阅读说明：本技术 一种软件控制的沉浸式体验仓及其使用方法 (Software-controlled immersive experience bin and using method thereof ) 是由 张银辉 于 2021-01-12 设计创作，主要内容包括：本发明公开了一种软件控制的沉浸式体验仓及其使用方法,包括底板,所述底板上侧面的右侧固设有向右倾斜的竖板,所述竖板的前后侧面与所述底板的前后侧面共面,所述竖板内设有与所述竖板等角度并且向上贯穿所述竖板的一号空腔,所述一号空腔的底面上设有一号电机,所述一号电机的上侧面安装有一号转动轴,所述底板上侧固设有坐垫,所述坐垫上侧面的右侧铰接有靠背,本发明能够提供用户相较于在家使用个人计算机完全不同的沉浸式体验,提升网吧内的上网体验,避免网吧与家庭内使用计算机的同质化体验；本发明为人体工程学设计,并且本发明的人体工程学设计由与本发明适配的计算机软件控制,能够通过用户简单的操作提升用户的舒适度。(The invention discloses a software-controlled immersive experience bin and a use method thereof, wherein the software-controlled immersive experience bin comprises a bottom plate, a vertical plate which is inclined to the right is fixedly arranged on the right side of the upper side surface of the bottom plate, the front side surface and the rear side surface of the vertical plate are coplanar with the front side surface and the rear side surface of the bottom plate, a first cavity which has the same angle with the vertical plate and upwards penetrates through the vertical plate is arranged in the vertical plate, a first motor is arranged on the bottom surface of the first cavity, a first rotating shaft is arranged on the upper side surface of the first motor, a cushion is fixedly arranged on the upper side of the bottom plate, and a backrest is hinged to the right side of the upper side surface of the cushion; the invention is designed for human engineering, and the human engineering design of the invention is controlled by computer software adapted to the invention, so that the comfort level of a user can be improved through simple operation of the user.)

1. A software-controlled immersive experience bin comprising a base plate, characterized in that: the right side of the upper side of the bottom plate is fixedly provided with a vertical plate which inclines rightwards, the front side and the back side of the vertical plate are coplanar with the front side and the back side of the bottom plate, a first cavity which has an equal angle with the vertical plate and upwards penetrates through the vertical plate is arranged in the vertical plate, the bottom surface of the first cavity is provided with a first motor, the upper side of the first motor is provided with a first rotating shaft, the upper side of the bottom plate is fixedly provided with a cushion, the right side of the upper side of the cushion is hinged with a backrest, the first rotating shaft is provided with a back angle adjusting device which can control the rotating angle of the backrest to improve the user experience, the back side of the bottom plate is fixedly provided with a first arc-shaped block, the right side of the first arc-shaped block is coplanar with the right side of the vertical plate, the front side of the bottom plate is fixedly provided with a second arc-shaped block which is symmetrical to the first arc, a second arc-shaped groove which is symmetrically distributed with the first arc-shaped groove is arranged in the back side surface of the second arc-shaped block, the first arc-shaped groove and the second arc-shaped groove are connected with a first sector plate in a sliding way, the inner curved surface of the first sector plate can slide on the upper side surface of the vertical plate, and the lower side surface of the first sector plate can be abutted against the upper side surface of the bottom plate, the bottom plate, the vertical plate, the first arc-shaped block, the second arc-shaped block and the first sector plate form a semi-closed second cavity, the inner curved surface of the first sector plate is provided with a display through a display rotating device, the first rotating shaft extends upwards to the inside of the first sector plate and is provided with a display moving device which can control the first sector plate to slide and drive the display to move, and a sealing device capable of keeping the second cavity semi-closed when the first sector plate slides is arranged in the first sector plate.

2. A software-controlled immersive experience bin of claim 1, wherein: be located in the sector plate set firmly the right handrail board that can pull out forward on an arc piece leading flank, in the sector plate set firmly the left handrail board that can pull out backward on the trailing flank of No. two arc pieces, mouse has been placed on the right handrail board, the keyboard has been placed on the left handrail version.

3. A software-controlled immersive experience bin of claim 1, wherein: the back adjusting device, the display rotating device and the display moving device are all controlled by computer software matched with the invention.

