CN109966747B - Rotary disc for simulating flight entertainment device - Google Patents

Abstract

The invention discloses a turntable of a simulated flight entertainment device, which comprises a horizontally arranged turntable, wherein at least two flail block mechanisms are arranged on the turntable, and all the flail block mechanisms are uniformly distributed around the central shaft of the turntable in the circumferential direction; a sliding groove is formed in the upper surface of the turntable corresponding to each throwing block mechanism, the sliding groove is located in the horizontal direction, the sliding grooves are arranged along the radial direction of the turntable, and the throwing block mechanisms are arranged in the sliding grooves respectively; the throwing block mechanism comprises a sliding block and an elastic stretching piece, the elastic stretching piece is arranged along the radial direction of the rotary table, the inner end of the elastic stretching piece is connected with the inner end of the sliding groove, and the outer end of the elastic stretching piece is connected with the sliding block. The invention has the beneficial effects that: when the carousel rotated, under centrifugal force, the slider was the centrifugal motion outwards slided and tensile elastic stretching piece along the spout, and the rotational speed of carousel can be instructed to the position at slider distance carousel center, has improved the feedback nature and the interest when the carousel rotated.

Description

Rotary disc for simulating flight entertainment device

Technical Field

The invention belongs to the field of scene experience entertainment devices, and particularly relates to a rotary table of a simulated flight entertainment device.

Background

Along with the development of the economic society, the living standard of people is continuously improved, the demand on entertainment activities is continuously increased, and the development of science and technology continuously enriches the entertainment experience activity forms of people. Flying seems to be the ability of human pursuits, in the field of recreational activities, there are airplanes, airships, hot air balloons, paragliders, etc., but limited to the high requirements in the field of equipment and personnel expertise, and the popularity of such activities is not high. However, in recent years, electronic information technology means such as VR technology have provided the possibility of simulating experience systems. However, VR technology has an advantage of good scene rendering, but it is difficult for guests to obtain a physical and physiological experience by means of VR technology alone. Therefore, the development of a flight experience simulation device based on VR can enhance the experience of the guest being personally on the scene.

Disclosure of Invention

In view of the above, the invention provides a turntable of a simulated flight entertainment device to enhance the interest.

The technical scheme is as follows:

a rotary table of a simulated flight entertainment device comprises a rotary table which is horizontally arranged, and is characterized in that at least two throwing block mechanisms are arranged on the rotary table, and all the throwing block mechanisms are uniformly distributed around the central shaft of the rotary table in the circumferential direction;

a sliding groove is formed in the upper surface of the turntable corresponding to each throwing block mechanism, the sliding groove is located in the horizontal direction, the sliding grooves are arranged along the radial direction of the turntable, and the throwing block mechanisms are arranged in the sliding grooves respectively;

the throwing block mechanism comprises a sliding block and an elastic stretching piece, the elastic stretching piece is arranged along the radial direction of the rotary table, the inner end of the elastic stretching piece is connected with the inner end of the sliding groove, and the outer end of the elastic stretching piece is connected with the sliding block.

By adopting the design, when the rotary table rotates, under the action of centrifugal force, the sliding block slides outwards along the sliding groove in a centrifugal motion mode and stretches the elastic stretching piece, the rotating speed of the rotary table can be indicated by the position, away from the center of the rotary table, of the sliding block, and the feedback and interestingness of the rotary table during rotation are improved.

As a preferred technical scheme, the turntable further comprises a base, a rotating pillar is arranged on the base, the turntable is arranged at the upper end of the rotating pillar, and a rotating support mechanism is arranged between the rotating pillar and the turntable;

and a power generation module is also arranged between the rotating support and the turntable.

By adopting the design, the rotary supporting mechanism provides support for the rotation of the rotary disc, and the power generation module is arranged to convert the kinetic energy of the rotation of the rotary disc into electric energy.

As a preferred technical scheme, the rotating support is in a hollow column shape, and the upper end surface of the rotating support faces the lower surface of the rotating disc;

the rotary supporting mechanism comprises an anti-falling groove, the anti-falling groove is formed in the lower surface of the rotary table and is annular, the central line of the anti-falling groove coincides with the central line of the rotary table, the upper end of the rotary supporting column extends into the anti-falling groove, and the two groove walls of the anti-falling groove are attached to the outer wall and the inner wall of the rotary supporting column respectively.

By adopting the design, the rotating support column has a supporting function on the rotating disc, and the anti-falling groove is arranged to be beneficial to keeping the rotating stability of the rotating disc.

As a preferred technical solution, the above-mentioned rotation support mechanism further comprises a radial support mechanism;

the radial supporting mechanism is arranged between the upper end surface of the rotating support column and the bottom of the anti-falling groove;

the radial support mechanism comprises a lower ball groove, and the lower ball groove is formed in the upper end face of the rotating support;

an upper ball groove is arranged at the bottom of the anti-drop groove and is opposite to the lower ball groove;

and supporting balls are arranged in the lower ball groove and the upper ball groove.

