating seat 2 at the upper side of the base 1. The arc of the first arc-shaped slide rail 41 is related to the distance between the seat 21 and the rotatable seat 2, so that the arc of the first arc-shaped slide rail 41 is determined at the time of shipment to make the rotatable seat as centered as possible on the user in the seat. The first telescopic cylinder 43 is mounted on the base 1, and is used for pushing the rotating base 2 to move along the arc direction of the first arc-shaped sliding rail 41, as shown in fig. 3, 4, and 6, an installation bin 12 for installing the first telescopic cylinder 43 is arranged in the center of the base 1, the lower end of the rotating base 2 is provided with a connecting arm 23 facing the base 1, the connecting arm 23 is located between the two connecting frames 22, one end of the first telescopic cylinder 43 is hinged in the installation bin 12, and since the position of the first telescopic cylinder 43 changes correspondingly when the first telescopic cylinder 43 is pushed, the first telescopic cylinder 43 needs to be hinged in the installation bin 12, and the other end of the first telescopic cylinder 43 is hinged to the connecting arm 23; the first telescopic cylinder 43 in the embodiment adopts the motor push rod, and the motor push rod has the advantages that an air path does not need to be arranged, so that the universality of a computer cabin is improved; when the motor push rod works, the driving end of the motor push rod makes telescopic motion, in the telescopic process, the whole rotating seat 2 is pushed to move along the first arc-shaped sliding rail 41, at the moment, the first rolling block 42 rolls in the first arc-shaped sliding rail 41, and the first rolling block 42 can be a bearing piece and is used for ensuring smooth movement; the whole seat 21 and the rotating seat 2 are guided to rotate by taking the gravity center of the user when the user leans on as the center of a circle through the connection of the first rolling block 42 and the first arc-shaped sliding rail 41, so that the gravity center of the user is basically unchanged when the rotating seat 2 works, namely the gravity center is adjusted by zero gravity, and the comfort of adjustment is greatly improved. It should be noted that the center of gravity of the user varies from person to person, and therefore, when the computer cabin in this patent leaves the factory, the different radians of the first arc-shaped slide rail 41 are set to make the center of circle of rotation of the rotation seat 2 as close as possible to the center of gravity of the user when the user leans on or even coincide with the center of circle, so as to adapt to different users; meanwhile, when a user leans on the seat 21, most of the gravity of the human body is transmitted to the base 1 through the transmission structures on the support frame 11 and the connecting frame 22, and the gravity of the human body is supported through the base 1, and for the first telescopic cylinder 43, only part of the gravity of the rotating base 2 and part of the gravity of the human body need to be supported, so that the first driving assembly in the patent prevents the first telescopic cylinder 43 from being damaged under the long-term action of the gravity of the user by adjusting the stress condition of the first telescopic cylinder 43, and the service life of the first telescopic cylinder 43 is prolonged; because the load of the first telescopic cylinder 43 is reduced, the specification of the first telescopic cylinder 43 can be correspondingly reduced when the first telescopic cylinder 43 is selected and assembled, so that the cost is saved.

It should be noted that, in this embodiment, the positions where the first rolling block 42 and the first arc-shaped sliding rail 41 are installed may be interchanged, that is, the first arc-shaped sliding rail 41 may be disposed on the supporting frame 11, and the first rolling block 42 is disposed on the connecting frame 22. In other embodiments, the first telescopic cylinder 43 may be externally arranged outside the base 1 for driving, that is, an area for installing the first telescopic cylinder 43 is separately arranged, and a connecting rod is arranged for connecting and driving; according to the installation position of the first telescopic cylinder 43, the user can adjust the positions of the connecting frame 22 and the supporting frame 11 accordingly to match.

Furthermore, a cantilever 3 is movably arranged on the outer edge of the rotating seat 2, the cantilever 3 is integrally C-shaped, and the rotating seat 2 and the seat 21 are arranged in the inner cavity of the C-shaped cantilever 3; the cantilever 3 is used for mounting a computer screen 31, and generally, the computer screen 31 is arranged at the tail end of the cantilever 3, and correspondingly, a screen mounting rack 6 for mounting the computer screen 31 is arranged at the outer end of the cantilever 3, and the outer end is opposite to the seat 21, so that a user can just face the computer screen 31 when leaning on the seat 21. The second driving assembly is arranged in the patent and used for enabling the cantilever 3 to rotate by taking the leaning position of the user as the center of a circle, and comprises a second arc-shaped slide rail 51 which is fixed on the cantilever 3; the second rolling block 52 is fixed on the base 1 or the rotating seat 2 and is positioned in the second arc-shaped sliding rail 51; and the second telescopic cylinder 53 is used for pushing the cantilever 3 to move along the arc direction of the second arc-shaped slide rail 51.

