CN112967640B - Self-tracking music rhythm display device based on aesthetics - Google Patents

Abstract

The invention discloses a self-tracking music rhythm display device based on aesthetics, belonging to the technical field of music rhythm display, and the self-tracking music rhythm display device based on aesthetics comprises a display device body, wherein an aquatic tank and a control chamber are arranged in the display device body, the aquatic tank is positioned right above the control chamber, the simulation of a music frequency spectrum image is realized by arranging a plurality of vertical electric jacking mechanisms, a bionic descent control mechanism and an intelligent LED lamp belt which are matched with the plurality of vertical electric jacking mechanisms in the aquatic tank, a picture of a fish in water for tracing a jellyfish on music frequency spectrum is simulated by arranging a magnetic type bionic suspension ball guide mechanism capable of automatically tracking a bionic lifting sleeve between the plurality of bionic descent control mechanisms, and the cool lighting effect and the interest of simulating a real aquatic ecology are combined with each other to perform more beautiful interpretation on music rhythm, can attract the eyes of the viewer.

Description

Self-tracking music rhythm display device based on aesthetics

Technical Field

The invention relates to the technical field of music rhythm display, in particular to a self-tracking music rhythm display device based on aesthetics.

Background

With the development of science and technology, it is difficult to satisfy the increasing demand of people simply through listening, and more music devices will visually inform users of more experiences, so as to add more live atmosphere to users in the process of listening to music, for example: the adjustment of the color and the brightness of the light is carried out through the rhythm of the music or the style and the temperament of the music.

Although good lighting effects can directly affect the display effect, excessive use of light can also make the audience more dislike, and the existing display devices do not show music rhythm as a deeper meaning and lack certain aesthetic impression, so that an aesthetic self-tracking type music rhythm display device is provided.

Disclosure of Invention

1. Technical problem to be solved

In view of the problems in the prior art, it is an object of the present invention to provide an aesthetic self-tracking musical rhythm exhibiting device, it is characterized in that a plurality of vertical electric jacking mechanisms, a bionic slow descending mechanism and an intelligent LED lamp strip which are matched with the vertical electric jacking mechanisms are arranged in the aquatic tank to realize the simulation of the frequency spectrum image of music, through set up between a plurality of bionical slowly falling mechanism and can simulate out the picture that the aquatic fish chased after to the jellyfish that beats on the music frequency spectrum is imitated to bionical suspension ball guide mechanism of magnetism of formula of inhaling that bionical lifting sleeve trails automatically, make the cool light effect of dazzling and simulate real aquatic ecological interest mutually combine in order to carry out more beautiful explanation to the musical rhythm, lack living machine like traditional display device, give one kind like the sense of the aquatic fish general leisurely self-playing, can attract the sight of sight more.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A self-tracking music rhythm display device based on aesthetics comprises a display device body, wherein an aquatic box and a control chamber are arranged in the display device body, the aquatic box is positioned right above the control chamber, water is contained in the aquatic box, a plurality of uniformly arranged transparent pipelines are fixedly connected to the upper inner wall of the aquatic box, the lower ends of the transparent pipelines penetrate through the display device body and are communicated with the control chamber, the right inner wall of each transparent pipeline is fixedly connected with a vertically arranged first electric sliding table, a top block is installed on each first electric sliding table, vertically arranged LED lamp strips are fixedly connected to the left inner wall and the right inner wall of each transparent pipeline, a slide bar positioned in each transparent pipeline is fixedly connected to the upper inner wall of the aquatic box, the lower end of the slide bar is fixedly connected with the lower inner wall of the control chamber, a bionic lifting sleeve matched with the top block is slidably connected to the slide bar, and vertically arranged long grooves are formed in the side walls of the slide bar, the device is characterized in that a plurality of vertical electric jacking mechanisms and matched bionic slow-falling mechanisms and intelligent LED lamp belts are arranged in the aquatic tank to simulate the frequency spectrum image of music, the magnetic type bionic suspension ball guide mechanism capable of automatically tracking the bionic lifting sleeve is arranged between the bionic slow descending mechanisms to simulate a picture traced by a fish in water to a bouncing jellyfish on a music frequency spectrum, so that the cool lamplight effect and the interest of simulating real aquatic ecology are combined with each other to interpret music rhythm more delicately, the traditional display device is not boring and lacking in vitality, the touch similar to that of the fish in water playing and natural and joy is given, and the sight of an observer can be attracted more.