4. A software-controlled immersive experience bin of claim 1, wherein: the back adjusting device comprises a sliding groove which is communicated rightwards in the right side surface of the backrest, an irregular ball is arranged on the left side surface of the sliding groove and can enable any object which is abutted against the left side surface of the sliding groove to slide, a first sliding groove is arranged in the front side surface of the first cavity, a first through hole which is communicated leftwards is arranged in the left wall of the first cavity, the front side surface of the first through hole is coplanar with the first sliding groove, a first rack is connected in the first sliding groove in a sliding manner, the tooth surface of the first rack is arranged on the rear side surface of the first rack, and a first gear capable of being meshed with the first rack is arranged on the first rotating shaft on the rear side of the first rack, the front wall of the first sliding groove is internally and fixedly provided with a first electromagnet capable of attracting the first rack, and the rear wall of the first cavity, which is positioned at the rear side of the first gear, is internally provided with a second electromagnet capable of attracting the first rack.

5. A software-controlled immersive experience bin of claim 1, wherein: display rotating device includes the erection column, the left surface of erection column set firmly in the interior curved surface of sector plate and be equipped with the flexible groove that the opening of four equipartitions is right in the erection column to the flexible groove that is located the upside is taken as an example, flexible inslot side-to-side sliding connection has the supporting shoe, the supporting shoe with there is great frictional force between the flexible groove, the left end of supporting shoe is equipped with magnet admittedly, flexible inslot is equipped with the annular, be equipped with annular No. three electro-magnets in the annular, the annular left wall sets firmly No. four electro-magnets, is located the annular right side flexible inslot be equipped with can the butt in magnet prevents the supporting shoe roll-off completely the buckle in flexible groove, the right-hand member of four supporting shoes in the display rotating device articulates jointly has the display, because the supporting shoe with there is great frictional force between the flexible groove and leads to when No. three electro-magnets and No. four electro-magnets all do not switch on The brace does not slip.

6. A software-controlled immersive experience bin of claim 1, wherein: display mobile device is including being located the erection column right side No. three arc walls that the opening that is equipped with in the sector plate inner curved surface is decurrent, sliding connection has the tooth face No. two racks forward in No. three arc wall up sides, a rotation axis upwards extends the entering No. two rack front sides install No. two gears in No. three arc walls, No. two gears can with No. two rack toothing, the trailing flank of No. two racks through a several spring coupling in on No. three arc wall back walls, set firmly on No. three arc wall antetheca and can attract No. five electro-magnets of No. two racks, No. one the arc wall with respectively be equipped with in No. two arc walls and can help No. one sector plate location and make the fixing device of display mobile device normal work.

7. A software-controlled immersive experience bin of claim 6, wherein: take being located the fixing device of an arc wall as an example, fixing device is including being located the fixed slot that link up forward in the arc wall back wall, be equipped with annular No. six electro-magnets on the wall behind the fixed slot, sliding connection has the butt joint piece around in the fixed slot and the butt joint piece pass through No. two springs with the wall connection behind the fixed slot.

8. A software-controlled immersive experience bin of claim 1, wherein: the sealing device comprises an arc-shaped cavity with a downward opening in the first fan-shaped plate, the arc-shaped cavity is connected with a second fan-shaped plate in a sliding mode, and a seventh electromagnet capable of attracting the second fan-shaped plate is arranged in the top wall of the arc-shaped cavity.

9. A software-controlled immersive experience bin of claim 1, wherein: and a button switch is arranged on the outer ring surface of the first arc plate.

10. A use method of an immersive experience bin controlled by software comprises the following specific steps:

the method comprises the following steps that firstly, when a user wants to experience the method, a button switch is triggered, the display is lightened when the method is electrified, a first motor and a fifth electromagnet are electrified, the first motor drives a first rotating shaft to rotate a second gear when the first motor is electrified, the fifth electromagnet attracts a second rack to move forwards and is meshed with the second gear when the fifth electromagnet is electrified, a first sector plate slides upwards, the first motor automatically stops after a certain time, and a second cavity is opened;

secondly, a user enters the second cavity and sits on the cushion, when the user clicks software which is displayed on the display and is matched with the electromagnetic switch and is started by using a mouse, the seventh electromagnet is powered off, and the second fan-shaped plate slides downwards under the action of gravity to keep the second cavity semi-closed;