Referring to fig. 5 and 6, in this embodiment, the second rolling blocks 52 are disposed inside the connecting frame 22 through a rotating shaft, and second arc-shaped sliding rails 51 opposite to the second rolling blocks 52 are disposed on the left and right sides of the suspension arm 3, the shapes of the second arc-shaped sliding rails 51 and the second rolling blocks 52 are substantially the same as the shapes of the first arc-shaped sliding rails 41 and the first rolling blocks 42, and the radian of the second arc-shaped sliding rails 51 is set according to the distance between the second arc-shaped sliding rails 51 and the seat 21, so that the suspension arm 3 can rotate around the leaning position of the user, the moving track of the computer screen 31 is adapted to the moving track of the seat 21, and the user can very easily adjust the computer screen 31 to the position opposite to the user. The second telescopic cylinder 53 is arranged on the rotating base 2, and a driving end of the second telescopic cylinder 53 is connected with the cantilever 3, as shown in fig. 3, in this embodiment, a hinged joint is arranged at the upper end of the connecting arm 23, a telescopic cylinder installation cavity 34 is formed at the inner side of the cantilever 3, the second telescopic cylinder 53 is arranged in the telescopic cylinder installation cavity 34, the telescopic cylinder installation cavity 34 is positioned at the tail of the cantilever 3, an opening for communicating the telescopic cylinder installation cavity 34 with the outside is arranged at the tail of the cantilever 3, one end of the second telescopic cylinder 53 is positioned in the telescopic cylinder installation cavity 34 and hinged with the cantilever 3, and the other end of the second telescopic cylinder 53 penetrates through the opening to be connected with the hinged joint, so as to be connected with the rotating base 2; the cantilever 3 is generally formed by splicing a plurality of plates, so that a telescopic cylinder mounting cavity 34 for mounting the second telescopic cylinder 53 is easily formed in the cantilever 3, the second telescopic cylinder 53 is hidden on the inner wall through the telescopic cylinder mounting cavity 34, the cantilever 3 moves along the second arc-shaped slide rail 51 through the telescopic motion of the second telescopic cylinder 53, the position adjustment of the computer screen 31 is realized, and the gravity of the cantilever 3 is shared by the second driving component, so that the negative pressure of the second telescopic cylinder 53 is reduced, and the service life of the cantilever is prolonged.

In other embodiments, the cantilever 3 can be mounted on the base 1 in a manner similar to the connecting frame 22, and the second arc-shaped slide rail 51 is only required to be concentric with the first arc-shaped slide rail 41 to realize the adaptive rotation of the cantilever 3, so that the computer screen 31 is located opposite to the seat 21; however, compared to the above, the advantage of disposing the second driving assembly between the rotating base 2 and the suspension arm 3 is that when the second driving assembly is disposed between the rotating base 2 and the suspension arm 3, after the rotating base 2 adjusts its position by the first driving assembly, since the second telescopic cylinder 53 is disposed between the rotating base 2 and the suspension arm 3, the suspension arm 3 and the rotating base 2 can be linked by the telescopic cylinder, so that when the rotating base 2 is adjusted, the suspension arm 3 does not need to be further adjusted, and when the position of the computer screen 31 needs to be further adjusted, the second telescopic cylinder 53 is driven to modify.

It should be noted that, in this embodiment, the positions where the second rolling block 52 and the second arc-shaped sliding rail 51 are installed may be interchanged, that is, the second arc-shaped sliding rail 51 may be disposed on the base 1 or the rotating base 2, and the first rolling block 42 is disposed on the cantilever 3.

The computer cockpit also includes a keyboard tray automatic adjustment device for the computer cockpit, as shown in fig. 1 and 7, the automatic adjustment device includes a first armrest 25, a linear driving member, and a keyboard tray 94

As shown in fig. 1, 7 and 8, the first armrest 25 is disposed on one side of the seat 21, and the second armrest 26 is disposed on the other side of the seat for supporting the arm of the user, and the length of the first armrest 25 is greater than that of the second armrest 26, which is convenient for mounting the motor push rod 95 and the keyboard tray 94 on the first armrest 25. The linear driving member includes a motor push rod 95, the motor push rod 95 is fixed on the first handrail 25, the motor push rod 95 includes a cylinder 952, a rod 953 and a driving head 951 at the end of the rod 953, and the motor push rod 95 can control the rod 953 to extend and retract in a remote control or manual button manner, so that the driving head 951 is displaced. The keyboard tray 94 is square and is transversely arranged between the first armrest 25 and the second armrest 26; one end of the keyboard supporting plate 94 is connected to the driving head 951 of the motor push rod 95, and the other end of the keyboard supporting plate 94 extends to the second armrest 26, so that the keyboard supporting plate 94 is driven by the motor push rod 95 to be close to the seat 21 or far away from the seat 21. As shown in fig. 8, when the driving head 951 is in the initial state, the keyboard tray 94 spans between the first armrest 25 and the second armrest 26, and the keyboard tray 94 can restrain the user seated on the seat 21; when the user wants to get out of the seat 21, the exit 27 for the user to get out is formed between the keyboard tray 94 and the second armrest 26 by driving the motor push rod 95 to move the keyboard tray 94 away from the seat 21, as shown in fig. 7.