Further, a speed reduction groove is formed in the inner portion of the bionic lifting sleeve, a rotating shaft is installed in the speed reduction groove, a roller which is attached to the side wall of the sliding rod is connected to the rotating shaft in a rotating mode, a rubber pad is sleeved on the surface of the roller, the side wall of the rotating shaft is fixedly connected with a speed reduction plate matched with the sliding rod, the bionic lifting sleeve can keep descending at a constant speed along the sliding rod to simulate a jumping board which slowly descends in a music frequency spectrum, and meanwhile when the bionic lifting sleeve slides up along the sliding rod, the speed reduction plate is prevented from rubbing the bionic lifting sleeve, and the bionic lifting sleeve is prevented from ascending.

Furthermore, the four-way guide rail mechanism comprises a second electric sliding table, the upper inner wall and the lower inner wall of the second electric sliding table are fixedly connected with the fixed frame, the second electric sliding table is vertically arranged, a third electric sliding table horizontally arranged is installed on the second electric sliding table, the guide rail fixed frame of the third electric sliding table is connected in a sliding manner, the second electric sliding table drives the third electric sliding table to move up and down along the vertical direction, the third electric sliding table can drive the magnet block to move left and right along the horizontal direction, and the magnet block can be moved randomly in the range of the fixed frame.

Furthermore, the fan-shaped thin belt is fixedly connected to the side wall of the bionic suspension ball, the thin belt is streamline, the shape of the bionic suspension ball is similar to that of a fish, when the magnet block attracts the bionic suspension ball to enable the bionic suspension ball to move in water, the streamline body of the bionic suspension ball can play a role in guiding the posture of the bionic suspension ball, meanwhile, the resistance of the thin belt to move in water can be reduced, and the bionic suspension ball can be effectively prevented from being separated from the magnetic field gravitation range of the magnet block.

Further, bionical suspension ball lateral wall fixedly connected with runs through the tailrace that takes the setting, tailrace internally mounted has a plurality of suspension pieces, and the suspension piece intussuseption is filled with phosphor powder, and the tailrace can simulate the afterbody of fish, and the buoyancy of tailrace in aqueous can be improved to the suspension piece, and the accessible tailrace applies an ascending power to fan-shaped thin area simultaneously, makes to take and can almost keep the suspended state in aqueous, and the phosphor powder in the suspension piece can self-luminous, improves the whole vision impression effect of taking and tailrace.

Furthermore, the bionic suspension ball is a hollow ball, the whole weight of the bionic suspension ball is equal to the maximum buoyancy of the bionic suspension ball, the bionic suspension ball can maintain a suspension state in water, external force is effectively prevented from acting on the bionic suspension ball, and the magnet block can better guide the bionic suspension ball.

Furthermore, the outer end of the bionic lifting sleeve is sleeved with the jellyfish-imitating sleeve, the jellyfish-imitating sleeve is a semitransparent rubber sleeve, and fluorescent powder is filled in the jellyfish-imitating sleeve, so that the bionic lifting sleeve can simulate jellyfish, and the fluorescent powder in the jellyfish-imitating sleeve can enable the jellyfish to emit light automatically, thereby improving the visual effect.

Further, the thickness of case left side wall is inhaled to magnetism is 7mm, the distance between the magnet piece and the case left side inner wall of magnetism is 3mm, and the magnet piece attracts the bionical suspension ball in the water through the magnetism suction box, can make bionical suspension ball fully be in the stronger magnetic field scope of magnet piece, improves the attraction guide effect of magnet piece to bionical suspension ball.