By adopting the design, the radial supporting mechanism not only plays a role in supporting the turntable, but also reduces the resistance through rolling friction.

As a preferred technical scheme, an annular inner retainer ring and an annular outer retainer ring are vertically arranged on the lower surface of the turntable, the inner retainer ring and the outer retainer ring are arranged on the same center line of the turntable, and the anti-falling groove is formed in the area between the inner retainer ring and the outer retainer ring;

a radial deviation prevention mechanism is arranged between the upper end of the rotating strut and the outer retainer ring and comprises a deviation prevention ball;

a ball hole radially penetrates through the outer retaining ring, the inner end of the ball hole is contracted, and the anti-deviation ball is arranged in the ball hole;

and a limiting ring is sleeved outside the outer retainer ring, the inner wall of the limiting ring is attached to the outer wall of the outer retainer ring, and the limiting ring covers the outer end of the ball hole.

By adopting the design, the anti-deflection ball is arranged, so that the outer retainer ring and the outer wall of the rotating support column are removed in a rolling friction mode, the deflection of the rotating disc can be prevented, and the rotating stability is improved.

As a preferred technical solution, the power generation module includes a rotor winding and at least one pair of stator magnetic pole pairs;

the stator magnetic pole pair is arranged in the inner cavity of the rotating support column;

the rotor winding is arranged on the lower surface of the rotary table and is positioned between the stator magnetic pole pairs;

and the output end of the rotor winding is connected with a storage battery through a rectifier.

By adopting the design, the power generation module is simple in structure and convenient to install.

As a preferred technical scheme, a guide rod is arranged in the sliding chute along the length direction of the sliding chute, the guide rod is arranged along the radial direction of the turntable, and two ends of the guide rod are respectively connected with two ends of the sliding chute;

the slider is provided with a guide hole in a penetrating way, and the slider is sleeved on the guide rod through the guide hole in a sliding way.

By adopting the design, the sliding stability of the sliding block is kept.

As the preferred technical scheme, the turntable comprises an inner turntable body and an outer ring body;

the upper surface of the inner disc body is provided with the sliding chute, and the outer end of the sliding chute extends outwards and penetrates out of the cylindrical surface of the inner disc body;

the inner side surface of the outer ring body is attached to the cylindrical surface of the inner disc body;

the outer ring body is fixedly connected with the inner disc body through bolts.

By adopting the design, the installation of the block throwing mechanism in the sliding groove is facilitated.

As a preferred technical scheme, inner insertion holes are respectively formed in the inner end surfaces of the sliding grooves, outer insertion holes radially penetrate through the outer ring body, and the outer insertion holes correspond to the inner insertion holes one by one;

two ends of the guide rod are respectively arranged in the inner inserting hole and the outer inserting hole in a penetrating mode;

a locking cylinder is radially inserted into the outer plug hole, and the outer end of the locking cylinder is closed;

the outer end of the guide rod extends into the locking cylinder, the cylinder bottom of the locking cylinder abuts against the outer end of the guide rod, and the outer wall of the locking cylinder is in threaded fit with the outer plug hole.

By adopting the design, the installation of the guide rod in the sliding groove is facilitated.

As a preferred technical scheme, a transparent panel covers the upper surface of the turntable.

By adopting the design, the panel plays a protective role and is beneficial to improving the attractiveness of the turntable.

The invention has the beneficial effects that: when the carousel rotated, under centrifugal force, the slider was the centrifugal motion outwards slided and tensile elastic stretching piece along the spout, and the rotational speed of carousel can be instructed to the position at slider distance carousel center, has improved the feedback nature and the interest when the carousel rotated.

Drawings

FIG. 1 is a schematic structural diagram according to a first embodiment;

FIG. 2 is a cross-sectional view A '-A' of FIG. 1;

FIG. 3 is a cross-sectional view B '-B' of FIG. 1;

FIG. 4 is a schematic structural diagram of a power module;

FIG. 5 is an enlarged view of a portion a of FIG. 4;

FIG. 6 is a top view of the rotating strut;

FIG. 7 is a bottom view of the turntable;

FIG. 8 is a schematic structural view of the second embodiment;

FIG. 9 is a rear view of FIG. 8;

FIG. 10 is a top view of FIG. 8;

fig. 11 is a schematic structural view of the turntable according to the second embodiment, in which the light strip is not shown;

fig. 12 is a schematic view of the light strip mounted on the turntable, the panel not shown;

FIG. 13 is a cross-sectional view A-A of FIG. 11;

FIG. 14 is a cross-sectional view B-B of FIG. 11;

FIG. 15 is a schematic view of a slider configuration;

FIG. 16 is a schematic structural view of an upper slider and a lower slider;

FIG. 17 is a schematic diagram of a floating electrode structure;

FIG. 18 is a schematic view of the structure of an electrode strip;

FIG. 19 is a top view of FIG. 18;

fig. 20 is a cross-sectional view C-C of fig. 19.