thirdly, when a user needs to adjust the upper and lower positions of the display, a mouse is used for clicking a corresponding button on software displayed in the display, when the corresponding button on the software is clicked, a first motor is electrified and is controlled by the software to rotate positively and negatively, a sixth electromagnet is electrified, a fifth electromagnet is electrified, a first electromagnet is electrified, a second electromagnet is powered off, when the fifth electromagnet is electrified, a second gear is meshed with a second rack and a first motor can drive a first sector plate to slide upwards or downwards through a first rotating shaft, when the displacement of the first sector plate meets the requirement of the user, the mouse is loosened, the fifth electromagnet is powered off, the sixth electromagnet is powered off, when the fifth electromagnet is powered off, the second rack slides backwards due to the elastic force of a first spring so as not to be meshed with the second gear, and when the sixth electromagnet is powered off, a butting block is popped up and is butted against the first sector plate due to the elastic force of the second spring, the first sector plate is prevented from being displaced under the action of gravity;

fourthly, when the backrest is required to be adjusted, a mouse is used for clicking a corresponding button on software displayed in a display, at the moment, a first motor is powered on, a fifth electromagnet is powered off, a first electromagnet is powered off, a second electromagnet is powered on, when the first electromagnet is powered off and the second electromagnet is powered on, a first rack is attracted by the second electromagnet to slide backwards until being meshed with a first gear, at the moment, the first rack can move leftwards or rightwards by positive and negative rotation of a first rotating shaft driven by the first motor so as to meet the requirement of increasing or reducing the angle between the backrest and a seat cushion, when the adjustment is finished, the mouse releases the button, at the moment, the first electromagnet is powered on, the second electromagnet is powered off, the first motor is powered off, and the first rack is attracted to abut against the rear side face of the first electromagnet to prevent the first rack from displacing when the first electromagnet;

fifthly, when the display needs to rotate, clicking a corresponding button on software displayed in the display by using a mouse, taking the situation that the display needs to be inclined downwards as an example, at the moment, a third electromagnet in the uppermost telescopic groove is electrified, a fourth electromagnet is powered off, the fourth electromagnet attracts a magnet to drive a supporting block to move rightwards, the movement process of the supporting block is uniform and controllable due to the fact that large friction force exists between the supporting block and the telescopic grooves, and when the supporting block in the uppermost telescopic groove moves rightwards, the supporting block in two parallel telescopic grooves in the middle is driven to move rightwards for a small section, when the adjustment is completed, the mouse loosens the button, at the moment, the display completes the action of inclining downwards, all adjusting operations in the display are provided with thresholds controlled by the software, and the display is prevented from being damaged by over-adjustment of a user;

and sixthly, clicking a corresponding button on software displayed in the display by using a mouse after user experience is finished, electrifying the seven electromagnet to attract the second sector plate and enable the second sector plate to be completely positioned in the arc-shaped cavity, rotating the first motor, enabling the inclination angle of the backrest and the rotation angle of the display to recover preset values through the matching among the first electromagnet, the second electromagnet, the third electromagnet, the fourth electromagnet, the fifth electromagnet and the sixth electromagnet, enabling the first sector plate to slide upwards to the preset values, clicking a button switch to reset after a user leaves the second cavity, enabling the first sector plate to slide downwards and abut against the upper side of the bottom plate, and automatically powering off to finish resetting.

Technical Field

The invention relates to the technical field of software and hardware interaction, in particular to a software-controlled immersive experience cabin and a use method thereof.

Background

Nowadays, the development of the personal computer industry makes the internet bar in the entertainment industry gradually smaller, the current internet bar only simply provides internet equipment, the internet cafe which is more advanced than the internet bar in recent years only links catering with internet, the provided service has no identification degree, and the experience of providing the service is not different from the experience obtained by using a personal computer at home.

Disclosure of Invention

It is an object of the present invention to provide a software controlled immersive experience bin and method of use thereof that overcomes the above-mentioned deficiencies of the prior art.