Further, a plurality of coral and pasture and water decorations are installed to the inner wall under the hydrophyte case, a plurality of bubble generators are installed to the inner wall under the hydrophyte case, and bubble generator can be spit the bubble in water to the environment under the emulation can strengthen the whole aesthetic property of device.

Further, transparent pipe inner wall fixedly connected with baffle, and the baffle is located between bionical lift cover and the electronic slip table of first, vertical slot hole has been seted up on the baffle, the kicking block runs through the slot hole setting, and the baffle can shelter from the electronic slip table of first on bionical lift cover right side, avoids the electronic slip table of first directly to expose under the view of the sight influence whole aesthetic property.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme realizes simulating the spectral image of music through set up a plurality of vertical electric jacking mechanisms and bionical slow descending mechanism and the intelligent LED lamp area of matched with it in the aquatic case, through set up between a plurality of bionical slow descending mechanisms can simulate out the picture that the aquatic fish pursued on the music frequency spectrum to bionical suspension ball guide mechanism of magnetism type of carrying on the tracking automatically to bionical lifting sleeve, make cruel light effect and the real aquatic ecology of simulation interesting mutually combined in order to carry out more beautiful explanation to the music movement, do not lack living machine like traditional display device is boring, give the sense of a general leisurely natural free play of fish paddling in the aquatic, can attract viewer's glad hands more.

(2) The inside deceleration groove of having seted up of bionical lift cover, the axis of rotation is installed to the deceleration groove, the swivelling joint has the gyro wheel of laminating mutually with the slide bar lateral wall in the axis of rotation, and gyro wheel surface cover has the rubber pad, axis of rotation lateral wall fixedly connected with and slide bar matched with air brake, make bionical lift cover can keep descending at the uniform velocity along the slide bar gliding, with the springboard that slowly descends in the simulation music frequency spectrum, when the bionical lift cover is slided along the slide bar, avoid the air brake to cause the friction to bionical lift cover, hinder it to rise.

(3) The bionic suspension ball is characterized in that a fan-shaped thin belt is fixedly connected to the side wall of the bionic suspension ball, the thin belt is streamline, the shape of the bionic suspension ball is similar to that of a fish, when a magnet block attracts the bionic suspension ball to move in water, the streamline body of the bionic suspension ball can guide the posture of the bionic suspension ball, the resistance of the thin belt to move in water can be reduced, the bionic suspension ball can be effectively prevented from being separated from the magnetic field attraction range of the magnet block, a tail belt penetrating through the thin belt is fixedly connected to the side wall of the bionic suspension ball, a plurality of suspension blocks are mounted inside the tail belt, the tail belt can simulate the tail of the fish, the suspension blocks can improve the buoyancy of the tail belt in water, meanwhile, an upward force can be applied to the fan-shaped thin belt through the tail belt, and the thin belt can almost keep a suspension state in water.

(4) Imitative jellyfish cover has been cup jointed to bionical lifting sleeve outer end, and imitative jellyfish cover is the translucent gum cover, and imitative jellyfish cover intussuseption is filled with phosphor powder, makes bionical lifting sleeve can simulate jellyfish, and the piece intussuseption in the imitative jellyfish cover is filled with phosphor powder simultaneously, and phosphor powder can make "jellyfish" and suspension piece luminous by oneself, improves whole vision impression effect.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a front cross-sectional view of the present invention;

FIG. 3 is a side cross-sectional view of a transparent tube of the present invention;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural view of a biomimetic sliding sleeve according to the present invention;

FIG. 6 is a side cross-sectional view of the magnetic suction box of the present invention;

FIG. 7 is a schematic structural view of a four-way track mechanism of the present invention;

FIG. 8 is a schematic view of the structure at B in FIG. 7;

FIG. 9 is a schematic view of a construction of a biomimetic ball according to the present invention;

fig. 10 is a schematic view of the structure at C in fig. 9.