Detailed Description

The present invention will be further described with reference to the following examples and the accompanying drawings.

Example one

As shown in fig. 1 to 3, a turntable of a simulated flight entertainment device includes a horizontally disposed turntable 100, at least two flail block mechanisms 200 are disposed on the turntable 100, and all the flail block mechanisms 200 are uniformly distributed around a central axis of the turntable 100 in an annular direction.

A sliding groove 210 is formed in the upper surface of the turntable 100 corresponding to each flail block mechanism 200, the sliding groove 210 is located in the horizontal direction, the sliding groove 210 is arranged along the radial direction of the turntable 100, and the flail block mechanisms 200 are arranged in the sliding groove 210 respectively.

The flail mechanism 200 includes a sliding block 220 and an elastic stretching member 230, the elastic stretching member 230 is disposed along the radial direction of the turntable 100, the inner end of the elastic stretching member is connected to the inner end of the sliding groove 210, and the outer end of the elastic stretching member is connected to the sliding block 220.

A guide rod 250 is disposed in the slide groove 210 along a length direction thereof, the guide rod 250 is disposed along a radial direction of the turntable 100, and both ends of the guide rod 250 are connected to both ends of the slide groove 210, respectively. A guide hole penetrates through the sliding block 220, and the sliding block 220 is sleeved on the guide rod 250 through the guide hole in a sliding manner.

The turntable 100 includes an inner disc body 110 and an outer ring body 120. The sliding groove 210 is formed in the upper surface of the inner tray 110, and the outer end of the sliding groove 210 extends outwards and penetrates through the cylindrical surface of the inner tray 110. The inner side surface of the outer ring body 120 abuts against the cylindrical surface of the inner disc body 110. The outer ring body 120 is fixedly connected with the inner disc body 110 through bolts.

Inner insertion holes are respectively formed in the inner end surfaces of the sliding grooves 210, and outer insertion holes are radially penetrated through the outer ring body 120 and correspond to the inner insertion holes one by one; two ends of the guide rod 250 are respectively arranged in the inner inserting hole and the outer inserting hole in a penetrating way; a locking cylinder 130 is radially inserted into the outer plug hole, and the outer end of the locking cylinder 130 is closed; the outer end of the guide rod 250 extends into the locking cylinder 130, the cylinder bottom of the locking cylinder 130 abuts against the outer end of the guide rod 250, and the outer wall of the locking cylinder 130 is in threaded fit with the outer plug hole.

The upper surface of the turntable 100 is covered with a transparent panel 140.

As shown in fig. 4, a base 400 is further disposed below the turntable 100, a rotation support 300 is disposed on the base 400, the turntable 100 is disposed at an upper end of the rotation support 300, and a rotation support mechanism 500 is disposed between the rotation support 300 and the turntable 100.

A power generation module 800 is further disposed between the rotation support 300 and the turntable 100.

The rotation support 300 is a hollow cylinder, and the upper end surface of the rotation support faces the lower surface of the turntable 100. The rotation supporting mechanism 500 includes a separation-preventing groove 510, the separation-preventing groove 510 is provided on the lower surface of the turntable 100, the separation-preventing groove 510 is annular, the center line of the separation-preventing groove 510 coincides with the center line of the turntable 100, the upper end of the rotation supporting column 300 extends into the separation-preventing groove 510, and two groove walls of the separation-preventing groove 510 respectively abut against the outer wall and the inner wall of the rotation supporting column 300.

As shown in fig. 5 to 7, the rotary supporting mechanism 500 further includes a radial supporting mechanism 540. The radial support mechanism 540 is disposed between the upper end surface of the rotation column 300 and the groove bottom of the drop-off prevention groove 510. The radial support mechanism 540 includes a lower ball groove 541, and the lower ball groove 541 is opened at an upper end surface of the rotation column 300. An upper ball groove 543 is formed at the bottom of the anti-drop groove 510, and the upper ball groove 543 faces the lower ball groove 541. The lower ball groove 541 and the upper ball groove 543 are provided with support balls 542 therein.

An annular inner retainer ring 530 and an annular outer retainer ring 520 are vertically arranged on the lower surface of the rotary disc 100, the inner retainer ring 530 and the outer retainer ring 520 are arranged on the same center line of the rotary disc 100, and the anti-falling groove 510 is formed in the area between the inner retainer ring 530 and the outer retainer ring 520. A radial anti-deviation mechanism including an anti-deviation ball 550 is provided between the upper end of the rotation column 300 and the outer retainer ring 520.