The software-controlled immersive experience bin comprises a bottom plate, wherein a vertical plate which is inclined to the right is fixedly arranged on the right side of the upper side surface of the bottom plate, the front side surface and the rear side surface of the vertical plate are coplanar with the front side surface and the rear side surface of the bottom plate, a first cavity which has the same angle with the vertical plate and penetrates through the vertical plate upwards is arranged in the vertical plate, a first motor is arranged on the bottom surface of the first cavity, a first rotating shaft is arranged on the upper side surface of the first motor, a cushion is fixedly arranged on the upper side surface of the bottom plate, a backrest is hinged to the right side of the upper side surface of the cushion, a back angle adjusting device which can control the rotating angle of the backrest to improve user experience is arranged on the first rotating shaft, a first arc-shaped block is fixedly arranged on the rear side surface of the bottom plate, the right side surface of the first arc-shaped block is coplanar with the right side surface of the vertical plate, be equipped with an arc wall that both ends run through in the leading flank of an arc piece, be equipped with in the trailing flank of No. two arc pieces with No. two arc walls of an arc wall symmetric distribution, an arc wall with sliding connection has a sector plate No. two in the arc wall, the inner curved surface of a sector plate can in the side of going up of riser slides and the downside of a sector plate can the butt in the last side of bottom plate, riser, an arc piece, No. two arc pieces constitute No. two semi-enclosed cavities with a sector plate, install the display through display rotating device on the inner curved surface of a sector plate, a rotation axis upwards extends to be equipped with in a sector plate and can control a sector plate slides and drives the display mobile device that the display removed, be equipped with in a sector plate and can keep when a sector plate slides No. two semi-enclosed cavities And (4) closing the device.

Optionally, be located in the sector plate set firmly the right handrail board that can pull out forward on the arc piece leading flank, in the sector plate set firmly the left handrail board that can pull out backward on the trailing flank of No. two arc pieces, mouse has been placed on the right handrail board, the keyboard has been placed on the left handrail board.

Optionally, the back adjusting device, the display rotating device and the display moving device are all controlled by computer software adapted to the invention.

Optionally, the back adjusting device comprises a sliding groove penetrating through the right side surface of the backrest to the right, irregular balls are arranged on the left side surface of the sliding groove to enable any object abutted against the left side surface of the sliding groove to slide, a first sliding groove is arranged in the front side surface of the first cavity, a first through hole which is communicated leftwards is arranged in the left wall of the first cavity, the front side surface of the first through hole is coplanar with the first sliding groove, a first rack is connected in the first sliding groove in a sliding manner, the tooth surface of the first rack is arranged on the rear side surface of the first rack, and a first gear capable of being meshed with the first rack is arranged on the first rotating shaft on the rear side of the first rack, the front wall of the first sliding groove is internally and fixedly provided with a first electromagnet capable of attracting the first rack, and the rear wall of the first cavity, which is positioned at the rear side of the first gear, is internally provided with a second electromagnet capable of attracting the first rack.

Optionally, display rotating device includes the erection column, the left surface of erection column set firmly in the inner curved surface of sector plate and be equipped with the flexible groove that the opening of four equipartitions is right in the erection column to the flexible groove that is located the upside is taken as an example, flexible inslot side to side sliding connection has the supporting shoe, the supporting shoe with there is great frictional force between the flexible groove, the left end of supporting shoe is equipped with magnet admittedly, flexible inslot is equipped with the annular, be equipped with annular No. three electro-magnets in the annular, annular left wall has set firmly No. four electro-magnets, is located the annular right side flexible inslot be equipped with can the butt in magnet prevents the supporting shoe roll-off completely the buckle in flexible groove, the right-hand member of four supporting shoes in the display rotating device articulates jointly has the display, because the supporting shoe with there is great frictional force between the flexible groove and leads to all not to energize when No. three electro-magnets and No. four electro-magnets The support post does not slip.

Optionally, the display mobile device is including being located the erection column right side No. three arc walls that the opening that is equipped with in the sector plate inner curved surface is decurrent, sliding connection has the tooth face No. two racks forward in No. three arc walls upside, a axis of rotation upwards extends the entering No. two rack front sides install No. two gears in No. three arc walls, No. two gears can with No. two rack toothing, the trailing flank of No. two racks through a several spring coupling in on No. three arc wall back walls, No. three arc wall front walls have set firmly on can attract No. five electro-magnets of No. two racks, No. one the arc wall with respectively be equipped with in No. two arc walls and can help a sector plate location and make the display mobile device normal work's fixing device.