As shown in fig. 7, the first armrest 25 and the second armrest 26 are both provided with a soft pad 28 for supporting the arm of the user, one side of the first armrest 25 where the soft pad 28 is provided with an operating console 99, the operating console 99 includes a support extending outwards from the first armrest 25, the support is hollow and is used for installing a control circuit, the control circuit is electrically connected with an operating panel 991, and the motor push rod 95 is connected to the operating panel 991, and the operating panel 991 is present on the surface of the operating console 99 and is used for being operated by the user to drive the motor push rod 95 to move.

Further, a driving bracket 96 sleeved outside the first handrail 25 is connected to the keyboard supporting plate 94, a driving head 951 of the motor push rod 95 is connected to the driving bracket 96, and the keyboard supporting plate 94 is driven by driving the driving bracket 96 to move. As shown in fig. 9 and 10, the first handrail 25 is rectangular as a whole, and the driving bracket 96 is a square pipe made of a metal plate; the driving bracket 96 is sleeved outside the first handrail 25, and the keyboard supporting plate 94 is fixed at the upper end of the driving bracket 96 through a screw.

The driving bracket 96 is arranged and sleeved on the first handrail 25 to connect the keyboard supporting plate 94, so as to provide a connection point for connecting the motor push rod 95 with the keyboard supporting plate 94, and one end of the keyboard supporting plate 94 can be attached above the first handrail 25 for transportation; moreover, when the driving bracket 96 is sleeved outside the first handrail 25, the movement of the driving bracket 96 is limited by the first handrail 25, so that the movement stability of the driving bracket 96 is increased to a certain extent, and the movement stability of the keyboard support plate 94 is further improved.

In addition, various structures for stabilizing the movement of the driving bracket 96 are provided between the first handrail 25 and the driving bracket 96, and as shown in fig. 9 and 11, a guide assembly is provided between the inner side of the driving bracket 96 and the bracket of the first handrail 25, and the guide assembly includes a slider 971 provided on the inner side of the driving bracket 96 and a slide rail 972 provided on the first handrail 25; the slide rail 972 is fixed at the bottom of the first handrail 25 by screws, and correspondingly, two sliders 971 corresponding to the slide rail 972 are arranged on the lower inner side surface of the driving bracket 96, the sliders 971 are also fixed in the driving bracket 96 by screws, and the driving bracket 96 moves along a designated track by matching the slide rail 972 with the sliders 971, so as to increase the stability of the movement of the driving bracket 96. The purpose of disposing the guide rail assembly at the bottom of the first handrail 25 is to hide the guide rail assembly, so that the guide rail assembly is not easy to accumulate dust, and at the same time, the whole aesthetic property of the computer cabin can be prevented from being affected. To further conceal the track assembly, the first handrail 25 is provided with downwardly extending edges 986 on both left and right sides thereof to conceal the track assembly.

In other embodiments, the track assembly may also be located alongside the first handrail 25, which may also provide the advantage of increasing the stability of the movement of the drive bracket 96, but such an arrangement may affect the overall aesthetics.

In some embodiments, the driving bracket 96 may not fit over the first armrest 25, and may be a right-angle bracket or a flat plate connector, which may also move the keyboard tray 94 via the driving bracket 96, but may be relatively unstable.

Further, in order to further stabilize the movement of the driving bracket 96, two sides of the driving bracket 96 are provided with roller members 961, and one side rolling surfaces of the two roller members 961 are located in the driving bracket 96 and abut against the first handrail 25. As shown in fig. 11, mounting holes are formed on both left and right side surfaces of the upper end of the driving bracket 96, a roller bracket 962 is disposed in the mounting hole, and the roller piece 961 is disposed in the roller bracket 962, and a rolling surface of one side thereof is located in the driving bracket 96 and abuts against a side surface of the first handrail 25; when the two roller members 961 abut against the left and right sides of the first handrail 25, the roller members 961 can support the left and right sides of the driving bracket 96 outside the left and right sides of the first handrail 25, and when the driving bracket 96 is biased by a force, the driving bracket 96 is structurally stable by the support of the roller members 961; meanwhile, when the driving bracket 96 is driven by the motor push rod 95 to move, the roller member 961 abuts against the first handrail 25, so that the driving bracket 96 moves more stably and smoothly.