The reference numbers in the figures illustrate:

the device comprises a display device body 1, a 101 aquatic tank, a 102 control room, a 2 transparent pipeline, a 3 first electric sliding table, a 4 top block, a 5LED lamp strip, a 6 sliding rod, a 601 photosensitive sensor, a 7 bionic lifting sleeve, a 701 rotating shaft, 702 rollers, 703 speed reducing plates, a 8 magnetic suction tank, a 9 fixing frame, a 901 second electric sliding table, a 902 third electric sliding table, a 10 magnet block, 11 bionic suspension balls, 12 magnet balls, 13 tail belts, 1301 suspension blocks, a 14 bubble generator and 15 partition plates.

Detailed Description

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 to be understood that the embodiments described are merely exemplary embodiments, rather than exemplary embodiments, and that all other embodiments may be devised by those skilled in the art without departing from the scope of the present invention.

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

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example 1:

referring to fig. 1-2, a self-tracking music rhythm display device based on aesthetics comprises a display device body 1, wherein a water tank 101 and a control chamber 102 are arranged in the display device body 1, the water tank 101 is positioned right above the control chamber 102, water is contained in the water tank 101, a plurality of transparent pipelines 2 which are uniformly arranged are fixedly connected to the inner wall of the water tank 101, the lower ends of the transparent pipelines 2 penetrate through the display device body 1 and are communicated with the control chamber 102, referring to fig. 3-4, a vertically arranged first electric sliding table 3 is fixedly connected to the right inner wall of the transparent pipeline 2, the electric sliding table comprises a sliding block, a ball screw and a supporting seat thereof, a linear guide rail and a stepping motor, and no further description is given, a top block 4 is mounted on the first electric sliding table 3, vertically arranged LED lamp strips 5 are fixedly connected to the left inner wall and the right inner wall of the transparent pipeline 2, a sliding rod 6 positioned in the transparent pipeline 2 is fixedly connected to the inner wall of the water tank 101, and the lower end of the slide bar 6 is fixedly connected with the lower inner wall of the control room 102, the slide bar 6 is slidably connected with a bionic lifting sleeve 7 matched with the top block 4, please refer to fig. 5, the side wall of the slide bar 6 is provided with a vertically arranged long groove, a plurality of photosensitive sensors 601 are arranged in the long groove, and the plurality of photosensitive sensors 601 are arranged at equal intervals, please refer to fig. 2, a magnetic suction box 8 is arranged between two adjacent transparent pipelines 2, please refer to fig. 6-7, the magnetic suction box 8 is fixedly connected with the right inner wall of the aquatic tank 101, the right inner wall of the magnetic suction box 8 is fixedly connected with a fixed frame 9, a four-way guide rail mechanism is arranged on the fixed frame 9, please refer to fig. 7-8, a magnet block 10 is arranged on the four-way guide rail mechanism, a bionic suspension ball 11 is arranged in the water contained in the aquatic tank 101, refer to fig. 9, a magnet ball 12 matched with the bionic suspension ball 10 is arranged inside the bionic suspension ball 11, please refer to fig. 2, a controller is arranged in the control room 102, the first electric sliding table 3, the LED lamp strip 5, the photosensitive sensor 601 and the four-way guide rail mechanism are electrically connected with the controller, it is characterized in that a plurality of vertical electric jacking mechanisms, a bionic slow descending mechanism and an intelligent LED lamp strip which are matched with the vertical electric jacking mechanisms are arranged in the aquatic tank to realize the simulation of the frequency spectrum image of music, through set up between a plurality of bionical slowly falling mechanism and can simulate out the picture that the aquatic fish chased after to the jellyfish that beats on the music frequency spectrum is imitated to bionical suspension ball guide mechanism of magnetism of formula of inhaling that bionical lifting sleeve trails automatically, make the cool light effect of dazzling and simulate real aquatic ecological interest mutually combine in order to carry out more beautiful explanation to the musical rhythm, lack living machine like traditional display device, give one kind like the sense of the aquatic fish general leisurely self-playing, can attract the sight of sight more.