A ball hole 521 radially penetrates through the outer retainer ring 520, the inner end of the ball hole 521 is narrowed, and the anti-deviation ball 550 is arranged in the ball hole 521. A limiting ring 560 is sleeved outside the outer retainer ring 520, the inner wall of the limiting ring 560 is attached to the outer wall of the outer retainer ring 520, and the limiting ring 560 covers the outer end of the ball hole 521.

The power generation module 800 includes a rotor winding 820 and at least one pair of stator pole pairs. The stator pole pairs are disposed within the interior cavity of the rotating post 300. The rotor winding 820 is disposed on the lower surface of the turntable 100, and the rotor winding 820 is located between the stator pole pairs.

The output end of the rotor winding 820 is connected with a storage battery 830 through a rectifier.

The turntable of the embodiment is suitable for the simulated flight entertainment device of the second embodiment.

Example two

As shown in fig. 8-10, a flight experience simulation entertainment system under VR scene includes a vertical telescopic mechanism, the vertical telescopic mechanism includes at least two vertically arranged hydraulic telescopic rods e1, the housing of the hydraulic telescopic rod e1 is fixed on the ground, and the telescopic end of the hydraulic telescopic rod e1 is hinged with a platform e 2. The upper surface of the platform e2 is provided with a frame a, and the frame a is provided with a seat d, a pedal driving mechanism b, a transmission mechanism c, a turntable 100 as described in the first embodiment and a blowing device f.

The front of seat d is equipped with blast apparatus f, and this blast apparatus f includes the support column, and this support column vertical setting, the upper end of this support column are equipped with axial fan, and this axial fan's air-out end orientation seat d.

The pedal driving mechanism b and the rotary table 100 are arranged below the horizontal position of the seat d, the transmission mechanism c is arranged between the pedal driving mechanism b and the rotary table 100, and the pedal driving mechanism b drives the rotary table 100 to rotate. The turntable 100 is rotatably disposed on the frame a, and the surface of the turntable 100 is located in a horizontal direction.

A base 400 is arranged below the turntable 100, the base 400 is fixedly arranged on the platform e2, a rotating support column 300 is vertically arranged on the base 400, the turntable 100 is arranged at the upper end of the rotating support column 300, and a rotating support mechanism 500 is arranged between the rotating support column 300 and the turntable 100.

A rotating shaft 140 is fixedly arranged at the center of the upper surface of the rotating disc 100, and the rotating shaft 140 is connected with the transmission mechanism c. The transmission mechanism c comprises a transmission shaft c1, the transmission shaft c1 is arranged on the frame a through a bearing, the transmission shaft c1 is positioned above the rotating shaft 140, the transmission shaft c1 is horizontally arranged, the transmission shaft c1 is in transmission connection with the rotating shaft 140 through a bevel gear pair c4, a driven sprocket c2 is further arranged on the transmission shaft c1, and the driven sprocket c2 is connected with the pedal driving mechanism b.

The pedal driving mechanism b comprises a chain wheel shaft and a driving chain wheel b1, the chain wheel shaft is arranged on the rack a through a bearing, the driving chain wheel b1 is fixedly sleeved on the chain wheel shaft, and the driving chain wheel b1 and the driven chain wheel c2 are externally provided with the same chain c3 in an winding manner. A ratchet mechanism is arranged between the chain wheel shaft and the rack a, cranks are respectively arranged at two ends of the chain wheel shaft, and the cranks are provided with pedals b 2. The seat d is provided above the driving sprocket b1, and a seat belt d1 is provided on the seat d.

A centrifugal force measuring assembly including a slinger mechanism 200 is provided on the turntable 100.

As shown in fig. 11, at least two of the flail block mechanisms 200 are disposed on the turntable 100, and all the flail block mechanisms 200 are uniformly distributed around the central axis of the turntable 100 in the circumferential direction. A sliding groove 210 is formed in the upper surface of the turntable 100 corresponding to each flail block mechanism 200, the sliding groove 210 is located in the horizontal direction, the sliding groove 210 is arranged along the radial direction of the turntable 100, and the flail block mechanisms 200 are arranged in the sliding groove 210 respectively.

As shown in fig. 13, the flail mechanism 200 includes a sliding block 220 and an elastic stretching member 230, the elastic stretching member 230 is disposed along the radial direction of the rotating disc 100, the inner end thereof is connected to the inner end of the sliding slot 210, and the outer end thereof is connected to the sliding block 220.

A guide rod 250 is arranged in the sliding groove 210 along the length direction thereof, a guide hole 223 penetrates through the sliding block 220, and the sliding block 220 is slidably sleeved on the guide rod 250 through the guide hole 223. Inner insertion holes are respectively formed in inner end surfaces of the sliding grooves 210, and outer insertion holes are radially penetrated through the outer ring body 120. Two ends of the guide rod 250 are respectively inserted into the inner inserting hole and the outer inserting hole.

Specifically, the elastic tension member 230 is an elastic band or a tension spring. If an extension spring is used, the guide rod 250 is inserted into the extension spring.