Further, in order to enhance the overall aesthetic appearance of the automatic adjustment device of the keyboard tray 94, the present patent provides the motor push rod 95 inside the first armrest 25. As shown in fig. 12, the first handrail 25 is provided with an inner cavity 81, and the motor push rod 95 is disposed in the inner cavity 981 of the first handrail 25; in practice, the first handrail 25 is formed by splicing a plurality of metal plates, and forms an inner cavity 981; the motor push rod 95 is fixed in the first handrail 25 by a screw, and the driving head 951 of the motor push rod 95 is connected to the driving bracket 96 by a connecting bracket 983. As shown in fig. 9 and 12, the first handrail 25 is further provided with a recess 982 on a surface thereof for communicating the inner cavity 981 with the outside, and the connecting bracket 983 passes through the recess 982 and is connected to the driving bracket 96; at this time, the driving head 951 moves back and forth under the action of the sliding rod, the driving head 951 drives the connecting bracket 983 to move in the abdicating groove 982, and then the connecting bracket 983 drives the driving bracket 96 to move outside the first handrail 25. The avoiding groove 982 is integrally formed on one side of the first handrail 25, and has a length consistent with the movement stroke of the driving head 951.

Further, to strengthen the connection between the connection bracket 983 and the drive head 951, the connection bracket 983 of this patent includes a first connection end 9831 disposed within the interior chamber 981 and around the outer edge of the drive head 951, and a second connection end 9832 disposed outside the interior chamber 981. As shown in fig. 13 and 14, the connecting bracket 983 in this patent is made of a metal material, and is bent into a square tube shape in a sheet metal manner, and is sleeved outside the driving head 951, the left and right side surfaces of the first connecting end 831 are provided with first connecting holes 9833, correspondingly, the driving head 951 is also provided with through holes, the through holes are opposite to the first connecting holes 9833 on the first connecting end 9831, and the connecting bracket 983 and the driving head 951 are connected by fasteners respectively passing through the through holes and the first connecting holes 9833; the other end of the connecting bracket 983, i.e., the second connecting end 9832, is bent into "" -shape by means of a sheet metal, and is attached to the inner side surface of the driving bracket 96, and is provided with a second connecting hole 9834, by which the fastener passes through the second connecting hole 9834 and the driving bracket 96 to connect the driving bracket 96 and the connecting bracket 983. The fastener generally adopts the screw, and the screw simple to operate is convenient for operation.

Further, in order to facilitate the maintenance of the automatic adjusting device of the keyboard supporting plate 94, a first technical hole 984 and a second technical hole 985 are further formed in the surface of the first handrail 25 and are communicated with the inner cavity 981 and an external abdicating groove 982, and the first technical hole 984 and the second technical hole 985 are respectively located at an initial position of the driving head 951 and a maximum movement position of the driving head 951. In order to satisfy the fine adjustment of the position of the keyboard support plate 94 by the user, the motor push rod 95 in this patent is not provided with a stroke gear, which may cause the position of the driving head 951 to be poorly determined when the motor push rod 95 is stopped, and the position of the driving head 951 can be determined only when the driving head 951 is located at its initial position or its maximum movement position; therefore, the first technical hole 984 and the second technical hole 985 are arranged at the two positions, so that a user can adjust the position of the driving head 951 to the initial position of the driving head 951 and the maximum movement position of the driving head 951, the driving head 951 is opposite to the first technical hole 984 or the second technical hole 985, and at the moment, the user can detach the connecting bracket 983 on the driving head 951, so that the connection between the motor push rod 95 and the keyboard supporting plate 94 is released, and the keyboard supporting plate 94 is detached for cleaning or maintenance. The provision of only the smaller first and second tooling holes 984 and 985 does not detract from the overall aesthetics of the first handrail 25.

Example 2:

in this patent, in order to install a plurality of computer screens 31, be equipped with novel cantilever 3 structure and screen mounting bracket 6 structure in this patent. As shown in fig. 15 to 18, a connecting portion 32 is provided at an outer end of the cantilever 3, and the connecting portion 32 includes a plurality of mounting grooves 321 arranged in sequence and a communication area 322 for connecting notches of the mounting grooves 321;

the screen mounting rack 6 is provided with a first fastening piece which penetrates through the mounting groove 321 and then is connected with the cantilever 3;

when the screen mounting bracket 6 needs to be adjusted, the first fastening piece can enter the corresponding mounting groove 321 through the communication area 322, so that the adjustment is realized.

As shown in fig. 15 and 17, the cantilever 3 is composed of a plurality of frame-shaped brackets connected in sequence, and the connecting portion 32 is arranged on the last frame-shaped bracket; the connecting part 32 is arranged on the inner side surface of the frame-shaped bracket and is connected with the screen mounting rack 6 through the inner side surface; establish on the screen mounting bracket 6 with the trompil that connecting portion 32 corresponds is through wearing to establish between connecting portion 32 and trompil the fastener realizes that connection between them is fixed.

The connecting portions 32 are provided in a plurality and arranged in a square matrix on the cantilever 3. As shown in fig. 17, four connecting portions 32 are provided, and arranged in a rectangular matrix; the user can adopt two of the connecting parts 32 to connect with the screen mounting bracket 6, and can greatly adjust the position of the screen mounting bracket 6 by selecting the connecting parts 32 at different positions when mounting, and simultaneously can increase the stability of the connection between the cantilever 3 and the screen mounting bracket 6 by selecting a plurality of the connecting parts 32.