Referring to fig. 1, a deceleration groove is formed in the bionic lifting sleeve 7, a rotation shaft 701 is installed in the deceleration groove, a roller 702 attached to the side wall of the slide bar 6 is rotatably connected to the rotation shaft 701, a rubber pad is sleeved on the surface of the roller 702, a deceleration plate 703 matched with the slide bar 6 is fixedly connected to the side wall of the rotation shaft 701, when the bionic lifting sleeve 7 slides down along the slide bar 6 and accelerates, the rotation shaft 701 rolls along the side wall of the slide bar 6, a certain damping is provided between the rotation shaft 701 and the roller 702, the roller 702 drives the rotation shaft 701 to rotate, so that the deceleration plate 703 on the rotation shaft 701 and the side wall of the slide bar 6 are attached to rub to generate an upward resistance to decelerate the bionic lifting sleeve 7, when the sliding speed of the bionic lifting sleeve 7 is faster, the roller 702 rotates faster, the larger the resistance the deceleration plate applies to the bionic lifting sleeve 7, the more obvious deceleration effect to the bionic lifting sleeve 7, when the roller 702 and the speed reducing plate 703 reach a relatively stable balanced state, the bionic lifting sleeve 7 can slide downwards at a constant speed to simulate a springboard which slowly descends in a music frequency spectrum, when the ejector block 4 jacks the bionic lifting sleeve 7, the bionic lifting sleeve 7 slides upwards along the slide rod 6, the rotating shaft 701 rolls upwards along the side wall of the slide rod 6 and drives the speed reducing plate 703 to keep separation from the slide rod 6, and friction resistance of the speed reducing plate 703 on the bionic lifting sleeve 7 in the lifting process of the bionic lifting sleeve 7 is avoided.

Referring to fig. 7, the four-way guide rail mechanism includes a second electric sliding table 901, the second electric sliding table 901 is fixedly connected to the upper and lower inner walls of the fixing frame 9, the second electric sliding table 901 is vertically disposed, a horizontally disposed third electric sliding table 902 is installed on the second electric sliding table 901, the guide fixing frame 9 of the third electric sliding table 902 is slidably connected, the second electric sliding table 901 drives the third electric sliding table 902 to move up and down along the vertical direction, the third electric sliding table 902 can drive the magnet block 10 to move left and right along the horizontal direction, and the magnet block 10 can move freely within the range of the fixing frame 9.

Referring to fig. 9-10, a fan-shaped thin band is fixedly connected to a side wall of the bionic suspension sphere 11, and the thin band is streamlined, so that the shape of the bionic suspension sphere 11 is similar to that of a fish, when the magnet block 10 attracts the bionic suspension sphere 11 to "swim" in water, the streamlined body of the bionic suspension sphere 11 can guide the posture of the bionic suspension sphere 11, and can reduce the resistance of the thin band to "swim" in water, so as to effectively prevent the bionic suspension sphere 11 from separating from the magnetic field attraction range of the magnet block 10, the side wall of the bionic suspension sphere 11 is fixedly connected with a tail band 13 penetrating through the thin band, a plurality of suspension blocks 1301 are installed inside the tail band 13, and the suspension blocks 1301 are filled with fluorescent powder, the tail band 13 can simulate the tail of the fish, the suspension blocks 1301 can improve the buoyancy of the tail band 13 in water, and an upward force can be applied to the fan-shaped thin band through the tail band 13, the thin strip can almost keep a suspension state in water, the fluorescent powder in the suspension block 1301 can emit light automatically, the overall visual impression effect of the thin strip and the tail strip 13 is improved, the bionic suspension ball 11 is a hollow ball, the overall weight of the bionic suspension ball 11 is equal to the maximum buoyancy of the bionic suspension ball, the bionic suspension ball 11 can maintain the suspension state in water, external force is effectively prevented from acting on the bionic suspension ball 11, and the magnet block 10 can better guide the bionic suspension ball 11.