A tension measuring element 240 is further disposed between the inner end of the elastic stretching member 230 and the inner end of the sliding chute 210, a signal output end of the tension measuring element 240 is connected with a signal emitting element, and a signal emitted by the signal emitting element is transmitted through a communication line.

All the hydraulic telescopic rods e1 are connected with the same lifting controller, and the signal input end of the lifting controller is connected with a signal receiver which is used for receiving signals transmitted by the signal transmitting element.

After a tourist sits on the seat, the hydraulic telescopic rod firstly extends out for a certain length. 3 tension lifting control intervals are preset in a lifting controller:

the first tension lifting control interval: when the tension value is 30-50N, the lifting controller does not send out a lifting signal, and the hydraulic telescopic rod e1 is kept still;

a second tension lifting control interval: when the tension value is 0-30N, the lifting controller sends a descending signal, and the hydraulic telescopic rod e1 is driven to rotate at a speed v₁Shrinking until the lowest state value is reached;

a third tension lifting control interval: when the tension value is 50-100N, the lifting controller sends a lifting signal, and the hydraulic telescopic rod e1 is driven to rotate at a speed v₂Performing elongation until a maximum state value is reached;

in this embodiment, v₁＝v₂The stroke of the hydraulic telescopic rod e1 is 300mm when the stroke is 20mm/s, and the extension of the hydraulic telescopic rod is 150mm when the stroke is in the initial state.

In this embodiment, the motor of the axial flow fan of the blowing device f is connected with a fan controller, and the motor is connected with a power supply through a fan frequency converter. In the embodiment, the rated speed of the fan is 1200 r/min.

The input end of the fan controller is connected with the signal transmitting element, and the fan control output end of the fan controller is connected with the fan frequency converter.

When the tension value is 0-20N, the fan controller sends a frequency control signal z1 to keep the frequency of the fan frequency converter at 20 Hz;

when the tension value is 20-80N, the fan controller sends out a frequency control signal z1-z2, so that the frequency of the fan frequency converter is kept at 20-50 Hz and is changed in an equal proportion.

When the tension value is larger than 80N, the fan controller sends out a frequency control signal z2, so that the frequency of the fan frequency converter is kept unchanged at 50 Hz.

The tension measuring element 240 is a tension sensor, such as the model Forsentek FS 03. For convenient installation, the inner end of the guide rod 250 may be processed into a curved shape to form an abdicating space, which facilitates the installation and connection between the tension sensor and the inner end of the chute 210, and between the tension sensor and the elastic tension member 230.

As shown in fig. 12, an annular lamp strip 500, a power module 800 and a lamp strip electrode group are disposed on the turntable 100, the lamp strip electrode group includes two fixed electrodes 630, the lamp strip 500 includes two segments of lamp strip wires, each segment of the lamp strip wires is respectively connected in series with a plurality of L ED lamps, two ends of the lamp strip wires are respectively a power end and an electrode end, the power end of the lamp strip wires is respectively connected with the output end of the power module 800, the electrode ends of the lamp strip wires are respectively connected with the fixed electrodes 630, and the two fixed electrodes 630 are respectively disposed on two side walls of any one of the chutes 210.

At least two lamp strips 500 are arranged on the turntable 100, the lamp strips 500 are annularly arranged around the center line of the turntable 100, all the lamp strips 500 are sequentially arranged from inside to outside in the radial direction, and the colors of the lamp strips 500 are different from inside to outside. All the light strip electrode groups are distributed on the corresponding groove wall of the sliding groove 210 along the radial direction of the turntable 100.

As shown in fig. 14 and 15, a switch electrode assembly 700 is disposed on the slider 220, the switch electrode assembly 700 includes two floating electrodes 710, the two floating electrodes 710 are respectively in one-to-one correspondence with the two fixed electrodes 630, the two floating electrodes 710 are connected by an electrode lead 720, and the slider 220 slides radially to make the floating electrodes 710 respectively contact with the corresponding fixed electrodes 630.

The slider 220 is provided with two floating electrode cavities, the two floating electrode cavities are respectively close to two groove walls of the sliding groove 210, the floating electrodes 710 are respectively arranged in the floating electrode cavities, and the floating electrodes 710 extend out of the side surface of the slider 220 and extend into the electrode grooves 211.

Specifically, as shown in fig. 16, the sliding block 220 includes an upper sliding block 221 and a lower sliding block 222, which are symmetrical up and down and detachably connected. In the figure, the upper part is a bottom view of the upper slider, and the lower part is a top view of the lower slider. The upper surface of the upper slider 221 is provided with two upper half cavities 221a, and the lower surface of the lower slider 222 is provided with two lower half cavities 222 a. After the upper slider 221 and the lower slider 222 are fastened, a set of the upper half cavity 221a and the lower half cavity 222a opposite to each other are combined to form the floating electrode cavity. The upper slider 220 and the lower slider 220 are fixedly connected through bolts.