As shown in fig. 17, the mounting groove 321 in the connecting portion 32 includes a plurality of oblique tooth grooves arranged sequentially up and down, the oblique tooth grooves are long and are all obliquely arranged, the notches of the oblique tooth grooves are obliquely arranged upward, a communication region 322 for communicating all the oblique tooth grooves is arranged on one side of the oblique tooth grooves, in this embodiment, the communication region 322 is a square through hole arranged on one side of the oblique tooth groove, the area of the square through hole is far larger than that of the oblique tooth groove, and the square through hole is sequentially connected with the notches of the oblique tooth grooves. In this embodiment, the fastening member includes a connecting pin and a nut member, a first positioning plate 33 is further disposed on the inner side of the frame-shaped support, a positioning hole 331 for the connecting pin to pass through is disposed on the first positioning plate 33, and the positioning hole 331 is adapted to the connecting pin; the connecting pin sequentially penetrates through the first positioning plate 33, the connecting part 32 and the screen mounting frame 6, and the nut piece is arranged on one side of the connecting pin provided with the first positioning plate 33 after the connecting pin penetrates through the first positioning plate, so that stable connection is achieved. The first fastening member may also be a screw which is inserted into the screen mounting bracket 6 from the first positioning plate 33, and a threaded hole adapted to the first fastening member is formed in the screen mounting bracket, so that the first fastening member is installed and connected from the cantilever to the screen mounting bracket 6.

The upper and lower fine adjustment of the screen mounting rack 6 can be realized through the connecting part 32, and specifically, when the screen mounting rack 6 and the cantilever 3 are in a fixed state, the connecting pin is positioned in the oblique tooth groove for positioning; when the height of the screen mounting bracket 6 needs to be adjusted, a user firstly loosens the nut member on one side of the first positioning plate 33 to relatively loosen the fastening of the screen mounting bracket 6 and the cantilever 3, at this time, the whole screen mounting bracket 6 is lifted to enable the connecting pin to enter the communicating area 322, and then the user moves the screen mounting bracket 6 to enter other oblique tooth grooves; after the connecting pin enters other skewed tooth grooves, the screen mounting frame 6 slides to the bottom of the skewed tooth grooves along the skewed tooth grooves under the action of self gravity, and then the nut member is screwed down to fix the connection between the screen mounting frame 6 and the cantilever 3. Because the oblique tooth grooves are arranged up and down, the height of the screen mounting rack 6 can be slightly adjusted by replacing the oblique tooth grooves with different heights, and a user can adjust the screen mounting rack 6 to the height required by the user according to the requirement of the user so as to adjust the height of the computer screen 31; moreover, its advantage of the structure is adjusted to screen mounting bracket 6 in this patent lies in, need not to pull down screen mounting bracket 6 is whole, only needs to loosen nut spare and can adjust, adjusts convenient and fast, the operation of being convenient for.

The first positioning plate 33 is disposed to be located in the positioning hole 331 and limited by the positioning hole 331 when the first fastening member is in the first working state, and is difficult to slide in the mounting groove 321 to the communication area 322, so that the stability of the connection between the screen mounting bracket 6 and the cantilever 3 is greatly increased. As shown in fig. 17, the aperture of the first mounting hole 332 is far larger than that of the positioning hole 331, and when the fixing device is installed, a user can first align the first mounting hole with the first fastening member, then sleeve the first positioning plate 33 on the first fastening member, and then slide the first positioning plate 33 to slide the first fastening member into the positioning hole 331, so that the difficulty in installing the positioning hole 331 and the first fastening member is reduced by the structure of the first mounting hole, and the fixing device is convenient to operate.

In other embodiments, the mounting grooves 321 in the connecting portion 32 may take various shapes, that is, besides the shape of the oblique tooth grooves, the mounting grooves may also take the shape of transverse holes, bending holes, and the like, and the arrangement direction and the arrangement number of the mounting grooves 321 may also be set according to actual needs. Set up oblique tooth's socket's benefit in this patent and lie in at the connecting pin put into behind the oblique tooth's socket, the connecting pin can be because of the bottom of the direct income oblique tooth's socket of the gravity of screen mounting bracket 6 is spacing, need not the position on the user further adjustment connecting pin, the operation of being convenient for.

Further, screen mounting bracket 6 includes main mounting bracket 61 and cup joints the vice mounting bracket 62 at main mounting bracket 61 both ends, is equipped with the rigid coupling subassembly in main mounting bracket 61 and vice mounting bracket 62, and the rigid coupling subassembly includes:

a central shaft 631 passing through the intersection end of the main mounting bracket 61 and the auxiliary mounting bracket 62, wherein the auxiliary mounting bracket 62 can be vertically offset around the central shaft 631;

and the fine adjustment bolt is arranged between the main mounting frame 61 and the auxiliary mounting frame 62 on one side of the central shaft 631 and is used for adjusting the vertical offset degree of the main mounting frame 61 and the auxiliary mounting frame 62.