Optionally, take to be located the fixing device in the arc wall as an example, fixing device is including being located the fixed slot that link up forward in the arc wall back wall, be equipped with annular No. six electro-magnets on the wall behind the fixed slot, sliding connection has the butt piece around in the fixed slot and the butt piece pass through No. two springs with the wall connection behind the fixed slot.

Optionally, the closing device includes the arc chamber that the opening is decurrent in the sector plate, arc chamber sliding connection has No. two sector plates, be equipped with in the arc chamber roof and attract No. seven electro-magnets of No. two sector plates.

Optionally, a button switch is arranged on the outer ring surface of the first arc plate.

A use method of an immersive experience bin controlled by software comprises the following specific steps:

the method comprises the following steps that firstly, when a user wants to experience the method, a button switch is triggered, the display is lightened when the method is electrified, a first motor and a fifth electromagnet are electrified, the first motor drives a first rotating shaft to rotate a second gear when the first motor is electrified, the fifth electromagnet attracts a second rack to move forwards and is meshed with the second gear when the fifth electromagnet is electrified, a first sector plate slides upwards, the first motor automatically stops after a certain time, and a second cavity is opened;

secondly, a user enters the second cavity and sits on the cushion, when the user clicks software which is displayed on the display and is matched with the electromagnetic switch and is started by using a mouse, the seventh electromagnet is powered off, and the second fan-shaped plate slides downwards under the action of gravity to keep the second cavity semi-closed;

thirdly, when a user needs to adjust the upper and lower positions of the display, a mouse is used for clicking a corresponding button on software displayed in the display, when the corresponding button on the software is clicked, a first motor is electrified and is controlled by the software to rotate positively and negatively, a sixth electromagnet is electrified, a fifth electromagnet is electrified, a first electromagnet is electrified, a second electromagnet is powered off, when the fifth electromagnet is electrified, a second gear is meshed with a second rack and a first motor can drive a first sector plate to slide upwards or downwards through a first rotating shaft, when the displacement of the first sector plate meets the requirement of the user, the mouse is loosened, the fifth electromagnet is powered off, the sixth electromagnet is powered off, when the fifth electromagnet is powered off, the second rack slides backwards due to the elastic force of a first spring so as not to be meshed with the second gear, and when the sixth electromagnet is powered off, a butting block is popped up and is butted against the first sector plate due to the elastic force of the second spring, the first sector plate is prevented from being displaced under the action of gravity;

fourthly, when the backrest is required to be adjusted, a mouse is used for clicking a corresponding button on software displayed in a display, at the moment, a first motor is powered on, a fifth electromagnet is powered off, a first electromagnet is powered off, a second electromagnet is powered on, when the first electromagnet is powered off and the second electromagnet is powered on, a first rack is attracted by the second electromagnet to slide backwards until being meshed with a first gear, at the moment, the first rack can move leftwards or rightwards by positive and negative rotation of a first rotating shaft driven by the first motor so as to meet the requirement of increasing or reducing the angle between the backrest and a seat cushion, when the adjustment is finished, the mouse releases the button, at the moment, the first electromagnet is powered on, the second electromagnet is powered off, the first motor is powered off, and the first rack is attracted to abut against the rear side face of the first electromagnet to prevent the first rack from displacing when the first electromagnet;

fifthly, when the display needs to rotate, clicking a corresponding button on software displayed in the display by using a mouse, taking the situation that the display needs to be inclined downwards as an example, at the moment, a third electromagnet in the uppermost telescopic groove is electrified, a fourth electromagnet is powered off, the fourth electromagnet attracts a magnet to drive a supporting block to move rightwards, the movement process of the supporting block is uniform and controllable due to the fact that large friction force exists between the supporting block and the telescopic grooves, and when the supporting block in the uppermost telescopic groove moves rightwards, the supporting block in two parallel telescopic grooves in the middle is driven to move rightwards for a small section, when the adjustment is completed, the mouse loosens the button, at the moment, the display completes the action of inclining downwards, all adjusting operations in the display are provided with thresholds controlled by the software, and the display is prevented from being damaged by over-adjustment of a user;

and sixthly, clicking a corresponding button on software displayed in the display by using a mouse after user experience is finished, electrifying the seven electromagnet to attract the second sector plate and enable the second sector plate to be completely positioned in the arc-shaped cavity, rotating the first motor, enabling the inclination angle of the backrest and the rotation angle of the display to recover preset values through the matching among the first electromagnet, the second electromagnet, the third electromagnet, the fourth electromagnet, the fifth electromagnet and the sixth electromagnet, enabling the first sector plate to slide upwards to the preset values, clicking a button switch to reset after a user leaves the second cavity, enabling the first sector plate to slide downwards and abut against the upper side of the bottom plate, and automatically powering off to finish resetting.