A lead hole 221b is further formed through the upper slider 221, an inner port of the lead hole 221b extends to the half cavity 221a, and an outer end of the lead hole 221b penetrates through the upper surface of the upper slider 221.

As shown in fig. 17, the floating electrode 710 includes a housing 711, an electrode head 713 is movably inserted into the housing 711, a compression spring 712 is disposed in the housing 711, one end of the compression spring 712 is connected to an inner end of the electrode head 713, and the other end abuts against an inner wall of the housing 711.

The outer end of the electrode head 713 movably penetrates through the shell 711, the outer end of the electrode head 713 is an arc-shaped raised head, and the inner end of the electrode head 713 is provided with a limiting plate 714. The outer ends of the electrode heads 713 abut the respective electrode strips 600. Both ends of the electrode lead 720 are respectively connected to the electrode taps 713 within the same switching electrode assembly 700.

Specifically, as shown in fig. 18 to 20, an electrode strip 600 is respectively disposed on two side groove walls of the sliding groove 210, the electrode strip 600 includes a strip-shaped base 610, a plurality of fixed electrodes 630 are embedded on the base 610, the fixed electrodes 630 extend out of the base 610, and the fixed electrodes 630 on the two electrode strips 600 are directly opposite to each other. The fixed electrodes 630 correspond to the light strips 500 one to one. The fixed electrode 630 is provided with a terminal 640, and the terminal 640 protrudes upwards out of the substrate 610.

The electrode grooves 211 are respectively formed on the groove walls of the two sides of the sliding groove 210, the electrode grooves 211 are arranged along the length direction of the sliding groove 210, the electrode strips 600 are inserted into the electrode grooves 211, and the cross sections of the electrode strips 600 are adapted to the cross section shapes of the electrode grooves 211.

The base body 610 comprises parallel mounting bars and inserting bars 620, the inserting bars 620 and the mounting bars are integrally formed, the mounting bars are provided with fixed electrodes 630, and the inserting bars 620 are in a dovetail shape. The electrode groove 211 is a necking groove, the substrate 610 is inserted in the electrode groove 211, and the insertion strips can prevent the substrate 610 from being separated. The floating electrode 710 faces the opening of the electrode recess 211.

A wiring notch 112 is respectively formed on the wall of the chute 210 corresponding to each of the fixed electrodes 630, and the wiring notch 112 is located above the corresponding wiring stud 640.

The turntable 100 includes an inner disc body 110 and an outer ring body 120. The sliding groove 210 is formed in the upper surface of the inner tray 110, and the outer end of the sliding groove 210 extends outwards and penetrates through the cylindrical surface of the inner tray 110.

The outer end of the electrode groove 211 penetrates out of the cylindrical surface of the inner disc 110. An annular light belt groove 111 is formed in the upper surface of the inner tray body 110, the light belt 500 is arranged in the light belt groove 111, and the light belt grooves 111 correspond to the light belt 500 one by one. The sliding block 220 is located below the horizontal position of the groove bottom of the lamp groove 111, so that the sliding block 220 is prevented from interfering with the lamp strip 500 in the sliding process.

The outer ring body 120 is sleeved outside the inner disc body 110, the inner side surface of the outer ring body 120 is abutted against the cylindrical surface of the inner disc body 110, and the outer ring body 120 is fixedly connected with the inner disc body 110 through bolts.

As shown in fig. 13, a locking cylinder 130 is radially inserted into the outer insertion hole, and an outer end of the locking cylinder 130 is closed. The outer end of the guide rod 250 extends into the locking cylinder 130, the cylinder bottom of the locking cylinder 130 abuts against the outer end of the guide rod 250, and the outer wall of the locking cylinder 130 is in threaded fit with the outer plug hole.

As shown in fig. 4 to 7, the rotation support mechanism 500 includes a separation preventing groove 510 and a radial support mechanism 540. An annular inner retainer ring 530 and an annular outer retainer ring 520 are vertically arranged on the lower surface of the rotary disc 100, the inner retainer ring 530 and the outer retainer ring 520 are arranged on the same center line of the rotary disc 100, and the anti-falling groove 510 is formed in the area between the inner retainer ring 530 and the outer retainer ring 520.

The rotating support 300 is a hollow column, and the upper end of the rotating support 300 extends into the anti-falling groove 510. The outer wall of the inner retainer ring 530 abuts the inner wall of the rotating strut 300, and the inner wall of the outer retainer ring 520 is adjacent to the outer wall of the drop-out prevention groove 510.

The radial support mechanism 540 is disposed between the upper end surface of the rotation column 300 and the groove bottom of the drop-off prevention groove 510. The radial support mechanism 540 includes a lower ball groove 541, and the lower ball groove 541 is opened at an upper end surface of the rotation column 300. An upper ball groove 543 is formed at the bottom of the anti-drop groove 510, the upper ball groove 543 faces the lower ball groove 541, and support balls 542 are disposed in the lower ball groove 541 and the upper ball groove 543.