In this embodiment, the auxiliary mounting bracket 62 is provided with a third through hole 67 on a side wall of a turning side thereof, and the main mounting bracket 61 is provided with a first threaded hole 672 opposite to the third through hole 67; the fine adjustment bolt is inserted into the third through hole 67 and the first threaded hole 672 to adjust the vertical offset degree of the main mounting frame 61 and the auxiliary mounting frame 62.

As shown in fig. 15 and 16, in the present embodiment, there is one main mounting frame 61, and there are two auxiliary mounting frames 62, and the two auxiliary mounting frames 62 are respectively located at the left and right sides of the main mounting frame 61; each of the main mount 61 or the sub mount 62 is provided with a fixing head 64 for fixing the screen, and the main mount 61 or the sub mount 62 is provided with a plurality of fixing head mounting holes 641 at different positions, so that a user can select the fixing head mounting holes 641 at different positions to mount the fixing head 64, thereby adjusting the position of the computer screen 31 on each of the main mount 61 or the sub mount 62; in this embodiment, the sub-mounts 62 on both sides of the main mount 61 are offset toward the inside of the seat 21, the fixing head 64 is disposed on the offset end 621, and when the main mount 61 and the sub-mounts 62 are both mounted with the computer screens 31, the three computer screens 31 are sequentially connected to form a circular screen.

The existing main mounting frame 61 and the auxiliary mounting frame 62 are mostly connected in a sleeving manner, and fastening screws are configured on the end surface of one side of the main mounting frame 61 sleeved with the auxiliary mounting frame 62 for fixing; because the main mounting frame 61 and the auxiliary mounting frame 62 have size deviation, small errors are inevitably generated during sleeving, so that the flatness of the main mounting frame 61 and the auxiliary mounting frame 62 after connection is influenced, and the auxiliary mounting frame 62 can be loosened in the main mounting frame 61, so that the connection stability is influenced; moreover, the assembly and disassembly mode is difficult to be completed by a single person, and the main mounting frame 61 and the auxiliary mounting frame 62 need to be held at the same time, kept in horizontal butt joint and then screwed for fixing.

The sub mount 62 and the main mount 61 are provided with first through holes 634 for the central shaft 631 to pass through; when connecting, the user first installs the central shaft 631, the central shaft 631 in this patent is disposed at the center of the main mounting frame 61 and the part intersecting with the sub mounting frame 62, and when only the central shaft 631 is fixed, the central shaft 631 serves as a rotation shaft around which the sub mounting frame 62 can slightly swing and offset; during further installation, a user uses the fine adjustment bolt to sequentially penetrate through the third through hole 67 and the first threaded hole 672 on the main mounting frame 61 to fixedly penetrate the fine adjustment bolt and the main mounting frame together; in this embodiment, the third through hole 67 is a strip-shaped hole, and the surface of the strip-shaped hole is not provided with a thread; because the fine tuning bolt is located at one side of the central shaft 631, during the process of continuously tightening the fine tuning bolt, the fine tuning bolt continuously moves towards the main mounting frame 61 and pushes the auxiliary mounting frame 62 to make the auxiliary mounting frame 62 offset around the central shaft 631, and the deeper the fine tuning bolt is installed, the greater the offset amplitude of the rotation of the auxiliary mounting frame 62 is; the flatness of the auxiliary mounting frame 62 can be adjusted by the user through the offset of the auxiliary mounting frame 62, namely whether the connection between the auxiliary mounting frame 62 and the main mounting frame 61 is smooth or not; under the general condition, the normal use of computer screen 31 needs main mounting bracket 61 and vice mounting bracket 62 horizontally connect, and this patent can be adjusting the roughness that vice mounting bracket 62 and main mounting bracket 61 are connected gradually through screwing up or loosening the fine setting bolt, until satisfying user's roughness demand, reduced the adjustment degree of difficulty by a wide margin.

Further, as shown in fig. 18, in this embodiment, the upper and lower side walls of the auxiliary mounting frame 62 are provided with the third through holes 67, and the side wall of each side is provided with two third through holes 67, the two third through holes 67 are respectively located at the left and right sides of the central shaft 631, and four fine tuning bolts are respectively arranged in each third through hole 67; the advantage of providing the third through holes 67 at both the top and bottom is that the connection between the main mount 61 and the sub mount 62 is enhanced by providing the trim bolts in all the third through holes 67 for further fixing. In one side wall, the two third through holes 67 are respectively located at the left and right sides of the central shaft 631, the fine tuning bolt on the right side can drive the auxiliary mounting frame 62 to swing upwards, and the fine tuning bolt on the left side can drive the auxiliary mounting frame 62 to swing downwards, so that a user can select a required adjusting direction to select a corresponding fine tuning bolt on the premise of fixing through the upper fine tuning bolt and the lower fine tuning bolt, and the adjustment is more convenient.