The invention has the beneficial effects that: the invention can provide different immersive experiences for a user compared with the experience of using a personal computer at home, improves the internet surfing experience in an internet bar, and avoids the homogenization experience of using the personal computer in the internet bar and the home;

the invention is designed for human engineering, and the human engineering design of the invention is controlled by computer software adapted to the invention, so that the comfort level of a user can be improved through simple operation of the user.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic diagram of the structure of a software controlled immersive experience bin of the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic right side view of the back adjustment apparatus of FIG. 1;

FIG. 4 is a schematic structural view of sector plate number one in FIG. 1;

FIG. 5 is a schematic view of the structure of B-B in FIG. 4;

FIG. 6 is a schematic diagram of the structure of C-C in FIG. 5;

FIG. 7 is a schematic diagram of D-D of FIG. 4;

FIG. 8 is a schematic structural view of the first arc block of FIG. 1;

fig. 9 is a schematic diagram of the structure of E-E in fig. 8.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-9, a software-controlled immersive experience warehouse according to an embodiment of the present invention includes a bottom plate 11, a vertical plate 12 inclined to the right is fixedly disposed on the right side of the upper side of the bottom plate, the front and rear sides of the vertical plate 12 are coplanar with the front and rear sides of the bottom plate 11, a first cavity 91 having an equal angle with the vertical plate 12 and penetrating through the vertical plate 12 is disposed in the vertical plate 12, a first motor 13 is disposed on the bottom surface of the first cavity 91, a first rotating shaft 14 is mounted on the upper side of the first motor 13, a cushion 15 is fixedly disposed on the upper side of the bottom plate 11, a backrest 16 is hinged to the right side of the upper side of the cushion 15, a back angle adjusting device 101 capable of controlling the rotation angle of the backrest 16 to improve user experience is disposed on the first rotating shaft 14, a first arc block 17 is fixedly disposed on the rear side of the bottom plate 11, the right side of the first arc block 17 is coplanar with the right side of, bottom plate 11's leading flank have set firmly with No. two arc pieces 18 of an arc piece 17 position symmetry, be equipped with an arc 19 that both ends run through in the leading flank of an arc piece 17, be equipped with in No. two arc pieces 18's the trailing flank with No. two arc pieces 20 of an arc 19 symmetric distribution, an arc 19 with No. two arc pieces 20 sliding connection have a sector 21, the inner curved surface of a sector 21 can in the side of going up of riser 12 slides and the downside of a sector 21 can butt in the side of going up of bottom plate 11, riser 12, an arc piece 17, No. two arc pieces 18 constitute No. two semi-enclosed cavities 92 with a sector 21, install display 22 through display rotating device 102 on the inner curved surface of a sector 21, a rotation axis 14 upwards extends to be equipped with in a sector 21 and can control No. one sector 21 and a display moving device 103 for sliding and driving the display 22 to move, wherein a closing device 104 capable of keeping the second cavity 92 semi-closed when the first sector plate 21 slides is arranged in the first sector plate 21.

Preferably, be located in No. one fan-shaped plate 21 set firmly the right handrail board that can pull out forward on No. one arc 17 leading flank, No. one fan-shaped plate 21 in No. two arc 18 trailing flanks on set firmly the left handrail board that can pull out backward, mouse has been placed on the right handrail board, the keyboard has been placed on the left handrail version.

Preferably, the back adjusting device 101, the display rotating device 102 and the display moving device 103 are all controlled by computer software adapted to the present invention.