A radial anti-deviation mechanism including an anti-deviation ball 550 is provided between the upper end of the rotation column 300 and the outer retainer ring 520. A ball hole 521 radially penetrates through the outer retainer ring 520, the inner end of the ball hole 521 is narrowed, and the anti-deviation ball 550 is arranged in the ball hole 521. A limiting ring 560 is sleeved outside the outer retainer ring 520, the inner wall of the limiting ring 560 is attached to the outer wall of the outer retainer ring 520, and the limiting ring 560 covers the outer end of the ball hole 521.

The power module 800 is disposed between the rotation support 300 and the turntable 100. The power module 800 includes a rotor winding 820, a pair of stator poles, and a battery 830. The stator magnetic poles are magnetic shoes, the stator magnetic pole pairs are arranged in the inner cavity of the rotating support 300 and attached to the inner wall of the rotating support, the rotor winding 820 is arranged on the lower surface of the rotating disc 100, and the rotor winding 820 is positioned between the two stator magnetic poles. A battery cavity 150 is formed in the center of the upper surface of the turntable 100, the battery 830 is disposed in the battery cavity 150, and the battery 830 supplies power to the light strip 500 and the tension sensor. The output end of the rotor winding 820 is connected to the battery 830 through a rectifier.

The rotating shaft 140 is inserted into the battery cavity 150, the rotating shaft 140 is a hollow shaft, the lower end of the outer wall of the rotating shaft 140 is connected with the inner wall of the battery cavity 150 through a key, and the storage battery 830 is arranged in the cavity of the rotating shaft 140. The output end of the storage battery 830 is connected with the tension measuring element 240 and the lamp strip 500 through wires.

The upper surface of the turntable 100 is covered with a panel 140, and the upper end of the rotating shaft 140 penetrates out of the panel 140.

When the tourist experiences and plays, take on the seat, tie the safety belt, hydraulic telescoping rod is first the jacking to half of maximum stroke. The tourist steps on the pedal to drive the turntable 100 to rotate, at the moment, the sliding block 220 in the turntable slides outwards in the radial direction under the action of centrifugal force, and the two floating electrodes 710 on the two sides of the sliding block 220 are in sliding contact with the electrode strips 600, so that the two fixed electrodes 630 in the same lamp strip electrode group are communicated, and the corresponding lamp strip is connected with a power supply to emit light. The position of the sliding block can be indicated, feedback is given to the tourists, and interestingness is enhanced. Due to the fact that different lamp strips are different in color, when the rotating speed of the turntable 100 is different, the slider 220 is in different positions, the luminous lamp strips 500 are different, and therefore the effect similar to thermodynamic diagrams can be achieved. The higher the rotation speed, the more the lamp strip 500 close to the outer side emits light, when the rotation speed is reduced, the slider returns to the center direction of the turntable 100, and the lamp strip 500 on the inner side emits light.

Meanwhile, when the sliding block 220 is in different position states, the tension detected by the tension sensor is different, the tension information is converted into a signal and sent out by the signal transmitting element, and the signal is respectively transmitted to the signal receiver and the fan frequency converter. When the tension is increased, the fan controller adjusts the rotating speed of the blowing device to increase the wind power, and meanwhile, the lifting controller adjusts the jacking of the hydraulic telescopic rod to lift the platform e 2; conversely, the wind speed decreases and platform e2 descends; in addition, the lifting controller controls a plurality of hydraulic telescopic rods to lift at different heights, so that the platform has a bumping effect. The adjustment has a feedback effect on the pedaling speed of the tourist through the pedal b2, and the control feeling and the flying stimulation experience feeling of the tourist are increased.

Furthermore, virtual reality technology is combined, VR glasses are worn for the passenger to show different flying scenes, such as simulated scenes of forest, lake, city, desert and the like, and the flying experience effect of the tourist can be enhanced.

Finally, it should be noted that the above-mentioned description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and scope of the present invention.

Claims (6)

1. A simulated flight entertainment device carousel comprising a horizontally disposed carousel (100), characterized in that: the rotary table (100) is provided with at least two block throwing mechanisms (200), and all the block throwing mechanisms (200) are uniformly distributed around the central shaft of the rotary table (100) in the circumferential direction;

a sliding groove (210) is formed in the upper surface of the turntable (100) corresponding to each throwing block mechanism (200), the sliding groove (210) is located in the horizontal direction, the sliding groove (210) is arranged along the radial direction of the turntable (100), and the throwing block mechanisms (200) are arranged in the sliding groove (210) respectively;