In other embodiments, the main mount 61 may not be provided with the first threaded hole 672, but may be provided with threads in the third through hole 67; when the fine tuning bolt is installed in the third through hole 67, if the auxiliary mounting frame 62 is deviated due to self gravity, the fine tuning bolt is simultaneously driven to rotate along with the auxiliary mounting frame 62 around the central shaft 631, so that one end of the fine tuning bolt is abutted against the main mounting frame 61 to limit the distance between the main mounting frame 61 and the auxiliary mounting frame 62, and a user can adjust the distance between the main mounting frame 61 and the auxiliary mounting frame 62 by adjusting the installation depth of the fine tuning bolt, thereby changing the vertical deviation degree of the auxiliary mounting frame 62. And when third through-hole 67 all is equipped with the back on the both sides lateral wall of vice mounting bracket 62, the user can carry out the full aspect through four fine setting bolts and stabilize to the stability of reinforcing the connection.

Further, a fixed clamping plate 66 is arranged at the sleeved end of the main mounting frame 61 and the auxiliary mounting frame 62; the fixing clamp plate 66 includes the panel 68 abutting against the offset side of the sub-mount 62, and a fourth through hole 671 for fastening connection is opened at the intersection of the panel 68 and the sub-mount 62.

The fixed splint 66 is made through the panel beating by panel material and forms, and it has a clamp mouth, and the clamp mouth both sides are for leveling panel 68, the clamp mouth is used for the centre gripping to be in the crossing end of main mounting bracket 61 and vice mounting bracket 62 makes the laminating of panel 68 is served in the crossing of main mounting bracket 61 and vice mounting bracket 62. In this embodiment, a fourth through hole 671 is formed on the side walls of the main mounting frame 61 and the sub mounting frame 62 facing the turning sides of the sub mounting frame 62. The fourth through hole 671 is a threaded hole through which the fine adjustment bolt is arranged. At this time, the adjusting bolt simultaneously penetrates through the fixing clamping plate 66, the main mounting frame 61 and the auxiliary mounting frame 62, decoration is carried out through the fixing clamping plate 66, the connection is further reinforced, and meanwhile, a flat and opposite surface is provided for a user to conveniently adjust the flatness between the main mounting frame 61 and the auxiliary mounting frame 62.

Furthermore, an arc groove 632 adapted to the offset radian of the auxiliary mounting bracket 62 is disposed on one side of the mounting position of the central shaft 631 of the auxiliary mounting bracket 62, and a third fastening member for connecting the main mounting bracket 61 and the auxiliary mounting bracket 62 is disposed in the arc groove 632.

As shown in fig. 16, two circular arc grooves 632 are provided, which are respectively located at the left and right sides of the installation position of the central shaft 631 and are vertically arranged according to the rotation direction of the sub mounting bracket 62; meanwhile, the main mounting frame 61 is provided with a plurality of second through holes 69 opposite to the arc grooves, the third fastening members are screws, the main mounting frame 61 and the auxiliary mounting frame 62 are further fixed by penetrating the screws through the second through holes 69 and the arc grooves 632, and the shape of the arc grooves 633 is used for adapting the offset of the auxiliary mounting frame 62.

Further, a plurality of sets of arc grooves 633 arranged in front and back and a plurality of sets of first through holes 634 arranged in front and back for penetrating the central shaft 631 are disposed on the sub-mount 62. As shown in fig. 16, in the present embodiment, two sets of arc grooves 633 are provided on a single sub mounting bracket 62, each set of arc grooves 633 are arranged in front and back of the main mounting bracket 61 and the sub mounting bracket 62 in the sleeving direction, and correspondingly, a plurality of first through holes 634 are provided for the central shaft 631 to pass through. The advantage of providing multiple sets of arc grooves 633 is that the secondary mounting bracket 62 can be telescopically arranged in the primary mounting bracket 61, thereby adjusting the length of the whole screen mounting bracket 6 to meet different requirements of users; generally, the computer screen 31 has twenty-four inches, twenty-seven inches, twenty-nine inches, thirty-two inches, etc., and the computer screen 31 with different sizes is adapted by adjusting the length of the whole screen mounting bracket 6.

Example 3:

in order to meet the different needs of the users, there is provided a simulator assembly for amusement, as shown in fig. 19, which comprises: an analog steering wheel 91 fixed to the keyboard tray 94;

a simulated pedal 93 provided on the base 1 and located on the front side of the seat 21; and

a simulated gear 92 provided on the seat 21 side;

the simulated steering wheel 91 is fixed at the front end of the keyboard supporting plate 94 through a bracket, some racing games are played through the simulated steering wheel 91, correspondingly, the simulated gear 92 is fixed at one side of the seat 21 close to the second handrail 26 through a bracket and is used for simulating gear switching in the racing games; the simulated pedals 92 are opposed to the seat 21 and the feet of the user can step on the simulated pedals 93 when seated in the seat 21 to simulate the brakes and throttle of a racing game. Since the simulated steering wheel 91 is fixed on the keyboard tray 94, a user can adjust the distance between the simulated steering wheel 91 and the seat 21 by driving the keyboard tray 94 to move back and forth through an automatic adjusting device, so as to adjust the simulated steering wheel 91 to a position suitable for the user.