Referring to fig. 5, the outer end of the bionic lifting sleeve 7 is sleeved with a jellyfish-like sleeve, the jellyfish-like sleeve is a semitransparent rubber sleeve, and fluorescent powder is filled in the jellyfish-like sleeve, so that the bionic lifting sleeve 7 can simulate jellyfish, and the fluorescent powder in the jellyfish-like sleeve can make the jellyfish emit light automatically, thereby improving the visual effect.

Referring to fig. 8, the thickness of the left side wall of the magnetic suction box 8 is 7mm, the distance between the magnet block 10 and the left inner wall of the magnetic suction box 8 is 3mm, and the magnet block 10 attracts the bionic suspension ball 11 in water through the magnetic suction box 8, so that the bionic suspension ball 11 is fully located in a stronger magnetic field range of the magnet block 10, and the attraction guiding effect of the magnet block 10 on the bionic suspension ball 11 is improved.

Referring to fig. 1, a plurality of coral and aquatic weed ornaments are mounted on the lower inner wall of the aquatic tank 101, a plurality of bubble generators 14 are mounted on the lower inner wall of the aquatic tank 101, and the bubble generators 14 can emit bubbles in water to simulate an underwater environment, thereby enhancing the overall aesthetic property of the device.

Referring to fig. 3-4, a partition plate 15 is fixedly connected to the inner wall of the transparent pipeline 2, the partition plate 15 is located between the bionic lifting sleeve 7 and the first electric sliding table 3, a vertical long hole is formed in the partition plate 15, the ejector block 4 penetrates through the long hole, the partition plate 15 can shield the first electric sliding table 3 on the right side of the bionic lifting sleeve 7, the ejector block 4 can move up and down in the long hole to lift the bionic lifting sleeve 7, and the phenomenon that the first electric sliding table 3 is directly exposed under the visual field of an observer to affect the overall attractiveness is avoided.

The working principle is as follows: when the device is used, a controller positioned in a control room 102 can automatically analyze frequency spectrum data of music and convert the frequency spectrum data into an electric signal to drive a first electric sliding table 3 in a transparent pipeline 2 to move up and down a top block 4, simultaneously, an LED lamp strip 5 on the inner wall of the transparent pipeline 2 can be lightened from bottom to top to simulate a frequency spectrum image of the music, when the top block 4 ascends, the bionic lifting sleeve 7 can be lifted, the controller can enable the height position of the top block 4 to be the same as the light display height of the LED lamp strip 5 so as to show the picture effect of lifting the bionic lifting sleeve 7 by the light of the simulated frequency spectrum of the LED lamp strip 5, the bionic lifting sleeve 7 slides upwards along a sliding rod 6, when the first electric sliding table 3 simulates that the music frequency spectrum descends quickly and does not support the bionic lifting sleeve 7, the bionic lifting sleeve 7 slides downwards slowly along the sliding rod 6, when the first electric sliding table 3 ascends to a position higher than before, the bionic lifting sleeve 7 can be lifted to a corresponding position, and the simulation effect on the music frequency spectrum can be improved.

When the bionic lifting sleeve 7 slides on the slide bar 6, the photosensitive sensor 601 in the long slot on the side wall of the slide bar 6 can be shielded by the bionic lifting sleeve 7, so that the photosensitive value measured by the photosensitive sensor 601 in the bionic lifting sleeve 7 is reduced, the controller can intelligently compare the value of the photosensitive sensor 601, the photosensitive sensor 601 with lower photosensitive value is equivalent to the bionic lifting sleeve 7 in height, further the position information of the bionic lifting sleeve 7 on the slide bar 6 is monitored in real time, the controller controls the four-way guide rail mechanism on the fixing frame 9 to move the magnet block 10 according to the position information data of the bionic lifting sleeve 7, the magnet block 10 attracts the magnet ball 12 in the bionic ball 11 through the side wall of the magnetic levitation box 8, and guides the bionic levitation ball 11 to continuously move towards the bionic lifting sleeve 7' in the aquatic box 101, so as to simulate the picture of the jellyfish which the fish chase and jump.