the flail block mechanism (200) comprises a sliding block (220) and an elastic stretching piece (230), the elastic stretching piece (230) is arranged along the radial direction of the turntable (100), the inner end of the elastic stretching piece is connected with the inner end of the sliding groove (210), and the outer end of the elastic stretching piece is connected with the sliding block (220); the rotary table is characterized by further comprising a base (400), wherein a rotary support column (300) is arranged on the base (400), the rotary table (100) is arranged at the upper end of the rotary support column (300), and a rotary supporting mechanism (500) is arranged between the rotary support column (300) and the rotary table (100);

a power generation module (800) is also arranged between the rotating support (300) and the turntable (100);

the rotating support (300) is in a hollow column shape, and the upper end face of the rotating support faces the lower surface of the turntable (100);

the rotary supporting mechanism (500) comprises an anti-falling groove (510), the anti-falling groove (510) is formed in the lower surface of the rotary table (100), the anti-falling groove (510) is annular, the central line of the anti-falling groove (510) is overlapped with the central line of the rotary table (100), the upper end of the rotary supporting column (300) extends into the anti-falling groove (510), and two groove walls of the anti-falling groove (510) are respectively attached to the outer wall and the inner wall of the rotary supporting column (300);

the rotary support mechanism (500) further comprises a radial support mechanism (540);

the radial support mechanism (540) is arranged between the upper end face of the rotating strut (300) and the groove bottom of the anti-drop groove (510);

the radial support mechanism (540) comprises a lower ball groove (541), and the lower ball groove (541) is formed in the upper end face of the rotating strut (300);

an upper ball groove (543) is arranged at the bottom of the anti-drop groove (510), and the upper ball groove (543) is opposite to the lower ball groove (541);

supporting balls (542) are arranged in the lower ball groove (541) and the upper ball groove (543);

an annular inner retainer ring (530) and an annular outer retainer ring (520) are vertically arranged on the lower surface of the rotary table (100), the inner retainer ring (530) and the outer retainer ring (520) are arranged on the same center line of the rotary table (100), and the anti-falling groove (510) is formed in the area between the inner retainer ring (530) and the outer retainer ring (520);

a radial deviation prevention mechanism is arranged between the upper end of the rotating strut (300) and the outer retainer ring (520), and comprises a deviation prevention ball (550);

a ball hole (521) radially penetrates through the outer retainer ring (520), the inner end of the ball hole (521) is contracted, and the anti-deviation ball (550) is arranged in the ball hole (521);

a limiting ring (560) is sleeved outside the outer retainer ring (520), the inner wall of the limiting ring (560) is attached to the outer wall of the outer retainer ring (520), and the limiting ring (560) covers the outer end of the ball hole (521).

2. The simulated flight entertainment device carousel of claim 1, wherein: the power generation module (800) comprises a rotor winding (820) and at least one pair of stator pole pairs;

the stator magnetic pole pair is arranged in the inner cavity of the rotating support column (300);

the rotor winding (820) is arranged on the lower surface of the turntable (100), and the rotor winding (820) is positioned between the stator magnetic pole pairs;

the output end of the rotor winding (820) is connected with a storage battery (830) through a rectifier.

3. The simulated flight entertainment device carousel of claim 1 or 2, wherein: a guide rod (250) is arranged in the sliding chute (210) along the length direction of the sliding chute, the guide rod (250) is arranged along the radial direction of the rotating disc (100), and two ends of the guide rod (250) are respectively connected with two ends of the sliding chute (210);

the sliding block (220) is provided with a guide hole in a penetrating manner, and the sliding block (220) is sleeved on the guide rod (250) through the guide hole in a sliding manner.

4. The simulated flight entertainment device carousel of claim 3, wherein: the turntable (100) comprises an inner turntable body (110) and an outer ring body (120);

the upper surface of the inner disc body (110) is provided with the sliding groove (210), and the outer end of the sliding groove (210) extends outwards and penetrates out of the cylindrical surface of the inner disc body (110);

the inner side surface of the outer ring body (120) is abutted against the cylindrical surface of the inner disc body (110);

the outer ring body (120) is fixedly connected with the inner disc body (110) through bolts.

5. The simulated flight entertainment device carousel of claim 4, wherein: inner inserting holes are respectively formed in the inner end surfaces of the sliding grooves (210), outer inserting holes radially penetrate through the outer ring body (120), and the outer inserting holes correspond to the inner inserting holes one to one;

two ends of the guide rod (250) are respectively arranged in the inner inserting hole and the outer inserting hole in a penetrating mode;

a locking cylinder (130) is radially inserted into the outer plug hole, and the outer end of the locking cylinder (130) is closed;

the outer end of the guide rod (250) extends into the locking cylinder (130), the cylinder bottom of the locking cylinder (130) abuts against the outer end of the guide rod (250), and the outer wall of the locking cylinder (130) is in threaded fit with the outer plug hole.

6. The simulated flight entertainment device carousel of claim 5, wherein: the upper surface of the turntable (100) is covered with a transparent panel (140).

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