The above embodiments are only preferred embodiments of the present patent, and do not limit the scope of the patent, therefore: equivalent changes made according to the structure, shape and principle of the patent shall be covered by the protection scope of the patent.

Claims (10)

1. A computer cockpit, comprising:

a base (1);

the rotating seat (2) is movably arranged on the base (1), and a seat (21) for people to sit is arranged on the rotating seat (2); and

the cantilever (3) is movably arranged on the outer edge of the seat (21) and is used for mounting a computer screen (31);

be equipped with keyboard layer board (94) and drive on seat (21) the automatic regulating apparatus of keyboard layer board (94) motion, automatic regulating apparatus includes:

a first armrest (25) for being disposed on one side of the seat (21);

a linear driving member fixed to the first handrail (25);

the keyboard supporting plate (94) is positioned on one side of the first handrail (25) and is connected to a driving head (951) of the linear driving piece;

the keyboard supporting plate (94) is driven to be close to the seat (21) or far away from the seat (21) by the linear driving piece.

2. A computer cockpit as claimed in claim 1 wherein: the keyboard supporting plate (94) is connected with a driving support (96) sleeved outside the first handrail (25), a driving head (951) of the linear driving piece is connected with the driving support (96), and the driving support (96) is driven to move to drive the keyboard supporting plate (94).

3. A computer cockpit as claimed in claim 2 wherein: the inner side of the driving support (96) and the first handrail (25) support are provided with a guide rail assembly, and the guide rail assembly comprises a sliding block (971) arranged on the inner side of the driving support (96) and a sliding rail (972) arranged on the first handrail (25).

4. A computer cockpit as claimed in any of claims 2 to 3 wherein: the first handrail (25) is provided with an inner cavity (981), the linear driving piece is arranged in the inner cavity (981) of the first handrail (25), and the surface of the first handrail (25) is further provided with a yielding groove (982) for communicating the inner cavity (981) with the outside; drive support (96) with be equipped with linking bridge (983) between drive head (951), linking bridge (983) pass the groove of stepping down (982) sets up.

5. A computer cabin according to any of claims 1-3, further comprising a second drive assembly for driving the cantilever (3): the second drive assembly includes:

the second arc-shaped sliding rail (51) is fixed on the cantilever (3);

the second rolling block (52) is fixed on the base (1) or the rotating seat (2) and is positioned in the second arc-shaped sliding rail (51);

and the second telescopic cylinder (53) is used for pushing the cantilever (3) to move along the arc direction of the second arc-shaped sliding rail (51).

6. A computer cockpit as claimed in claim 5 wherein: a connecting frame (22) is arranged on the outer edge side of the rotating seat (2), the second rolling block (52) is arranged on the inner side of the connecting frame (22), and the second arc-shaped sliding rail (51) is arranged on two sides of the cantilever (3); the second telescopic cylinder (53) is hinged to the rotating seat (2), and the driving end of the second telescopic cylinder is connected with the cantilever (3).

7. A computer cockpit as claimed in claim 6 wherein: the first driving component is used for driving the rotating seat (2); the first drive assembly includes:

the first arc-shaped sliding rail (41) and the first rolling block (42), wherein the first rolling block (42) is positioned in the first arc-shaped sliding rail (41); the first arc-shaped sliding rail (41) and the first rolling block (42) are respectively fixed on the rotating seat (2)/the base (1) and the base (1)/the rotating seat (2); and

and the first telescopic cylinder (43) is used for pushing the rotating seat (2) to move along the arc direction of the first arc-shaped sliding rail (41).

8. A computer cockpit as claimed in claim 7 wherein: the left side and the right side of the base (1) are provided with support frames (11), and the first rolling blocks (42) are fixed on the support frames (11); the first arc-shaped sliding rails (41) are arranged at the left side and the right side of the rotating seat (2) respectively.

9. A computer cockpit as claimed in claim 7 wherein: the first telescopic cylinder (43) is hinged in the base (1), and the driving end of the first telescopic cylinder (43) is connected with the rotating seat (2).

10. A computer cockpit according to any of claims 1-3 further comprising a simulator assembly comprising:

an analog steering wheel (91) fixed to the keyboard tray (94);

a simulated pedal (93) provided on the base (1) and located on the front side of the seat (21); and

a simulated gear (92) provided on the seat (21) side;

the distance between the simulated steering wheel (91) and the seat (21) is adjusted by driving the keyboard supporting plate (94) to move back and forth through an automatic adjusting device.

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