Preferably, the back adjusting device 101 includes the sliding groove 23 that link up right in the back 16 right flank, be equipped with anomalous ball on the sliding groove 23 left flank can let the butt in arbitrary object of sliding groove 23 left flank slides, be equipped with a spout 24 in the first cavity 91 leading flank, be equipped with a logical hole 81 that link up left in the first cavity 91 left wall, the leading flank of a logical hole 81 with a spout 24 coplane, sliding connection has a rack 25 in the spout 24, the flank of a tooth of a rack 25 is at its trailing flank and install on a rack 25 rear side a gear 26 that can with a rack 25 meshing on a axis of rotation 14, set firmly in the antetheca of a spout 24 can attract an electro-magnet 27 of a rack 25, be located be equipped with in the first cavity 91 rear wall behind a gear 26 that can attract a rack 25 An electromagnet 37.

Preferably, the display rotating device 102 includes a mounting column 28, a left side surface of the mounting column 28 is fixedly disposed on an inner curved surface of the first sector plate 21, and four evenly distributed telescopic slots 29 with right and left openings are disposed in the mounting column 28, taking the telescopic slot 29 located on the upper side as an example, a supporting block 30 is slidably connected in the telescopic slot 29 from left to right, a relatively large friction force exists between the supporting block 30 and the telescopic slot 29, a magnet 31 is fixedly disposed at a left end of the supporting block 30, a circular slot 32 is disposed in the telescopic slot 29, an annular electromagnet 33 is disposed in the circular slot 32, an electromagnet 34 of four numbers is fixedly disposed in a left wall of the circular slot 32, a buckle which can abut against the magnet 31 to prevent the supporting block 30 from completely sliding out of the telescopic slot 29 is disposed in the telescopic slot 29 located on a right side of the circular slot 32, and right ends of the four supporting blocks 30 in the display rotating device 102 are hinged to a display 22, the supporting column 30 does not slide when neither the electromagnet 33 of the third number nor the electromagnet 34 of the fourth number is energized because of the large friction between the supporting block 30 and the telescopic slot 29.

Preferably, the display moving device 103 includes a downward opening third arc-shaped slot 35 arranged in the inner curved surface of the first sector plate 21 at the right side of the mounting column 28, a second rack 36 with a forward tooth surface is connected in the upper side surface of the third arc-shaped groove 35 in a sliding manner back and forth, the first rotating shaft 14 extends upwards to enter the third arc-shaped groove 35 at the front side of the second rack 36, and a second gear 38 is installed in the third arc-shaped groove 35, the second gear 38 can be meshed with the second rack 36, the rear side surface of the second rack 36 is connected to the rear wall of the third arc-shaped groove 35 through a plurality of first springs 40, a fifth electromagnet 41 capable of attracting the second rack 35 is fixedly arranged on the front wall of the third arc-shaped groove 35, the first arc-shaped groove 19 and the second arc-shaped groove 20 are respectively provided with a fixing device 105 which can help the first sector plate 21 to be positioned so that the display moving device can work normally.

Preferably, taking the fixing device 105 located in the first arc-shaped groove 19 as an example, the fixing device 105 includes a fixing groove 42 located in the rear wall of the first arc-shaped groove 19 and penetrating forward, an annular No. six electromagnet 43 is arranged on the rear wall of the fixing groove 42, a butting block 44 is slidably connected in the fixing groove 42 in the front-back direction, and the butting block 44 is connected with the rear wall of the fixing groove 42 through a No. two spring 45.

Preferably, the closing device 104 comprises an arc-shaped cavity 46 with a downward opening in the first fan-shaped plate 21, a second fan-shaped plate 48 is slidably connected to the arc-shaped cavity 46, and a seventh electromagnet 47 capable of attracting the second fan-shaped plate 48 is arranged in the top wall of the arc-shaped cavity 46.

Preferably, a button switch 50 is arranged on the outer annular surface of the first arc-shaped plate 21.