When the controller controls the four-way guide rail mechanisms, the controller irregularly controls the third electric sliding tables 902 to drive the magnet block 10 to slide back and forth left and right to simulate the reciprocating swimming effect of a fish in water, the controller can only control the second electric sliding tables 901 to drive the third electric sliding tables 902 to slide up and down according to the height information of the bionic lifting sleeve 7, and adjust the vertical moving speed of the third electric sliding tables 902 according to the horizontal moving speed of the magnet block 10 on the third electric sliding tables 902 to enable the moving direction of the third electric sliding tables 902 to always face the position of the bionic lifting sleeve 7, when the third electric sliding tables 902 drive the magnet block 10 to move left, the magnet block 10 drives the bionic floating ball 11 to move left, the controller selects the position of the magnet block 10 facing one side of the adjacent bionic lifting sleeve 7 as reference data to carry out calculation simulation according to the moving direction of the magnet block 10 on the third electric sliding tables 902, the simulated fish respectively has the effect of repeatedly chasing different jellyfishes on two sides.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by the equivalent or modified embodiments and the modified concepts of the present invention.

Claims (10)

1. A self-tracking music rhythm display device based on aesthetics comprises a display device body (1), and is characterized in that: the water-saving and environment-friendly display device is characterized in that an aquatic box (101) and a control room (102) are arranged in the display device body (1), the aquatic box (101) is located right above the control room (102), water is contained in the aquatic box (101), a plurality of uniformly arranged transparent pipelines (2) are fixedly connected to the upper inner wall of the aquatic box (101), the lower end of each transparent pipeline (2) penetrates through the display device body (1) and is communicated with the control room (102), a vertically arranged first electric sliding table (3) is fixedly connected to the right inner wall of each transparent pipeline (2), a top block (4) is installed on each first electric sliding table (3), vertically arranged LED lamp strips (5) are fixedly connected to the left inner wall and the right inner wall of each transparent pipeline (2), a sliding rod (6) located in each transparent pipeline (2) is fixedly connected to the upper inner wall of the aquatic box (101), and the lower end of each sliding rod (6) is fixedly connected with the lower inner wall of the control room (102), the bionic lifting device is characterized in that a bionic lifting sleeve (7) matched with the jacking block (4) is connected to the slide rod (6) in a sliding manner, a vertically-arranged long groove is formed in the side wall of the slide rod (6), a plurality of photosensitive sensors (601) are installed in the long groove and are arranged at equal intervals, a magnetic absorption box (8) is arranged between every two adjacent transparent pipelines (2), the magnetic absorption box (8) is fixedly connected with the right inner wall of the aquatic box (101), a fixing frame (9) is fixedly connected to the right inner wall of the magnetic absorption box (8), a four-way guide rail mechanism is installed on the fixing frame (9), a magnet block (10) is installed on the four-way guide rail mechanism, a bionic suspension ball (11) is arranged in water contained in the aquatic box (101), a magnet ball (12) matched with the magnet block (10) is installed inside the bionic suspension ball (11), and a controller is installed in the control room (102), the first electric sliding table (3), the LED lamp strip (5), the photosensitive sensor (601) and the four-way guide rail mechanism are electrically connected with the controller;

when the bionic lifting sleeve is used, a controller located in a control room (102) can automatically analyze frequency spectrum data of music and convert the frequency spectrum data into an electric signal to drive a first electric sliding table (3) in a transparent pipeline (2) to move up and down, meanwhile, an LED lamp strip (5) on the inner wall of the transparent pipeline (2) can shine from bottom to top to simulate a frequency spectrum image of the music, the bionic lifting sleeve (7) can be jacked when the top block (4) rises, the height position of the top block (4) can be the same as the light display height of the LED lamp strip (5) by the controller to show a picture effect that light of the simulated frequency spectrum of the LED lamp strip (5) lifts up the bionic lifting sleeve (7), the bionic lifting sleeve (7) slides upwards along a sliding rod (6), when the first electric sliding table (3) simulates the rapid descending of the frequency spectrum of the music and is not in the process of supporting the bionic lifting sleeve (7), the bionic lifting sleeve (7) slowly slides downwards along the sliding rod (6), and when the first electric sliding table (3) is lifted to a position higher than the previous position, the bionic lifting sleeve (7) can be jacked to a corresponding position, so that the simulation effect on a music frequency spectrum can be improved;