A use method of an immersive experience bin controlled by software comprises the following specific steps:

firstly, when a user wants to experience the invention, the button switch 50 is triggered, the display 22 is lighted when the invention is electrified, the first motor 12 and the fifth electromagnet 41 are electrified, the first motor 12 drives the first rotating shaft 14 to rotate the second gear 38 when the first motor 12 is electrified, the second rack 36 is attracted to move forwards and is meshed with the second gear 38 when the fifth electromagnet 41 is electrified, the first sector plate 21 slides upwards, the first motor 13 automatically stops after a certain time, and the second cavity 92 is opened;

secondly, when a user enters the second cavity 92 and sits on the cushion 15, the seventh electromagnet 47 is powered off when the user clicks the software which is displayed on the display and is matched with the invention by using a mouse and starts the software, and the second fan-shaped plate 48 slides downwards under the action of gravity to keep the second cavity 92 semi-closed;

thirdly, when a user needs to adjust the up-down position of the display 22, clicking a corresponding button on software displayed in the display by using a mouse, when the corresponding button on the software is clicked, electrifying the first motor 13, controlling the forward and reverse rotation by the software, electrifying the sixth electromagnet 43, electrifying the fifth electromagnet 41, electrifying the first electromagnet 27 and powering off the second electromagnet 37, when the fifth electromagnet 41 is electrified, the second gear 38 is meshed with the second rack 36, and the first motor 13 can drive the first sector plate 21 to slide upwards or downwards through the first rotating shaft 14, when the displacement of the first sector plate 21 meets the requirement of the user, releasing the mouse, when the fifth electromagnet 41 is powered off and the sixth electromagnet 43 is powered off, the second rack 36 slides backwards due to the elastic force of the first spring 40 so as not to be meshed with the second gear 38, when the sixth electromagnet 43 is powered off, the abutting block 44 is ejected due to the elastic force of the second spring 45 and abuts against the first sector plate 21, the first sector plate 21 is prevented from being displaced due to the action of gravity;

fourthly, when the backrest 16 of the invention is required to be adjusted, a mouse is used for clicking a corresponding button on software displayed in the display, at the moment, the first motor 13 is powered on, the fifth electromagnet 41 is powered off, the first electromagnet 27 is powered off, the second electromagnet 37 is powered on, when the first electromagnet 27 is powered off and the second electromagnet 37 is powered on, the first rack 25 is attracted by the second electromagnet 37 to slide backwards until the first rack is meshed with the first gear 26, at the moment, the forward and reverse rotation of the first rotating shaft 14 driven by the first motor 13 can enable the first rack 25 to move leftwards or rightwards so as to meet the requirement of increasing or decreasing the angle between the backrest 16 and the seat cushion 15, when the mouse is released after adjustment is finished, the first electromagnet 27 is powered on, the second electromagnet 37 is powered off, the first motor 13 is powered off, and the first rack 25 is attracted to abut against the rear side surface of the first electromagnet 27 to prevent displacement when the first electromagnet 27 is powered on;

the fifth step is to click the corresponding button on the software displayed in the display with the mouse when the rotation of the display 22 of the present invention is required, taking the example that the display 22 is required to be inclined downwards, at this time, the third electromagnet 33 in the telescopic slot 29 at the uppermost side is powered on, the fourth electromagnet 34 is powered off, at this time, the fourth electromagnet 34 attracts the magnet 31 to drive the supporting block 30 to move rightwards, because of the large friction between the supporting block 30 and the telescopic slot 29, the movement process of the supporting block 30 is uniform and controllable, and when the supporting block 30 in the uppermost telescopic slot 29 moves to the right, the supporting block 30 in the two parallel telescopic slots 29 in the middle is driven to move to the right for a short distance, when the mouse releases the button after the adjustment is finished, the display 22 finishes the action of downward inclination, and all the adjustment operations in the invention are provided with the threshold value controlled by software, so that the invention is prevented from being damaged by over-adjustment of a user;

sixthly, clicking a corresponding button on software displayed in the display by using a mouse after user experience is finished, wherein the seven electromagnet 47 is electrified to attract the second sector plate 48 and enable the second sector plate to be completely positioned in the arc-shaped cavity 46, meanwhile, the first motor 13 rotates, the inclination angle of the backrest 16 and the rotation angle of the display 22 are enabled to be recovered to preset values through the matching among the first electromagnet 27, the second electromagnet 37, the third electromagnet 33, the fourth electromagnet 34, the fifth electromagnet 41 and the sixth electromagnet 43, the first sector plate 21 slides upwards to the preset values, when a user leaves the second cavity 92, the button switch 50 is clicked and enabled to reset, the first sector plate 21 slides downwards and abuts against the upper side of the bottom plate 11, and then the power-off automatic reset is finished.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.