when the bionic lifting sleeve (7) slides on the sliding rod (6), the photosensitive sensor (601) positioned in the long groove on the side wall of the sliding rod (6) can be shielded by the bionic lifting sleeve (7), so that the photosensitive value measured by the photosensitive sensor (601) positioned in the bionic lifting sleeve (7) is reduced, the controller can intelligently compare the value of the photosensitive sensor (601), the photosensitive sensor (601) with lower photosensitive value is equivalent to the bionic lifting sleeve (7) in height, and then the position information of the bionic lifting sleeve (7) on the sliding rod (6) is monitored in real time, the controller controls a four-way guide rail mechanism on the fixing frame (9) to move the magnet block (10) according to the position information data of the bionic lifting sleeve (7), and the magnet block (10) attracts the magnet ball (12) in the bionic ball (11) through the side wall of the magnetic suction box (8).

2. An aesthetic based self-tracking musical rhythm display device according to claim 1, wherein: bionic lifting sleeve (7) inside has seted up the deceleration tank, install axis of rotation (701) in the deceleration tank, rotation connection has gyro wheel (702) of laminating mutually with slide bar (6) lateral wall on axis of rotation (701), and gyro wheel (702) surface cover has the rubber pad, axis of rotation (701) lateral wall fixedly connected with and slide bar (6) matched with speed reduction board (703).

3. An aesthetic based self-tracking musical rhythm exhibiting device according to claim 1, wherein: the four-way guide rail mechanism comprises a second electric sliding table (901), the upper inner wall and the lower inner wall of the second electric sliding table (901) are fixedly connected with a fixed frame (9), the second electric sliding table (901) is vertically arranged, a third electric sliding table (902) horizontally arranged is installed on the second electric sliding table (901), and the guide rail fixed frame (9) of the third electric sliding table (902) is in sliding connection.

4. An aesthetic based self-tracking musical rhythm exhibiting device according to claim 1, wherein: the side wall of the bionic suspension ball (11) is fixedly connected with a fan-shaped thin belt which is streamline.

5. An aesthetic based self-tracking musical rhythm display device according to claim 4, wherein: bionic suspension ball (11) lateral wall fixedly connected with runs through tail band (13) that the thin area set up, tail band (13) internally mounted has a plurality of suspension pieces (1301), and suspension piece (1301) intussuseption is filled with phosphor powder.

6. An aesthetic based self-tracking musical rhythm display device according to claim 1, wherein: the bionic suspension ball (11) is a hollow ball, and the whole weight of the bionic suspension ball (11) is equal to the maximum buoyancy thereof.

7. An aesthetic based self-tracking musical rhythm display device according to claim 1, wherein: the outer end of the bionic lifting sleeve (7) is sleeved with an imitation jellyfish sleeve which is a semitransparent rubber sleeve, and fluorescent powder is filled in the imitation jellyfish sleeve.

8. An aesthetic based self-tracking musical rhythm display device according to claim 1, wherein: the thickness of the left side wall of the magnetic suction box (8) is 7mm, and the distance between the magnet block (10) and the left inner wall of the magnetic suction box (8) is 3 mm.

9. An aesthetic based self-tracking musical rhythm display device according to claim 1, wherein: a plurality of coral and pasture and water decorations are installed to inner wall under aquatic case (101), a plurality of bubble generators (14) are installed to inner wall under aquatic case (101).

10. An aesthetic based self-tracking musical rhythm exhibiting device according to claim 1, wherein: transparent pipe way (2) inner wall fixedly connected with baffle (15), and baffle (15) are located bionical lift cover (7) and between first electronic slip table (3), vertical slot hole has been seted up on baffle (15), kicking block (4) run through the slot hole setting.

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